CN111603147A - Patient nursing monitoring system based on somatosensory device and working method thereof - Google Patents

Abstract

The invention discloses a patient nursing monitoring system based on a somatosensory device and a working method thereof, belonging to the technical field of patient nursing monitoring systems.

Description

Patient nursing monitoring system based on somatosensory device and working method thereof

Technical Field

The invention relates to a patient nursing monitoring system, in particular to a patient nursing monitoring system based on a motion sensing device, and also relates to a working method of the patient nursing monitoring system, in particular to a working method of the patient nursing monitoring system based on the motion sensing device, and belongs to the technical field of patient nursing monitoring systems.

Background

Although medical and nursing science has made remarkable progress in the prevention and treatment of cancer today, we must also see that cancer remains one of the common diseases threatening the health of humans in the 21 st century. Since cancer is widely involved, the disease itself can cause complex physiological and pathological changes; in addition, there are various psychological and social problems in patients and their families, and thus, prevention and treatment of cancer requires not only hospital care but also care of primary medical institutions and community care.

The key to treating cancer is early detection, early diagnosis and early treatment. How to attach importance to people and really achieve the crucial 'three-morning' needs a certain understanding of cancer and cancer care of vast medical staff, cancer patients and family members. Especially, primary and intermediate nursing staff at the basic level master certain cancer nursing knowledge and skills, and can apply epidemiological information of cancer, knowledge of cancer prevention and treatment and appropriate propaganda and education methods to play a role in cancer control and community nursing; in addition, the nursing staff can also provide correct opinions of cancer treatment and family care guidance for specific cancer patients and family members thereof, and create a good living environment for the patients so as to be beneficial to rehabilitation.

When a cancer patient is monitored in the prior art, the cancer patient often has the change of heartbeat, body temperature and limb vibration conditions and needs monitoring of a nurse, the monitoring in the prior art often cannot accurately monitor the body temperature of different positions and monitor the vibration and actions of different body positions, and therefore the patient nursing monitoring system based on the motion sensing device and the working method thereof are designed to optimize the problems.

Disclosure of Invention

The invention mainly aims to provide a patient nursing monitoring system based on a somatosensory device and a working method thereof.

The purpose of the invention can be achieved by adopting the following technical scheme:

the invention provides a patient nursing monitoring system based on a somatosensory device, which comprises a data conversion module group, various part temperature detection module groups, various part vibration detection module groups, a wireless transmission module group, a display, a mobile client, a charging and storing electric energy module group, a central processing unit, a solid state disk and an audio-video detection module group, wherein the data conversion module group is used for converting the temperature of each part into the temperature of each part;

the data conversion module group is used for converting the data collected by the temperature detection module groups of all the parts and the vibration detection module groups of all the parts into data which can be identified by a central processing unit;

the temperature detection module groups of all the parts are attached to the armpit, the forehead, the abdomen and the mouth of the patient and are used for detecting the temperature of the corresponding positions;

the vibration detection module groups of all the parts are attached to the positions of the legs, the head, the hands and the heart of the patient and are used for detecting the vibration degrees of the corresponding positions;

the wireless transmission module group is used for acquiring data in the central processing unit and transmitting the data to the mobile client or acquiring information of the mobile client and sending the information to the central processing unit;

the charging and storing electric energy module group is used for charging and storing electric energy and supplying power to other modules;

the sound image detection module group is used for collecting the motion condition and the sound of the patient;

the central processing unit is used for analyzing and processing each acquired data and controlling the data;

the data are acquired through the sound image detection module group, the temperature detection module groups of all parts and the vibration detection module groups of all parts and are sent to the data conversion module group to be converted into digital signals, the digital signals are sent to the central processing unit, the data are sent to the display and the wireless transmission module group through the central processing unit, and the data are sent to the mobile client through the wireless transmission module group.

Preferably, the data conversion module group includes a PCI bus interface and a data acquisition conversion module, the PCI bus interface is used for connecting the data acquisition conversion module, and the data acquisition conversion module is used for converting the electric signals of the sound image detection module group, the temperature detection module groups of each part and the vibration detection module groups of each part into digital signals and sending the digital signals to the central processing unit through the PCI bus interface.

Preferably, each part temperature detection module group comprises an armpit temperature sensor, a forehead temperature sensor, an abdomen temperature sensor and an oral temperature sensor, wherein the armpit temperature sensor, the forehead temperature sensor and the abdomen temperature sensor all adopt patch structures, and the oral temperature sensor adopts an insulating rod structure;

the armpit temperature sensor is used for detecting the armpit temperature by being attached to the armpit;

the forehead temperature sensor is used for being attached to the forehead to detect the forehead temperature;

the abdomen temperature sensor is attached to the abdomen to detect the abdomen temperature;

the mouth temperature sensor is used for detecting the mouth temperature when the mouth temperature sensor is contained in the mouth.

