CN211862774U

CN211862774U - Medical auxiliary device

Info

Publication number: CN211862774U
Application number: CN201921870056.7U
Authority: CN
Inventors: 余海保
Original assignee: Guangdong Juhai Technology Co ltd
Current assignee: Guangdong Juhai Technology Co ltd
Priority date: 2019-11-01
Filing date: 2019-11-01
Publication date: 2020-11-06
Anticipated expiration: 2029-11-01

Abstract

The utility model discloses a medical auxiliary device, which comprises a monitoring device body and watchbands positioned at two sides of the monitoring device body; the monitoring device body comprises a display module, a processing module, an information collecting module, a sound module, a communication module, a positioning module and an RFID label module; the display module, the information collection module, the sound module, the wireless communication module and the positioning module are electrically connected with the processing module; the information collection module comprises a heart rate sensor, a body temperature sensor, a blood pressure sensor, an acceleration sensor and a microphone. The utility model discloses a to the real-time supervision of patient's heartbeat data, temperature data, blood pressure data and step number, can in time send the warning when patient appears unusually, simultaneously, through the design that adopts coprocessor and host processor, realized medical auxiliary device's low-power consumption operation.

Description

Medical auxiliary device

Technical Field

The utility model relates to a medical care technical field especially relates to a medical auxiliary device.

Background

When a patient treats a disease in a hospital, due to the fact that the number of the patients is large, medical care personnel cannot pay attention to each patient at every moment, especially when the patient leaves a bed to walk downstairs, accidents easily occur, existing monitoring equipment is fixed and comprises an oxygen supply device, a calling device, an electrocardiogram monitoring device and the like, the calling device is arranged at the head of the bed of the patient and used for achieving communication between the patient and the medical care personnel, and the electrocardiogram monitoring equipment is large in size and obviously cannot move along with the patient. Therefore, there is a need for a medical aid that solves the problem of not being able to monitor the physical condition of a patient in real time.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a medical treatment auxiliary device for solve above-mentioned problem.

The purpose of the utility model is realized by adopting the following technical scheme:

a medical auxiliary device comprises a monitoring device body and watchbands positioned on two sides of the monitoring device body;

the monitoring device body comprises a display module, a processing module, an information collecting module, a sound module, a communication module, a positioning module and an RFID label module;

the display module, the information collection module, the sound module, the wireless communication module and the positioning module are electrically connected with the processing module;

the RFID tag module adopts a passive RFID tag, and the passive RFID tag stores data codes of patients on a system of a hospital.

The medical staff can read the code through the RFID read-write device, so that the relevant information of the patient can be inquired on the hospital system; the related information comprises medical records, bed positions and contact ways of guardians; after the patient is in a coma, when no other person knows the sick condition of the patient, the doctor needs to rescue the patient, and medical personnel can timely know the sick condition of the patient through the passive RFID tag, so that proper rescue measures can be taken.

The information collection module comprises a heart rate sensor, a body temperature sensor, a blood pressure sensor, an acceleration sensor and a microphone; the heart rate sensor is used for monitoring heartbeat data of a patient in real time and transmitting the heartbeat data to the processing module; the body temperature sensor is used for monitoring the temperature data of the body of the patient in real time and transmitting the temperature data to the processing module; the blood pressure sensor is used for monitoring blood pressure data of a patient in real time and transmitting the blood pressure data to the processing module; the acceleration sensor is used for acquiring acceleration data of a patient and transmitting the acceleration data to the processing module;

the microphone is used for collecting voice data of a patient and transmitting the voice data to the processing module;

the processing module comprises a coprocessor, a main processor and a memory; the coprocessor and the main processor are both electrically connected with the memory; the heart rate sensor, the body temperature sensor, the blood pressure sensor and the acceleration sensor are electrically connected with the coprocessor; the microphone, the display module, the sound module, the communication module and the positioning module are electrically connected with the main processor;

the coprocessor is also electrically connected with the main processor;

and when the display module is in a closed state, the main processor is in a dormant state and waits for the awakening of the coprocessor.

