CN111803082A - Blood oxygen monitor - Google Patents

Abstract

The invention discloses a blood oxygen monitor, which comprises a blood oxygen collector and a monitor body, wherein the blood oxygen collector is detachably arranged in the monitor body and is used for detecting a blood oxygen saturation signal parameter and transmitting the blood oxygen saturation signal parameter, and the monitor body is used for receiving and processing the blood oxygen saturation signal parameter and outputting the blood oxygen saturation signal parameter in the form of blood oxygen saturation information. The blood oxygen monitor provided by the invention can monitor and record the blood oxygen saturation information for a long time and has the function of warning.

Description

Blood oxygen monitor

Technical Field

The invention relates to the field of physiological sign monitoring, in particular to a blood oxygen monitor.

Background

When the current oximeter is used, a user needs to place a specific part (such as a finger) of a human body in a finger clip of the oximeter, and the oximeter monitors the current oxygen content in blood through an optical chip and light sensing permeation. However, the conventional oximeter is designed as an integral device, which is not convenient for the user to carry around, so that it is not convenient to monitor the amount of blood oxygen of the user for a long time.

Disclosure of Invention

In view of the above, the present invention provides a blood oxygen monitor, which is integrated with a blood oxygen collector, and can monitor and record the blood oxygen saturation information for a long time, and has a warning function.

The invention provides a blood oxygen monitor, which comprises a blood oxygen collector and a monitor body, wherein the blood oxygen collector is detachably arranged in the monitor body and is used for detecting a blood oxygen saturation degree signal parameter, the blood oxygen collector comprises a first wireless communication module, the first wireless communication module is used for sending the blood oxygen saturation degree signal parameter to the monitor body, the monitor body comprises a second wireless communication module and a processor, the second wireless communication module is used for receiving the blood oxygen saturation degree signal parameter, and the processor is used for acquiring the blood oxygen saturation degree signal parameter and calculating the blood oxygen saturation degree information according to the blood oxygen saturation degree signal parameter.

The blood oxygen monitor provided by the invention has the following beneficial effects: the blood oxygen monitor can monitor and record the blood oxygen saturation information for a long time and has the function of warning.

Drawings

FIG. 1 is a block diagram of a blood oxygen monitor according to a preferred embodiment of the present invention.

FIG. 2 is a block diagram of the blood oxygen collector of the blood oxygen monitor shown in FIG. 1.

Fig. 3 is a block diagram of the monitor body of the blood oxygen monitor shown in fig. 1.

Fig. 4 is a schematic view of an interface displayed on a display screen in the output unit of the monitor body shown in fig. 3.

Description of the symbols

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

To further illustrate the technical means and effects of the present invention for achieving the predetermined purpose, the following detailed description of the blood oxygen monitor provided by the present invention is provided with reference to the accompanying drawings and the preferred embodiments.

Referring to fig. 1, the present invention provides a blood oxygen monitor 100, wherein the blood oxygen monitor 100 includes a blood oxygen collector 10 and a monitor body 20, and the blood oxygen collector 10 is detachably mounted in the monitor body 20.

Referring to fig. 2, the blood oxygen collector 10 is used for detecting the parameters of the blood oxygen saturation signal. The blood oxygen collector 10 comprises a first wireless communication module 101, and the first wireless communication module 101 is used for sending the blood oxygen saturation signal parameter to the monitor body 20. The first wireless communication module 101 may be configured for bluetooth, Wi-Fi, infrared, and other wireless transmission. In the present embodiment, the blood oxygen collector 10 is a blood oxygen finger clip for fixing the finger of the user when the user wears the finger clip.

In the present embodiment, the blood oxygen collector 10 further includes a first power supply unit 102, a second alarm unit 103 and a data processing unit 104. The first power supply unit 102 is connected to the first wireless communication module 101, the second alarm unit 103, and the data processing unit 104, and is configured to provide power to the first wireless communication module 101, the second alarm unit 103, and the data processing unit 104, so that the first wireless communication module 101, the second alarm unit 103, and the data processing unit 104 can operate normally. When the blood oxygen collector 10 is separated from the monitor main body 20, GPIO (general purpose input/output) of the monitor main body 20 is raised. The data processing unit 104 is configured to obtain a remaining power of the first power supply unit 102 and compare the remaining power with a preset power. The second alarm unit 103 is configured to send a second alarm signal to remind a user of charging in time when the remaining power is less than the preset power. In this embodiment, the second alarm unit 103 may be a warning light, a horn, or the like. Preferably, the second alarm unit 103 is an LED lamp, that is, a lamp light flashes to remind the user.