Preferably, the vibration detection module group at each part comprises a leg acceleration acquisition sensor, a head acceleration acquisition sensor, a hand acceleration acquisition sensor and a heartbeat acceleration acquisition sensor, and the leg acceleration acquisition sensor, the head acceleration acquisition sensor, the hand acceleration acquisition sensor and the heartbeat acceleration acquisition sensor all adopt patch structures;

the leg acceleration acquisition sensor is attached to a leg to detect leg vibration;

the head acceleration acquisition sensor is attached to the head to detect the head vibration;

the hand acceleration acquisition sensor is used for detecting hand vibration by being attached to a hand;

the heartbeat acceleration acquisition sensor is used for detecting heartbeat vibration by being attached to the heart.

Preferably, the wireless transmission module group comprises a linear power amplification module, a miniaturized band-pass filter and a 2.4HZ single-chip wireless transceiver;

the linear power amplification module is used for amplifying and transmitting the signal acquired by the central processing unit to the miniaturized band-pass filter;

the miniaturized band-pass filter is used for filtering clutter of the amplified data;

the 2.4HZ single-chip wireless transceiver is used for transmitting and receiving wireless wave signals.

Preferably, the charging and storing electric energy module group comprises a charging circuit, a lithium battery, a power circuit and an electric quantity detection module;

the charging circuit is used for charging the lithium battery and adjusting charging current;

the lithium battery is used for storing electric energy;

the power supply circuit is used for adjusting the voltage in the lithium battery to be suitable for the voltages of different modules;

and the electric quantity detection module is used for detecting the surplus of the electric energy and displaying the surplus of the electric energy on the display.

Preferably, the sound image detection module group comprises an image acquisition sensor and a sound acquisition sensor;

the image acquisition sensor is used for acquiring images and monitoring the dynamic state of the patient in real time;

and the sound acquisition sensor is used for detecting the sound of the patient and recording and storing the sound in real time.

The invention also provides a working method of the patient nursing monitoring system based on the somatosensory device, which comprises the following steps:

step 1: acquiring the body temperature, the dynamic state and the vibration condition of a patient through the sound image detection module group, the temperature detection module groups of all parts and the vibration detection module groups of all parts;

step 2: and sending to the data conversion module group to be converted into a digital signal;

and step 3: the data converted into the digital signals are sent to a central processing unit and sent to a display and a wireless transmission module group through the central processing unit;

and 4, step 4: sending the data to a mobile client through a wireless transmission module group;

and 5: medical staff can carry out remote monitoring through the mobile client;

step 6: can help in time when needed.

The invention has the beneficial technical effects that:

the patient nursing monitoring system based on the somatosensory device and the working method thereof provided by the invention have the advantages that data are obtained through the sound image detection module group, the temperature detection module groups of all the parts and the vibration detection module groups of all the parts and are sent to the data conversion module group to be converted into digital signals, the data converted into the digital signals are sent to the central processing unit, the data are sent to the display and the wireless transmission module group through the central processing unit, the data are sent to the mobile client through the wireless transmission module group, the real-time monitoring on the temperature, vibration and dynamic state of the patient at different positions is realized, and the nursing efficiency is improved.

Drawings

Fig. 1 is a system diagram of a patient care monitoring system based on a motion sensing device and a working method thereof according to a preferred embodiment of the invention.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example one

As shown in fig. 1, the patient care monitoring system based on the somatosensory device provided in this embodiment includes a data conversion module group, a temperature detection module group of each part, a vibration detection module group of each part, a wireless transmission module group, a display, a mobile client, a charging and storing module group, a central processing unit, a solid state disk, and an audio and video detection module group;

the data conversion module group is used for converting the data collected by the temperature detection module groups of all the parts and the vibration detection module groups of all the parts into data which can be identified by a central processing unit;

the temperature detection module groups of all the parts are attached to the armpit, the forehead, the abdomen and the mouth of the patient and are used for detecting the temperature of the corresponding positions;

the vibration detection module groups of all the parts are attached to the positions of the legs, the head, the hands and the heart of the patient and are used for detecting the vibration degrees of the corresponding positions;

the wireless transmission module group is used for acquiring data in the central processing unit and transmitting the data to the mobile client or acquiring information of the mobile client and sending the information to the central processing unit;

the charging and storing electric energy module group is used for charging and storing electric energy and supplying power to other modules;

the sound image detection module group is used for collecting the motion condition and the sound of the patient;

the central processing unit is used for analyzing and processing each acquired data and controlling the data;

the data are acquired through the sound image detection module group, the temperature detection module groups of all parts and the vibration detection module groups of all parts and are sent to the data conversion module group to be converted into digital signals, the digital signals are sent to the central processing unit, the data are sent to the display and the wireless transmission module group through the central processing unit, and the data are sent to the mobile client through the wireless transmission module group.

