CN215959922U - Wear-type is simple and easy leads sleep monitor more - Google Patents

Abstract

The utility model relates to the technical field of medical instruments, in particular to a head-wearing simple multi-conduction sleep monitor which comprises a head-wearing monitor main body, wherein a central signal collector positioned in the middle of the head-wearing monitor main body, an airflow signal collector, a blood oxygen signal collector and a chest and abdomen signal collector are arranged on the head-wearing monitor main body, and the airflow signal collector, the blood oxygen signal collector and the chest and abdomen signal collector are distributed around the central signal collector and connected with the central signal collector. This device can collect a plurality of signals such as patient's brain electricity, finger pulse oxygen, chest abdomen motion, nasal information air current when patient sleep night, comprehensively knows events such as sleep quality, oxygen deficiency condition, chest abdomen motion when patient sleep night, and this device easy operation, the material is soft, and patient's comfort obviously promotes, experiences and feels good.

Description

Wear-type is simple and easy leads sleep monitor more

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a head-wearing simple polysomnography monitor.

Background

Sleep apnea hypopnea syndrome is one of the common chronic sleep diseases, and can only be diagnosed after sleep monitoring examination at present. The existing monitoring instruments comprise a sleep breathing primary screen and a multi-guide sleep breathing monitoring device, wherein the sleep breathing primary screen can only monitor nasal airflow and chest and abdomen movement and cannot monitor electroencephalogram signals and other leg movement signals. The sleep apnea sleep respiration monitoring device has the function of a sleep apnea respiration primary screen, and can monitor brain waves in the sleep of the brain and further analyze the sleep condition. However, the prior polysomnography requires a plurality of equipment and instruments to be connected with the body of a patient, so that the sleep of the patient is influenced and the treatment is matched.

At present, Polysomnography (PSG) is often adopted, the brand is various, multiple signals such as electroencephalogram, eye movement, finger pulse oxygen, heart rate, snore, chest and abdomen movement and the like are monitored, and even an infrared camera is arranged, so that the condition of a patient during night sleep can be truly and comprehensively reflected. However, the existing multi-lead sleep respiration monitor is complex to operate, needs to consume a large amount of time to connect related signal leads, has small significance for part of signal indexes, cannot be applied to help diagnosis, has very poor experience feeling of patients, obviously reduces comfortable sensation, is not beneficial to repeated monitoring of the patients for many times, and is not beneficial to subsequent further treatment of the patients.

The utility model provides a head-wearing simple polysomnography monitor for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a simple head-wearing multi-guide sleep monitor, which adopts the head-wearing multi-guide connection, can be adjusted according to different head types of patients, ensures accurate signal contact sites, is convenient to connect, can receive signals of the patients in real time, obviously improves the comfort of the patients, and is beneficial to subsequent multiple monitoring and further treatment of the patients.

In order to solve the above problems, the present invention provides the following technical solutions:

the utility model provides a simple and easy sleep monitor of leading more of wear-type, includes the wear-type monitor main part, with the bandeau that the wear-type monitor main part is connected is located the central signal collector of wear-type monitor main part intermediate position, and distribute and be in around the central signal collector and with air current signal collector, blood oxygen signal collector, chest abdomen signal collector that central signal collector links to each other.

The utility model provides a head-wearing simple polysomnography monitor, which is also characterized by comprising the following technical characteristics:

furthermore, a plurality of electroencephalogram electrodes are distributed around the central signal collector and connected with the central signal collector through electroencephalogram signal connecting wires.

Furthermore, the blood oxygen signal collector is connected with a blood oxygen clip through a blood oxygen signal connecting line.

Furthermore, the thoracoabdominal signal collector is connected with a thoracoabdominal signal acquisition device through a thoracoabdominal signal connecting line.

Furthermore, the thoracoabdominal signal acquisition device is divided into a thoracoabdominal patch and an abdominal patch.

Furthermore, the airflow signal collector is connected with a thermosensitive tube through a thermosensitive signal connecting wire.

Furthermore, a switch is arranged on the head-mounted monitor main body, and the switch is electrically connected with the head-mounted monitor main body.

Furthermore, a signal derivation connecting wire is arranged on the head-mounted monitor main body and connected with the central signal collector.

Furthermore, central signal collector, air current signal collector, blood oxygen signal collector, chest abdomen signal collector all hide in inside the head-mounted monitor main part top mark has the brain electricity electrode to place the district.

Further, the electroencephalogram electrodes are arranged at electrode positions C1, C2, F1, F2, O1, O2, M1, M2, D1 and D2, and correspond to the top of the head, the forehead, the back of the pillow, the back of the ear and the forehead of the human head respectively.