Referring to fig. 3, the monitor body 20 includes a second wireless communication module 201 and a processor 202, and the second wireless communication module 201 is electrically connected to the processor 202. The second wireless communication module 201 is configured to receive the blood oxygen saturation signal parameter transmitted by the first wireless communication module 101. The processor 202 is configured to obtain the blood oxygen saturation signal parameter, and calculate blood oxygen saturation information according to the blood oxygen saturation signal parameter. The blood oxygen saturation information includes blood oxygen content. Since the blood oxygen collector 10 is detachable, the blood oxygen collector 10 can be worn by a user for a long time even during a sleep period to continuously monitor the blood oxygen saturation information of the user. The oxyhemoglobin saturation information can achieve the purpose of monitoring sleep quality and whether apnea exists. The processor 202 is further configured to compare the oximetry signal parameter to a predetermined oximetry level.

The monitor body 20 further includes a first alarm unit 203, and the first alarm unit 203 is electrically connected to the second wireless communication module 201. The first alarm unit 203 is used for sending out a first alarm signal when the parameter of the blood oxygen saturation signal deviates from the preset blood oxygen saturation, so that a user can know the information of the blood oxygen saturation in time and then get a timely treatment. The first alarm unit 203 may be a buzzer for emitting a buzzer sound to notify a user. Of course, in other embodiments, the first alarm unit 203 may also be an LED lamp or a speaker, that is, the user may be notified by flashing lights or voice broadcasting.

In this embodiment, the monitor main body 20 further includes a second power supply unit 204 and an output unit 205, and the second power supply unit 204 is connected to the second wireless communication module 201, the processor 202, the first alarm unit 203 and the output unit 205, and is configured to supply power to the second wireless communication module 201, the processor 202, the first alarm unit 203 and the output unit 205. When the blood oxygen collector 10 is installed on the monitor body 20, the GPIO of the monitor body 20 is lowered, and at this time, the data processing unit 104 is configured to obtain the remaining power of the first power supply unit 102 and compare the remaining power with a preset power, so as to determine whether the first power supply unit 102 is in a low power state, and if so, the second power supply unit 204 charges the first power supply unit 102. In the present embodiment, the blood oxygen collector 10 includes a comparison unit (not shown). When the second power supply unit 204 charges the first power supply unit 102, the comparing unit obtains a voltage of the second power supply unit 204 and compares the voltage with a preset voltage. When the voltage is lower than the preset voltage, the data processing unit 104 disconnects the first power supply unit 102 from the second power supply unit 204 to prevent the second power supply unit 204 from being over-discharged. Further, the first wireless communication module 101 is further configured to send the voltage to the second wireless communication module 201, and the first alarm unit 203 sends out first alarm information.

Referring to fig. 4, the output unit 205 is a display screen. The display screen is further configured to display a user operation interface 30, and the user operation interface 30 includes an oximetry operation option 301. When the oximetry detection operation option 301 is selected, the first wireless communication module 101 establishes communication with the second wireless communication module 201, so as to transmit the oximetry signal parameters to the monitor body 20. Therefore, when the user needs to acquire the blood oxygen saturation information, the blood oxygen saturation detection operation option 301 can be selected. The display screen is further configured to switch to a first display interface (not shown) when the oximetry detection operation option 301 is selected, and the first display interface is configured to display the oximetry information.

The ui 30 further includes an index display option 302, and the display screen is further configured to switch to a second display interface (not shown) when the index display option 302 is selected, and the second display interface is configured to display the health index parameter. The health index parameter may be blood oxygen saturation information of a healthy population, such as a blood oxygen range of the healthy population. Therefore, if the user wants to know whether the blood oxygen saturation information meets the standards of the healthy population, the user can know the health index parameter of the healthy population by selecting the index display option 302.

The monitor body 20 further includes a memory 206, wherein the memory 206 is configured to store the oximetry information in association with user identification information for subsequent viewing.