The coprocessor is also used for judging the current walking posture of the patient according to the acceleration data so as to calculate the number of steps of the patient walking and transmit the number of steps to the memory;

the coprocessor is used for filtering the heartbeat data, the temperature data, the blood pressure data and the acceleration data, removing the heartbeat data, the temperature data and the blood pressure data which are not in a preset range to obtain filtered data, and then judging whether the physical condition of the patient is abnormal or not according to the filtered data; the exception includes: the heartbeat speed exceeds a preset threshold range, the body temperature exceeds a preset threshold range, and the blood pressure exceeds a preset threshold range;

if the judgment result of the coprocessor is that the physical condition of the patient is abnormal, the judgment result is sent to a main processor, the main processor acquires the current position data of the patient through the positioning module and sends the position data and the heartbeat data, the temperature data, the blood pressure data and the step number read from the memory to an upper computer through the communication module, and the upper computer comprises a desktop computer located in a nurse station or a doctor office and a mobile communication terminal carried on a doctor or a nurse, so that the doctor or the nurse can find the abnormality of the body of the patient in time; meanwhile, the main processor controls the sound module to emit an alarm sound so that people around the patient notice physical abnormality of the patient.

If the judgment result of the coprocessor is that the physical condition of the patient is normal, transmitting the filtering data to a memory;

the coprocessor is also used for judging the hand action of the patient according to the acceleration data, when the action of lifting the watch table by the patient is detected, the coprocessor sends a wake-up signal to the main processor to wake up the main processor, and the main processor controls the display module to read the heartbeat data, the temperature data, the blood pressure data and the step number from the memory, so that the function of lifting the wrist and brightening the screen is realized, and the display module is prevented from being kept in an open state all the time and consuming electricity; meanwhile, the main controller monitors voice data from the microphone and judges whether the patient sends a voice command or not; making corresponding feedback according to the voice instruction; the feedback includes: the communication module is used for communicating with a doctor or a nurse; the current heartbeat data, the temperature data, the blood data and the step number of the patient are broadcasted through the sound module.

Preferably, the monitoring device body further comprises a reset hole for resetting when the monitoring device body is not responsive.

Preferably, the communication module comprises a GPRS communication device and a WiFi communication device.

Preferably, the sound module is a speaker.

Preferably, the model of the coprocessor is STM32L series chips. The main processor is a QSC6270 chip.

Preferably, the positioning module is a BCM4771 chip.

Preferably, the display module is a TL012FQV01 type display module.

Preferably, the acceleration sensor is a BMA456 type sensor.

Preferably, the communication module comprises a USR-GM3 type GPRS module.

The utility model has the advantages that:

the utility model discloses set up a wearable medical auxiliary device, through setting up relevant sensor, realized the real-time supervision to patient's heartbeat data, temperature data, blood pressure data and step number, can in time send the warning to the people on medical personnel and patient next door when patient appears unusually, can convey the host computer that medical personnel used in real time with patient's position moreover, make things convenient for medical personnel in time to find patient. Meanwhile, by adopting the design of the coprocessor and the main processor, some tasks which need to be processed frequently but have low performance requirements are all executed by the coprocessor, and the main processor only processes complex tasks, so that the low-power-consumption operation of the medical auxiliary device is realized, and the endurance time of the medical auxiliary device is prolonged.

Drawings

The present invention is further explained by using the drawings, but the embodiments in the drawings do not constitute any limitation to the present invention, and for those skilled in the art, other drawings can be obtained according to the following drawings without any inventive work.

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

Fig. 2 is a diagram of an exemplary embodiment of the monitoring device body according to the present invention.

Fig. 3 is a diagram of an exemplary embodiment of a processing module according to the present invention.

Reference numerals:

monitoring device body 2, watchband 1, display module 3, processing module 4, information collection module 5, sound module 6, communication module 7, orientation module 8, RFID label module 9

Detailed Description

The invention will be further described with reference to the following examples.

In the following description, the terms "inside", "outside", "upper", "lower", "left", "right", and the like, which indicate orientations or positional relationships, are used to indicate orientations or positional relationships based on the drawings, and are only used for convenience in describing embodiments and simplifying the description, but do not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In one embodiment, as shown in figure 1,

a medical auxiliary device comprises a monitoring device body 2 and watchbands 1 positioned at two sides of the monitoring device body 2;

the monitoring device body 2 comprises a display module 3, a processing module 4, an information collecting module 5, a sound module 6, a communication module 7, a positioning module 8 and an RFID label module 9;

the display module 3, the information collection module 5, the sound module 6, the wireless communication module 7 and the positioning module 8 are electrically connected with the processing module 4;

