CN220546268U

CN220546268U - Patient monitoring bracelet

Info

Publication number: CN220546268U
Application number: CN202321162679.5U
Authority: CN
Inventors: 刘艳荣; 黄连娇; 鲁欢; 冯婉玲; 刘铃; 何飘; 孙小婷
Original assignee: Eighth Affiliated Hospital Of Guangzhou Medical University Guangzhou Eighth People's Hospital Guangzhou Liver Disease Hospital Guangzhou Institute Of Infectious Diseases
Current assignee: Eighth Affiliated Hospital Of Guangzhou Medical University Guangzhou Eighth People's Hospital Guangzhou Liver Disease Hospital Guangzhou Institute Of Infectious Diseases
Priority date: 2023-05-15
Filing date: 2023-05-15
Publication date: 2024-03-01
Anticipated expiration: 2033-05-15

Abstract

The utility model discloses a patient monitoring bracelet, in particular to the technical field of monitoring bracelets, which comprises a bracelet assembly, wherein the bracelet assembly is sleeved on the wrist of a patient and comprises a bracelet shell, and the back surface of the bracelet shell is tightly attached to the wrist skin of the patient; the inside monitoring component that is used for detecting each index of disease that is equipped with of bracelet subassembly. According to the utility model, the data measured on each bracelet component can be uploaded to the alarm in real time by utilizing the mobile network communication system, so that a nursing staff can conveniently obtain the measured data of each patient at a nursing station, and because the sound acquisition chip, the camera and the loudspeaker are arranged on the bracelet component, the nursing staff can carry out video communication with the patient needing to be particularly observed through a computer, so that the nursing staff can know the state of the patient, and can accurately obtain the information of the patient without going to a ward for ward, thereby reducing the labor intensity of ward for ward rounds.

Description

Patient monitoring bracelet

Technical Field

The utility model relates to the technical field of monitoring bracelets, in particular to a patient monitoring bracelet.

Background

The nursing staff is in charge of daily ward-round work of the patient in the hospitalization area besides assisting doctors in diagnosing and treating the patients so as to observe whether each index of the patient is normal during diagnosis and treatment. When the number of inpatients is large, the workload of ward-round is increased, and the working intensity of nursing staff is increased. In addition, the body temperature measurement bracelet is a work frequently required by nursing staff for the patient in the ward round process, so that the body temperature measurement for the patient can be conveniently carried out, the work load of the nursing staff can be reduced, the body temperature measurement bracelet is improved in the Chinese patent application with the publication number of CN206285106U, the body temperature measurement can be carried out by wearing the bracelet on the wrist part of the patient, in addition, the bracelet can also carry out the heart rate and blood pressure test, and the work load of the nursing staff during ward round can be reduced as much as possible.

Although the above-mentioned bracelet can make things convenient for nursing staff to obtain information such as the body temperature data of disease, can alleviate nursing staff's working strength to a certain extent, when patient's number in hospital is more, nursing staff just needs to observe the measured data on the bracelet that every disease was worn in proper order next to each other, and if the bracelet measured data of all disease is looked for, this work load of checking rounds and working strength still are great, and still will consume more manpower.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides the patient monitoring bracelet, wherein the alarm is arranged, and the data measured on each bracelet assembly can be uploaded to the alarm in real time by utilizing the mobile network communication system, so that a nursing staff can conveniently obtain the measured data of each patient at a nursing station, and the nursing staff can carry out video communication with the patient needing to be particularly observed through a computer because the sound acquisition chip, the camera and the loudspeaker are arranged on the bracelet assembly, so that the nursing staff can know the state of the patient, and can accurately obtain the information of the patient without going to a ward for ward, thereby reducing the labor intensity of the previous ward.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a patient monitoring bracelet, comprising a bracelet assembly, wherein the bracelet assembly is sleeved at the wrist of a patient, the bracelet assembly comprises a bracelet shell, and the back surface of the bracelet shell is tightly attached to the wrist skin of the patient;

the inside of the bracelet component is provided with a monitoring component for detecting various indexes of a patient;

the monitoring assembly comprises a control module, a wireless communication module, a body temperature measuring module, a pulse measuring module, a blood oxygen measuring module and a calling alarm module, wherein the wireless communication module is used for carrying out video communication between nursing staff and patients, the body temperature measuring module is used for measuring body temperature, the pulse measuring module is used for measuring heart rate, the blood oxygen measuring module is used for measuring blood oxygen, and the calling alarm module is used for alarming and prompting the nursing staff.