The ui 30 further includes an advisory operation option 303, and the second wireless communication module 201 is configured to establish communication with a medical platform (not shown) when the advisory operation option 303 is selected, and transmit the blood oxygen saturation information stored in the memory 206 to the medical platform, so as to provide a doctor with remote understanding of a medical condition, and enable a relative of a user to remotely and timely understand a physical condition of the relative.

The monitor body 20 further includes a camera 207, and the camera 207 is used for acquiring an image of a user to be monitored to obtain image information. When the second wireless communication module 201 establishes communication with the medical platform, the second wireless communication module 201 is further configured to send the image information to the medical platform. Therefore, the doctor of the medical platform can better know the illness state of the user by combining the image of the user. In this embodiment, the camera 207 is further configured to perform remote video communication between the user and a doctor of the medical platform, and transmit related information through the second wireless communication module 201, so that the doctor can better know the physical condition of the user, and further, online inquiry of the doctor is realized.

The monitor body 20 further includes a switch 208. The switch 208 is used to control the blood oxygen monitor 100 to be turned on or off.

The blood oxygen monitor 100 can monitor and record the blood oxygen saturation information for a long time and has a warning function.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a blood oxygen monitor, its characterized in that, includes a blood oxygen collector and a monitor body, blood oxygen collector detachably install in the monitor body, blood oxygen collector is used for listening oxyhemoglobin saturation signal parameter, blood oxygen collector includes a wireless communication module, wireless communication module is used for with oxyhemoglobin saturation signal parameter send to the monitor body, the monitor body includes a second wireless communication module and a treater, second wireless communication module is used for receiving oxyhemoglobin saturation signal parameter, the treater is used for acquireing oxyhemoglobin saturation signal parameter, and according to oxyhemoglobin saturation signal parameter calculates oxyhemoglobin saturation information.

2. The blood oxygen monitor of claim 1, wherein the processor is further configured to compare the oximetry signal parameter with a predetermined oximetry level, and wherein the monitor body further comprises a first alarm unit configured to issue an alarm signal when the oximetry signal parameter deviates from the predetermined oximetry level.

3. The blood oxygen monitor of claim 2, wherein the blood oxygen collector further comprises a first power supply unit, a second alarm unit and a data processing unit, wherein the first power supply unit is used for providing power to the first wireless communication module, the second alarm unit and the data processing unit, the data processing unit is used for obtaining the residual electric quantity of the first power supply unit and comparing the residual electric quantity with a preset electric quantity, and the second alarm unit is used for sending a second alarm signal when the residual electric quantity is smaller than the preset electric quantity.

4. The blood oxygen monitor of claim 3, wherein the monitor body further comprises a second power supply unit, the second power supply unit is configured to provide power to the second wireless communication module and the processor, and the second power supply unit is further configured to charge the first power supply unit when the blood oxygen collector is mounted on the monitor body.

5. The blood oxygen monitor of claim 1, wherein the monitor body includes an output unit for outputting the blood oxygen saturation information.

6. The blood oxygen monitor as claimed in claim 5, wherein the output unit is a display screen, the display screen is further configured to display a user operation interface, the user operation interface includes an oximetry detection operation option, when the oximetry detection operation option is selected, the first wireless communication module and the second wireless communication module establish communication, so as to transmit the oximetry information to the monitor body, the display screen is further configured to switch to a first display interface when the oximetry detection operation option is selected, and the first display interface is configured to display the oximetry information.

7. The blood oxygen monitor of claim 6, wherein the user interface further comprises an indicator display option, and wherein the display screen is further configured to switch to a second display interface when the indicator display option is selected, the second display interface being configured to display the health indicator parameter.

8. The blood oxygen monitor of claim 6, wherein the monitor body further comprises a memory for storing the blood oxygen saturation information.

9. The blood oxygen monitor of claim 8, wherein the user interface further comprises an advisory operational option, and the second wireless communication module is configured to establish communication with a medical platform and transmit the blood oxygen saturation information stored in the memory to the medical platform when the advisory operational option is selected.

10. The blood oxygen monitor of claim 9, wherein the monitor body further comprises a camera for obtaining an image of a user to be monitored to obtain image information, and when the second wireless communication module establishes communication with the medical platform, the second wireless communication module is further configured to send the image information to the medical platform, and the camera is further configured to communicate with a remote video of the user and a doctor and transmit related information through the second wireless communication module.

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