The information collection module 5 comprises a heart rate sensor, a body temperature sensor, a blood pressure sensor, an acceleration sensor and a microphone; the heart rate sensor is used for monitoring heartbeat data of a patient in real time and transmitting the heartbeat data to the processing module 4; the body temperature sensor is used for monitoring the temperature data of the body of the patient in real time and transmitting the temperature data to the processing module 4; the blood pressure sensor is used for monitoring blood pressure data of a patient in real time and transmitting the blood pressure data to the processing module 4; the acceleration sensor is used for acquiring acceleration data of a patient and transmitting the acceleration data to the processing module 4;

the microphone is used for collecting voice data of a patient and transmitting the voice data to the processing module 4;

the processing module 4 comprises a coprocessor, a main processor and a memory; the coprocessor and the main processor are both electrically connected with the memory; the heart rate sensor, the body temperature sensor, the blood pressure sensor and the acceleration sensor are electrically connected with the coprocessor; the microphone, the display module 3, the sound module 6, the communication module 7 and the positioning module 8 are all electrically connected with the main processor;

the coprocessor is also electrically connected with the main processor;

and when the display module 3 is in the closed state, the main processor is in the dormant state and waits for the awakening of the coprocessor.

if the judgment result of the coprocessor is that the physical condition of the patient is abnormal, the judgment result is sent to a main processor, the main processor acquires the current position data of the patient through the positioning module 8 and sends the position data and the heartbeat data, the temperature data, the blood pressure data and the step number read from the memory to an upper computer through the communication module 7, and the upper computer comprises a desktop computer located in a nurse station or a doctor office and a mobile communication terminal carried on a doctor or a nurse, so that the doctor or the nurse can find the abnormality of the body of the patient in time; at the same time, the main processor controls the sound module 6 to sound an alarm so that people around the patient notice physical abnormality of the patient.

the coprocessor is also used for judging the hand action of the patient according to the acceleration data, when the action of lifting the watch table by the patient is detected, the coprocessor sends a wake-up signal to the main processor to wake up the main processor, and the main processor controls the display module 3 to display and read the heartbeat data, the temperature data, the blood pressure data and the step number from the memory, so that the function of lifting the wrist and brightening the screen is realized, and the display module 3 is prevented from being kept in an open state all the time and consuming electricity; meanwhile, the main controller monitors voice data from the microphone and judges whether the patient sends a voice command or not; making corresponding feedback according to the voice instruction; the feedback includes: the communication module 7 is used for communicating with a doctor or a nurse; the current heartbeat data, the temperature data, the blood data and the step number of the patient are broadcasted through the sound module 6.

Preferably, the monitoring device body 2 further includes a reset hole for resetting when the monitoring device body 2 is not responsive.

Preferably, the communication module 7 comprises a GPRS communication device and a WiFi communication device.

Preferably, the sound module 6 is a horn.

Preferably, the positioning module 8 is a BCM4771 chip.

Preferably, the display module 3 is a TL012FQV01 type display module.

Preferably, the acceleration sensor is a BMA456 type sensor.

Preferably, said communication module 7 comprises a GPRS module of the USR-GM3 type.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. A medical auxiliary device is characterized by comprising a monitoring device body and watchbands positioned on two sides of the monitoring device body; the monitoring device body comprises a display module, a processing module, an information collecting module, a sound module, a communication module, a positioning module and an RFID label module; the display module, the information collection module, the sound module, the wireless communication module and the positioning module are electrically connected with the processing module; the information collection module comprises a heart rate sensor, a body temperature sensor, a blood pressure sensor, an acceleration sensor and a microphone.

2. A medical assistance device according to claim 1 wherein said processing module comprises a co-processor, a main processor and a memory; the coprocessor and the main processor are both electrically connected with the memory; the heart rate sensor, the body temperature sensor, the blood pressure sensor and the acceleration sensor are electrically connected with the coprocessor; the microphone, the display module, the sound module, the communication module and the positioning module are electrically connected with the main processor; the coprocessor is also electrically connected with the main processor.

3. The medical assist device of claim 1, wherein the monitoring device body further includes a reset bore.

4. A medical assistance device according to claim 1 wherein said communication module comprises a GPRS communication device and a WiFi communication device.

5. The medical assistance device of claim 1, wherein the RFID tag module is a passive RFID tag, and the passive RFID tag stores information codes of patients on hospital systems.

6. The medical assistance device of claim 2, wherein the main processor is in a sleep state while the display module is in the off state, waiting for the coprocessor to wake up.