In a preferred embodiment, the control module includes a microprocessor mounted inside the bracelet housing and a computer mounted at a nursing station of the caretaker for remotely viewing the measurement data of the bracelet assembly by the caretaker.

In a preferred embodiment, the wireless communication module comprises a mobile network communication system, and the microprocessor sends the measurement data of the bracelet assembly to the computer through the mobile network communication system;

the wireless communication module further comprises a sound collection chip, a camera and a loudspeaker, wherein the sound collection chip is arranged on one side inside the bracelet shell, the loudspeaker is arranged on the other side inside the bracelet shell, and the camera is arranged on one side, close to the loudspeaker, of the top of the bracelet shell.

In a preferred embodiment, the body temperature measurement module comprises a temperature sensor mounted inside the bracelet housing for measuring the body temperature of the patient.

In a preferred embodiment, the pulse measuring module comprises a heart rate sensor, wherein the heart rate sensor is arranged on one side of the bottom of the bracelet shell, and the heart rate sensor and the temperature sensor are positioned on the same horizontal line and used for counting the pulse of a patient per minute.

In a preferred embodiment, the blood oxygen measurement module comprises a miniature oximeter mounted inside a bracelet housing, the miniature oximeter is positioned between a heart rate sensor and a temperature sensor, a groove is formed in the middle of the bottom of the bracelet housing, a probe at the bottom of the miniature oximeter penetrates through the bottom wall of the bracelet housing and extends into the groove, and a patient fits the finger abdomen to the groove and makes contact with the probe at the bottom of the miniature oximeter during measurement.

In a preferred embodiment, the distress alarm module comprises an alarm which is arranged at a nursing station of a nursing staff and is started to alarm by a computer when the index measured by the bracelet assembly is abnormal.

In a preferred embodiment, the bracelet assembly further comprises a touch screen arranged at the top of the bracelet shell, two ends of the bracelet shell are connected with the same elastic wrist strap, and a plurality of heat dissipation holes are formed in the elastic wrist strap; the side face of the bracelet shell is provided with a button.

The utility model has the technical effects and advantages that:

1. the alarm is arranged, and the measured data on each bracelet component can be uploaded to the alarm in real time by utilizing the mobile network communication system, so that a nursing staff can conveniently obtain the measured data of each patient at a nursing station, and the nursing staff can carry out video communication with the patient needing to be observed specifically through a computer because the sound acquisition chip, the camera and the loudspeaker are arranged on the bracelet component, so that the nursing staff can know the state of the patient, and can accurately obtain the information of the patient without going to a ward for ward, thereby reducing the labor intensity of the previous ward, and saving the time consumed by walking in a remote mode.

2. The miniature oximeter is arranged in the bracelet shell and used for measuring blood oxygen, and the measuring probe of the miniature oximeter extends into the groove at the bottom of the bracelet shell, so that a patient can conveniently insert a finger into the groove to measure blood oxygen.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a rear view of FIG. 1 of the present utility model;

FIG. 3 is a bottom view of FIG. 2 of the present utility model;

FIG. 4 is an enlarged view of FIG. 3A in accordance with the present utility model;

FIG. 5 is a block diagram of the present utility model;

fig. 6 is a structural composition diagram of the present utility model.

The reference numerals are:

1. a wristband assembly; 11. a bracelet housing; 12. a touch screen; 13. an elastic wristband; 14. a heat radiation hole; 15. a button;

2. a monitoring component; 21. a control module; 211. a microprocessor; 212. a computer; 22. a wireless communication module; 221. a mobile network communication system; 222. a sound collection chip; 223. a camera; 224. a speaker; 23. a body temperature measurement module; 231. a temperature sensor; 24. a pulse measurement module; 241. a heart rate sensor; 25. a blood oxygen measurement module; 251. a miniature oximeter; 26. a distress alarm module; 261. an alarm.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 of the drawings, the utility model provides a patient monitoring bracelet, which comprises a bracelet assembly 1, wherein the bracelet assembly 1 is sleeved on the wrist of a patient;

as shown in fig. 1-3, the bracelet assembly 1 comprises a bracelet housing 11, the back of the bracelet housing 11 being tightly fitted with the wrist skin of a patient; in addition, the bracelet assembly 1 further comprises a touch screen 12 arranged on the top of the bracelet housing 11, a nursing staff can slide on the touch screen 12, and the bracelet assembly 1 is operated to view various data measured by the bracelet assembly 1; the two ends of the bracelet housing 11 are connected with the same elastic wrist strap 13, the elastic wrist strap 13 has elasticity, can be suitable for wrists with different thicknesses, and can also tightly attach the back surface of the bracelet housing 11 to the wrist of a patient to prevent loosening; the side surface of the bracelet housing 11 is provided with a button 15, and the touch screen 12 can be lightened by pressing the button 15, and the operation of a nursing staff on the touch screen 12 can be canceled;