Compared with the prior art, the utility model has the beneficial effects that:

the simple head-wearing type multi-conduction sleep monitor provided by the utility model can be adjusted according to different head shapes of patients by the aid of the elastic and soft head-wearing type cloth, accurate signal contact points are guaranteed, signal receivers for electroencephalogram, blood oxygen, chest and abdomen movement, airflow and the like and signal lines for connection are completely hidden in the soft cloth, the comfortable sensation of the patients is improved, obvious mark collecting positions are arranged on the cloth, the signal monitoring positions of the patients can be accurately positioned, the patients can be connected with the monitor within minutes by wearing the device, signals of the patients can be received in real time, the comfortable sensation of the patients is obviously improved, and the follow-up multi-time monitoring and further treatment of the patients are facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is an expanded schematic view of the internal structure of a simple head-mounted polysomnography monitor provided by the present invention;

fig. 2 is an electroencephalogram electrode distribution diagram of the head-wearing simple polysomnography provided by the utility model.

In the figure:

1-head-wearing monitor main body, 2-head band, 3-central signal collector, 31-brain electrical signal connecting line, 4-airflow signal collector, 41-heat-sensitive signal connecting line, 42-heat-sensitive tube, 5-blood oxygen signal collector, 51-blood oxygen signal connecting line, 52-blood oxygen clip, 6-thoracoabdominal signal collector, 61-thoracoabdominal signal connecting line, 62-thoracic paste, 63-abdominal paste, 7-signal lead-out connecting line and 8-switch.

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.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

The utility model is discussed in detail below with reference to figures 1 to 2 and specific embodiments:

the utility model provides a head-wearing simple multi-conduction sleep monitor, which comprises a head-wearing monitor main body 1, wherein the head-wearing monitor main body 1 is elastic and soft in material, can be finely adjusted according to different patient groups, is completely hidden in soft cloth, is provided with an obvious mark collecting part, and can be accurately positioned at the monitoring position of a patient; the head band 2 is connected with the head-mounted monitor main body 1, and the head band 2 is used for adjusting the tightness between the head-mounted monitor main body 1 and the head of a patient and can be more attached to the head of the patient to make the patient more comfortable; be located the central signal collector 3 of 1 intermediate position of head-mounted monitor main part, and distribute central signal collector 3 is around, and with the airflow signal collection that central signal collector 3 links to each other, 4, blood oxygen signal collector 5, chest abdomen signal collector 6 for collect patient's brain electrical signal, airflow signal, blood oxygen signal and chest abdomen motion signal, central signal collector 3 can also summarize the signal that airflow signal collector 4, blood oxygen signal collector 5 and chest abdomen signal collector 6 collected to in the follow-up all signals with the simple and easy many leading sleep monitor of wear-type are all conducted to the computer equipment through the transmission line on, carry out subsequent analysis.

Specifically, a plurality of electroencephalogram electrodes are distributed around the central signal collector 3 and used for monitoring and collecting electroencephalogram signals of different positions of the brain of a patient, the electroencephalogram electrodes are connected with the central signal collector 3 through electroencephalogram signal connecting wires 31, the electroencephalogram signals collected through the electroencephalogram electrodes are transmitted to the central signal collector 3 through the electroencephalogram signal connecting wires 31.

Specifically, the blood oxygen signal collector 5 is connected with a blood oxygen clip 52 through a blood oxygen signal connecting line 51, in this embodiment, when measuring the blood oxygen signal of the patient, the medical staff will measure by clipping the blood oxygen clip 52 at the finger tip of the patient, and the collected blood oxygen signal is transmitted to the blood oxygen signal collector 5 through the blood oxygen signal connecting line 51.

Specifically, thorax abdomen signal collector 6 is connected with thorax abdomen signal collection system through thorax abdomen signal connection line 61, and in this embodiment, medical personnel pass through thorax abdomen signal collection system monitors the thorax abdomen motion condition of patient to and the collection of thorax abdomen signal, thereby know the breathing condition of patient, and pass through the thorax abdomen signal connection line 61 that will gather, transmit to in the thorax abdomen signal collector 5, thorax abdomen signal collection system divide into the chest and pastes 62 and the abdomen 63, pastes respectively in patient's chest and abdomen, is used for monitoring the motion condition of patient's chest and abdomen.

Specifically, the airflow signal collector 4 is connected to a heat-sensitive tube 42 through a heat-sensitive signal connection line 41, in this embodiment, the patient wears the heat-sensitive tube 42 at the nostril, the gas exhaled by the patient flows into the heat-sensitive tube 42, and the airflow signal is transmitted to the airflow signal collector 4 through the heat-sensitive signal connection line 41.

Specifically, be equipped with switch 8 on the wear-type monitor main part 1, switch 8 with the wear-type monitor main part 1 electricity is connected, and this embodiment, when using, medical personnel open switch 8 and can monitor the patient.