In this embodiment, the data conversion module set includes a PCI bus interface and a data acquisition conversion module, the PCI bus interface is used for connecting the data acquisition conversion module, and the data acquisition conversion module is used for converting the electric signals of the sound image detection module set, the temperature detection module sets of each part, and the vibration detection module sets of each part into digital signals and sending the digital signals to the central processing unit through the PCI bus interface.

In this embodiment, the temperature detection module groups of each part include an armpit temperature sensor, a forehead temperature sensor, an abdomen temperature sensor and an oral temperature sensor, the armpit temperature sensor, the forehead temperature sensor and the abdomen temperature sensor all adopt patch structures, and the oral temperature sensor adopts an insulating rod structure;

the armpit temperature sensor is used for detecting the armpit temperature by being attached to the armpit;

the forehead temperature sensor is used for being attached to the forehead to detect the forehead temperature;

the abdomen temperature sensor is attached to the abdomen to detect the abdomen temperature;

the mouth temperature sensor is used for detecting the mouth temperature when the mouth temperature sensor is contained in the mouth.

In this embodiment, the vibration detection module group at each part includes a leg acceleration acquisition sensor, a head acceleration acquisition sensor, a hand acceleration acquisition sensor and a heartbeat acceleration acquisition sensor, and the leg acceleration acquisition sensor, the head acceleration acquisition sensor, the hand acceleration acquisition sensor and the heartbeat acceleration acquisition sensor all adopt patch structures;

the leg acceleration acquisition sensor is attached to a leg to detect leg vibration;

the head acceleration acquisition sensor is attached to the head to detect the head vibration;

the hand acceleration acquisition sensor is used for detecting hand vibration by being attached to a hand;

the heartbeat acceleration acquisition sensor is used for detecting heartbeat vibration by being attached to the heart.

In this embodiment, the wireless transmission module set includes a linear power amplification module, a miniaturized band-pass filter, and a 2.4HZ single-chip wireless transceiver;

the linear power amplification module is used for amplifying and transmitting the signal acquired by the central processing unit to the miniaturized band-pass filter;

the miniaturized band-pass filter is used for filtering clutter of the amplified data;

the 2.4HZ single-chip wireless transceiver is used for transmitting and receiving wireless wave signals.

In this embodiment, the charging and storing module group includes a charging circuit, a lithium battery, a power circuit and an electric quantity detection module;

the charging circuit is used for charging the lithium battery and adjusting charging current;

the lithium battery is used for storing electric energy;

the power supply circuit is used for adjusting the voltage in the lithium battery to be suitable for the voltages of different modules;

and the electric quantity detection module is used for detecting the surplus of the electric energy and displaying the surplus of the electric energy on the display.

In this embodiment, the sound image detection module set includes an image acquisition sensor and a sound acquisition sensor;

the image acquisition sensor is used for acquiring images and monitoring the dynamic state of the patient in real time;

and the sound acquisition sensor is used for detecting the sound of the patient and recording and storing the sound in real time.

Example two

A working method of a patient care monitoring system based on a somatosensory device comprises the following steps:

step 1: acquiring the body temperature, the dynamic state and the vibration condition of a patient through the sound image detection module group, the temperature detection module groups of all parts and the vibration detection module groups of all parts;

step 2: and sending to the data conversion module group to be converted into a digital signal;

and step 3: the data converted into the digital signals are sent to a central processing unit and sent to a display and a wireless transmission module group through the central processing unit;

and 4, step 4: sending the data to a mobile client through a wireless transmission module group;

and 5: medical staff can carry out remote monitoring through the mobile client;

step 6: can help in time when needed.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.

Claims (8)

1. The utility model provides a patient nursing monitoring system based on body device is felt which characterized in that: the system comprises a data conversion module group, various part temperature detection module groups, various part vibration detection module groups, a wireless transmission module group, a display, a mobile client, a charging and storing electric energy module group, a central processing unit, a solid state disk and an audio and video detection module group;

the data conversion module group is used for converting the data collected by the temperature detection module groups of all the parts and the vibration detection module groups of all the parts into data which can be identified by a central processing unit;

the temperature detection module groups of all the parts are attached to the armpit, the forehead, the abdomen and the mouth of the patient and are used for detecting the temperature of the corresponding positions;

the vibration detection module groups of all the parts are attached to the positions of the legs, the head, the hands and the heart of the patient and are used for detecting the vibration degrees of the corresponding positions;

the wireless transmission module group is used for acquiring data in the central processing unit and transmitting the data to the mobile client or acquiring information of the mobile client and sending the information to the central processing unit;

the charging and storing electric energy module group is used for charging and storing electric energy and supplying power to other modules;

the sound image detection module group is used for collecting the motion condition and the sound of the patient;

the central processing unit is used for analyzing and processing each acquired data and controlling the data;

the data are acquired through the sound image detection module group, the temperature detection module groups of all parts and the vibration detection module groups of all parts and are sent to the data conversion module group to be converted into digital signals, the digital signals are sent to the central processing unit, the data are sent to the display and the wireless transmission module group through the central processing unit, and the data are sent to the mobile client through the wireless transmission module group.