since the elastic wrist strap 13 is tied on the wrist of the patient for a long time, the wrist of the patient is easy to sweat, and in order to facilitate the volatilization of sweat and reduce sweat, as shown in fig. 2 and 3, a plurality of heat dissipation holes 14 are formed on the elastic wrist strap 13; the provision of the louvers 14 helps to reduce perspiration on the patient's wrist.

In addition to the daily bracelet function, the utility model can also measure the body temperature, blood oxygen and pulse of a patient, as shown in fig. 1, a monitoring component 2 for detecting various indexes of the patient is arranged in the bracelet component 1;

specifically, as shown in fig. 1 to 6, the monitoring assembly 2 includes a control module 21, a wireless communication module 22, a body temperature measurement module 23, a pulse measurement module 24, a blood oxygen measurement module 25, and a distress alarm module 26;

as shown in fig. 5 and 6, the body temperature measuring module 23 is used for measuring body temperature, the pulse measuring module 24 is used for measuring heart rate, the blood oxygen measuring module 25 is used for measuring blood oxygen, the distress alarm module 26 is used for alarming and prompting nursing staff, the body temperature measuring module 23 comprises a temperature sensor 231, the temperature sensor 231 is installed inside the bracelet housing 11 and is used for measuring the body temperature of a patient, the pulse measuring module 24 comprises a heart rate sensor 241, the heart rate sensor 241 is installed on one side of the bottom of the bracelet housing 11, and the heart rate sensor 241 and the temperature sensor 231 are located on the same horizontal line and are used for counting pulses of the patient per minute.

Moreover, as shown in fig. 4-6, the blood oxygen measuring module 25 includes a micro oximeter 251 installed inside the bracelet housing 11, the micro oximeter 251 is located between the heart rate sensor 241 and the temperature sensor 231, a groove is formed in the middle of the bottom of the bracelet housing 11, and a probe at the bottom of the micro oximeter 251 penetrates the bottom wall of the bracelet housing 11 and extends into the groove, and when in measurement, the patient attaches the finger abdomen to the groove and makes the finger abdomen contact with the probe at the bottom of the micro oximeter 251, so that the probe pierces the finger abdomen of the patient and contacts with the blood of the patient, thereby accurately measuring the blood oxygen condition of the patient. Compared with the bracelet in the prior art, the utility model has more accurate blood oxygen measurement result.

In addition, in order to reduce the labor intensity of the ward round of the nursing staff, as shown in fig. 5 and 6, the control module 21 comprises a microprocessor 211 and a computer 212, wherein the microprocessor 211 is installed inside the bracelet housing 11, and the computer 212 is installed at a nurse station of the nursing staff for the nursing staff to remotely check the measurement data of the bracelet assembly 1; therefore, after the utility model is used, the nursing staff can know the relevant measurement data of the patient without entering the ward, so that the manpower resources for ward round can be saved.

Furthermore, each bracelet housing 11 in the present utility model is provided with a unique number, so that after the patient wears the present utility model, the patient information and the number of his bracelet need to be bound by the computer 212.

In addition, in order to be able to understand the condition of the patient in more detail, as shown in fig. 5 and 6, the wireless communication module 22 is used for the nursing staff to perform video communication with the patient, wherein the wireless communication module 22 includes a mobile network communication system 221, and the microprocessor 211 sends the measurement data of the bracelet assembly 1 to the computer 212 through the mobile network communication system 221; the wireless communication module 22 further comprises a sound collection chip 222, a camera 223 and a loudspeaker 224, wherein the sound collection chip 222 is arranged on one side of the inside of the bracelet housing 11, the loudspeaker 224 is arranged on the other side of the inside of the bracelet housing 11, and the camera 223 is arranged on one side, close to the loudspeaker 224, of the top of the bracelet housing 11;

the utility model is provided with the sound collecting chip 222 and the camera 223 for collecting the sound and the image of the patient and sending the sound and the image to the computer 212 through the micro processor 211 and the mobile network communication system 221, so that the nursing staff at the nursing station can conveniently see the condition of the patient remotely, and the sound of the nursing staff can be transmitted to the patient through the loudspeaker 224, so that the patient can conveniently answer the question of the nursing staff, the nursing staff can accurately obtain the information of the patient without going to the ward for ward, the labor intensity of the previous ward can be reduced, and the time consumed by walking can be saved in a remote mode, so that the utility model can also help the nursing staff to improve the ward efficiency.