It is specific be equipped with signal derivation connecting wire 7 on the head-mounted monitor main part 1, signal derivation connecting wire 7 with central signal collector 1 links to each other, in this embodiment, the patient blood oxygen signal that blood oxygen signal collector 5 collected, the patient chest abdomen motion signal that chest abdomen signal collector 6 collected, the air current signal that air current signal collector 4 collected can transmit among the central signal collector 3, when medical personnel need understand patient's the condition, it links to each other with computer and signal derivation connecting wire 7, the electroencephalogram signal that above-mentioned signal and central signal collector 3 collected that collect can be transmitted the computer on, carry out data analysis.

Specifically, central signal collector 3, air current signal collector 4, blood oxygen signal collector 5, chest abdomen signal collector 6 all hide in inside head monitor main part 1, improvement patient's comfort level that can be very big avoids the patient to feel uncomfortable because of collector isotructure when wearing head monitor main part 1 top mark has the brain electricity electrode to place the district, and medical personnel can place the accurate monitoring position to the patient of locating of district according to the brain electricity electrode to and be located the inside electrode of cloth and place the accuracy of position whether.

Specifically, the electroencephalogram electrodes are 5 pairs in total, and are placed at an electrode position C as shown in fig. 2₁、C₂、F₁、F₂、O₁、O₂、M₁、M₂、D₁、D₂The head, forehead, occipital back, behind ear and forehead parts of the head of the human body are respectively corresponding to the head, forehead, back of ear and forehead parts of the head of the human body, and the electroencephalogram signals of different parts of the head of the patient can be collected by adopting a plurality of electrodes, so that the subsequent data analysis is facilitated.

When the head-wearing type detector is used, a patient puts the head-wearing type detector main body 1 on the head and carries out fine adjustment according to the head shape of the patient, so that the electroencephalogram electrode is placed at a proper position of the head, the blood oxygen clip 52 is clamped on the finger of the patient, the chest sticker 62 and the abdomen sticker 63 are respectively pasted on the chest and the abdomen of the patient, the switch is turned on, the data signal of the patient can be collected and monitored, the patient wears the head-wearing type detector when sleeping, the sleep signal is recorded when the patient starts the machine, the head-wearing type detector can be taken off when the patient wakes up the next day, the medical staff can connect the signal lead-out connecting wire 7 with a computer, and then the data of the patient can be led out, and the data of the patient can be analyzed.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are only preferred examples of the present invention and are not intended to limit the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a simple and easy sleep monitor that leads of wear-type which characterized in that: including the head-mounted monitor main part, with the bandeau that the head-mounted monitor main part is connected is located the central signal collector of head-mounted monitor main part intermediate position, and distribute and be in around the central signal collector and with air current signal collector, blood oxygen signal collector, chest abdomen signal collector that central signal collector links to each other.

2. The head-mounted simple polysomnography instrument as claimed in claim 1, wherein: and a plurality of electroencephalogram electrodes are distributed around the central signal collector and connected with the central signal collector through an electroencephalogram signal connecting wire.

3. The head-mounted simple polysomnography instrument as claimed in claim 1, wherein: the blood oxygen signal collector is connected with a blood oxygen clip through a blood oxygen signal connecting wire.

4. The head-mounted simple polysomnography instrument as claimed in claim 1, wherein: the chest and abdomen signal collector is connected with a chest and abdomen signal acquisition device through a chest and abdomen signal connecting line.

5. The head-mounted simple polysomnography instrument as claimed in claim 4, wherein: the thoracoabdominal signal acquisition device is divided into a thoracoabdominal plaster and an abdominal plaster.

6. The head-mounted simple polysomnography instrument as claimed in claim 1, wherein: the airflow signal collector is connected with a thermosensitive tube through a thermosensitive signal connecting wire.

7. The head-mounted simple polysomnography instrument as claimed in claim 1, wherein: the head-mounted monitor is characterized in that a switch is arranged on the head-mounted monitor main body, and the switch is electrically connected with the head-mounted monitor main body.

8. The head-mounted simple polysomnography instrument as claimed in claim 1, wherein: the head-mounted monitor is characterized in that a signal deriving connecting wire is arranged on the head-mounted monitor main body and is connected with the central signal collector.

9. The head-mounted simple polysomnography instrument as claimed in claim 1, wherein: the central signal collector, the airflow signal collector, the blood oxygen signal collector and the chest and abdomen signal collector are all hidden in the head-mounted monitor main body, and an electroencephalogram electrode placement area is marked at the top of the head-mounted monitor main body.

10. The head-mounted simple polysomnography instrument as claimed in claim 9, wherein: the total number of the electroencephalogram electrodes is 5, and the electroencephalogram electrodes are placed at an electrode position C₁、C₂、F₁、F₂、O₁、O₂、M₁、M₂、D₁、D₂The parts correspond to the head top, forehead, back of the pillow, behind the ears and forehead of the human head respectively.

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