2. The patient care monitoring system based on the somatosensory device of claim 1, wherein: the data conversion module group comprises a PCI bus interface and a data acquisition conversion module, the PCI bus interface is used for being connected with the data acquisition conversion module, and the data acquisition conversion module is used for converting electric signals of the sound image detection module group, the temperature detection module groups of all parts and the vibration detection module groups of all parts into digital signals and sending the digital signals to the central processing unit through the PCI bus interface.

3. The patient care monitoring system based on the somatosensory device of claim 1, wherein: the temperature detection module group of each part comprises an armpit temperature sensor, a forehead temperature sensor, an abdomen temperature sensor and an oral temperature sensor, wherein the armpit temperature sensor, the forehead temperature sensor and the abdomen temperature sensor all adopt patch structures, and the oral temperature sensor adopts an insulating rod body structure;

the armpit temperature sensor is used for detecting the armpit temperature by being attached to the armpit;

the forehead temperature sensor is used for being attached to the forehead to detect the forehead temperature;

the abdomen temperature sensor is attached to the abdomen to detect the abdomen temperature;

the mouth temperature sensor is used for detecting the mouth temperature when the mouth temperature sensor is contained in the mouth.

4. The patient care monitoring system based on the somatosensory device of claim 1, wherein: the vibration detection module group at each part comprises a leg acceleration acquisition sensor, a head acceleration acquisition sensor, a hand acceleration acquisition sensor and a heartbeat acceleration acquisition sensor, and the leg acceleration acquisition sensor, the head acceleration acquisition sensor, the hand acceleration acquisition sensor and the heartbeat acceleration acquisition sensor all adopt patch structures;

the leg acceleration acquisition sensor is attached to a leg to detect leg vibration;

the head acceleration acquisition sensor is attached to the head to detect the head vibration;

the hand acceleration acquisition sensor is used for detecting hand vibration by being attached to a hand;

the heartbeat acceleration acquisition sensor is used for detecting heartbeat vibration by being attached to the heart.

5. The patient care monitoring system based on the somatosensory device of claim 1, wherein: the wireless transmission module group comprises a linear power amplification module, a miniaturized band-pass filter and a 2.4HZ single-chip wireless transceiver;

the linear power amplification module is used for amplifying and transmitting the signal acquired by the central processing unit to the miniaturized band-pass filter;

the miniaturized band-pass filter is used for filtering clutter of the amplified data;

the 2.4HZ single-chip wireless transceiver is used for transmitting and receiving wireless wave signals.

6. The patient care monitoring system based on the somatosensory device of claim 1, wherein: the charging and storing electric energy module group comprises a charging circuit, a lithium battery, a power supply circuit and an electric quantity detection module;

the charging circuit is used for charging the lithium battery and adjusting charging current;

the lithium battery is used for storing electric energy;

the power supply circuit is used for adjusting the voltage in the lithium battery to be suitable for the voltages of different modules;

and the electric quantity detection module is used for detecting the surplus of the electric energy and displaying the surplus of the electric energy on the display.

7. The patient care monitoring system based on the somatosensory device of claim 1, wherein: the sound image detection module group comprises an image acquisition sensor and a sound acquisition sensor;

the image acquisition sensor is used for acquiring images and monitoring the dynamic state of the patient in real time;

and the sound acquisition sensor is used for detecting the sound of the patient and recording and storing the sound in real time.

8. The working method of the patient care monitoring system based on the somatosensory device is characterized by comprising the following steps of:

step 1: acquiring the body temperature, the dynamic state and the vibration condition of a patient through the sound image detection module group, the temperature detection module groups of all parts and the vibration detection module groups of all parts;

step 2: and sending to the data conversion module group to be converted into a digital signal;

and step 3: the data converted into the digital signals are sent to a central processing unit and sent to a display and a wireless transmission module group through the central processing unit;

and 4, step 4: sending the data to a mobile client through a wireless transmission module group;

and 5: medical staff can carry out remote monitoring through the mobile client;

step 6: can help in time when needed.

Images