Meanwhile, the mobile network communication system 221 is also capable of sending the measurement result to the computer 212 in time, once the measurement result is not within the normal range, as shown in fig. 5 and 6, the distress alarm module 26 comprises an alarm 261, the alarm 261 is installed at a nursing station of a nursing staff, the alarm 261 is started to alarm by the computer 212 when the index measured by the bracelet assembly 1 is abnormal, the nursing staff of the nursing station can immediately go to a ward to check the condition of the patient after receiving the alarm of the alarm 261, and can simultaneously inform the relevant responsible attending doctors to the same so as to ensure the physical health of the patient.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims

1. Patient monitoring bracelet, including bracelet subassembly (1), bracelet subassembly (1) cover is in patient's wrist department, its characterized in that: the bracelet assembly (1) comprises a bracelet shell (11), and the back surface of the bracelet shell (11) is tightly attached to the wrist skin of a patient;

a monitoring component (2) for detecting various indexes of a patient is arranged in the bracelet component (1);

the monitoring assembly (2) comprises a control module (21), a wireless communication module (22), a body temperature measuring module (23), a pulse measuring module (24), a blood oxygen measuring module (25) and a distress alarm module (26), wherein the wireless communication module (22) is used for carrying out video communication between a nursing staff and a patient, the body temperature measuring module (23) is used for measuring the body temperature, the pulse measuring module (24) is used for measuring the heart rate, the blood oxygen measuring module (25) is used for measuring the blood oxygen, and the distress alarm module (26) is used for alarming and prompting the nursing staff;

the control module (21) comprises a microprocessor (211) and a computer (212), wherein the microprocessor (211) is arranged inside the bracelet shell (11), and the computer (212) is arranged at a nurse station of a nursing staff and is used for the nursing staff to remotely check the measurement data of the bracelet assembly (1);

the wireless communication module (22) comprises a mobile network communication system (221), the microprocessor (211) sends measurement data of the bracelet assembly (1) to the computer (212) through the mobile network communication system (221), the wireless communication module (22) further comprises a sound collection chip (222), a camera (223) and a loudspeaker (224), the sound collection chip (222) is arranged on one side of the interior of the bracelet shell (11), the loudspeaker (224) is arranged on the other side of the interior of the bracelet shell (11), and the camera (223) is arranged on one side, close to the loudspeaker (224), of the top of the bracelet shell (11).

2. A patient monitoring wristband as claimed in claim 1, wherein: the body temperature measurement module (23) comprises a temperature sensor (231), wherein the temperature sensor (231) is arranged inside the bracelet housing (11) and is used for measuring the body temperature of a patient.

3. A patient monitoring wristband as claimed in claim 2, wherein: the pulse measurement module (24) comprises a heart rate sensor (241), wherein the heart rate sensor (241) is arranged on one side of the bottom of the bracelet shell (11), and the heart rate sensor (241) and the temperature sensor (231) are positioned on the same horizontal line and used for counting the pulse of a patient per minute.

4. A patient monitoring wristband according to claim 3, wherein: blood oxygen measurement module (25) are including installing miniature oximeter (251) in bracelet casing (11) inside, miniature oximeter (251) are located between heart rate sensor (241) and temperature sensor (231), the processing of bracelet casing (11) bottom intermediate position has the recess, and the probe of miniature oximeter (251) bottom runs through bracelet casing (11) diapire and extends to in this recess, and the patient will be pointed the abdomen and laminate this recess and make to point the abdomen and the probe contact of miniature oximeter (251) bottom when measuring.

5. A patient monitoring wristband as claimed in claim 1, wherein: the distress alarm module (26) comprises an alarm (261), the alarm (261) is arranged at a nursing station of a nursing staff, and the alarm (261) is started to alarm through a computer (212) when indexes measured by the bracelet assembly (1) are abnormal.

6. A patient monitoring wristband as claimed in claim 1, wherein: the bracelet assembly (1) further comprises a touch screen (12) arranged at the top of the bracelet shell (11), two ends of the bracelet shell (11) are connected with the same elastic wrist strap (13), and a plurality of heat dissipation holes (14) are formed in the elastic wrist strap (13);

the side face of the bracelet shell (11) is provided with a button (15).