CN115337025A - Multi-bed remote measurement blood oxygen system with alarm function - Google Patents

Abstract

The invention discloses a multi-bed telemetering blood oxygen system with an alarm function.A central monitoring station receives data sent by a noninvasive blood oxygen detection module, a respiratory frequency detection module and a brain wave detection module, sends the data to a server for processing and analysis to obtain and display various detection information of a patient, the server processes and analyzes the data, and sends an alarm signal to an alarm module and a remote terminal if the analysis result is abnormal, and controls a gas conveying device to convey corresponding gas to the patient. The invention has convenient use and alarm reminding function, can monitor the blood oxygen saturation of patients in a remote way and in real time by multiple beds, and can help medical staff to know the oxygen deficiency degree of the organism in time by continuously monitoring the pulse blood oxygen saturation of the patients with oxygen deficiency caused by lung diseases, respiratory disorders and the like, thereby providing effective treatment for the patients.

Description

Multi-bed remote measurement blood oxygen system with alarm function

Technical Field

The invention relates to the technical field of nursing equipment, in particular to a multi-bed telemetering blood oxygen system with an alarm function.

Background

In clinic, any patient with hypoxemia risk can be monitored by using an oximeter, and currently, the portable pulse oximeter and the electrocardiographic monitoring oxyhemoglobin saturation monitor which are applied to clinic are used

The blood oxygen saturation detection device is mature, can meet the requirements of accuracy and stability of general clinical use while realizing the characteristics of light volume, convenient carrying, wireless transmission and the like, and avoids the defects of invasiveness, susceptibility to infection, incapability of acquiring data in real time and the like of the traditional blood oxygen saturation detection. On prior art's basis, realize remote monitoring in this research, avoid night to be interrupted touching the patient and influence patient's sleep. Simultaneously, many beds patient data transmission to the computer, the nurse can monitor patient's real-time blood oxygen data at nurse's station, if be less than the warning scope, alarming function will remind the nurse in time to take measures.

Disclosure of Invention

The invention aims to provide a multi-bed telemetering blood oxygen system with an alarm function, which overcomes the defects in the prior art.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a multi-bed telemetering blood oxygen system with alarm function comprises: the system comprises a server, a noninvasive blood oxygen detection module, a respiratory frequency detection module, a gas conveying device, a brain wave detection module, a central monitoring console, a remote terminal and an alarm module;

the noninvasive blood oxygen module is used for performing noninvasive acquisition on the blood oxygen saturation and the pulse information of the patient;

the respiratory frequency detection module is used for detecting the respiratory frequency and the periodic carbon dioxide concentration of a patient;

the brain wave detection module is used for detecting the brain waves of the patient;

the gas delivery device is used for delivering oxygen or hypnotic gas to a patient;

the central monitoring station is used for receiving data sent by the noninvasive blood oxygen detection module, the respiratory frequency detection module and the brain wave detection module, and sending the data to the server for processing and analysis to obtain and display various detection information of the patient;

the server is used for processing and analyzing the data, sending an alarm signal to the alarm module and the remote terminal if the analysis result is abnormal, and controlling the gas conveying device to convey corresponding gas to the patient.

Preferably, the server comprises a data transceiver module, a database, a calculation module, a comparison module and a result output module;

the data transceiver module is connected with the central monitoring station and is used for data interaction with the central monitoring station;

the database stores data of normal human blood oxygen saturation, periodic respiratory frequency, periodic pulse value and periodic carbon dioxide exhalation range;

the calculation module is used for calculating the blood oxygen saturation, the pulse and the respiratory frequency value of the patient according to the unit of minutes;

the comparison module is used for comparing each calculated value of the calculation module with range data in the database, and if the value does not fall into the corresponding range value, an alarm signal is sent to the remote terminal and the alarm module through the result output module.

Preferably, the respiratory rate detection module comprises a carbon dioxide sensor, a collection mask and a respiratory collector;

the collecting cover is horn-shaped and is fixedly arranged above the sickbed;

the respiration collector is used for collecting respiration data of a subject patient;

the carbon dioxide sensor is fixedly arranged in the collecting cover, and the carbon dioxide is used for collecting the gas exhaled by the patient and detecting the concentration of the carbon dioxide in the gas;

the carbon dioxide sensor and the breathing collector are both electrically connected with the central monitoring console.

Further, gas delivery device includes oxygen suppliment shower nozzle and stable gas shower nozzle, and oxygen suppliment shower nozzle and stable gas shower nozzle all fixed mounting are in collecting the cover.

Further, the breath collector includes a pressure sensor for detecting data of a fluctuation frequency of the body while the subject patient breathes, the frequency being a breathing frequency,

furthermore, the server also comprises a processing unit, and the processing unit is used for analyzing the respiratory frequency and the brain wave data, and calculating and recording the respiratory and brain wave parameter frequencies.

Further, the breathing parameters comprise breathing frequency, breathing times and duration, and the brain wave parameters comprise brain wave waveforms.

Furthermore, the processing unit comprises a first judging module, the judging module compares the real-time minute breathing parameter data of the patient with the previous minute breathing parameter data of the real-time breathing parameter, if the latter data are respectively smaller than the former data and the breathing frequency data in the database, the detection is carried out, the concentration data of carbon dioxide exhaled by the patient is smaller than the periodic carbon dioxide exhalation range in the database, and the detected brain wave is in the normal range, the patient is judged to be difficult to breathe, the central monitoring console controls the oxygen supply nozzle to supply oxygen to the patient, and the oxygen supply is cut off on the contrary.

Furthermore, the brain wave module comprises a brain wave detection patch and a brain wave detector, the brain wave detector is used for sending brain wave data obtained by detecting the brain wave detection patch to the central monitoring station, and the central monitoring station forwards the brain wave data to the server.

The server further comprises a second judging module, wherein the second judging module is used for analyzing the type of the brain wave waveform, and when the brain wave waveform is theta wave, the frequency is 4-7 Hz/s, and the amplitude is 100-150 muV, the second judging module controls the oxygen supply spray head to be started through the central console; when the brain wave is beta wave, the frequency is 14-30 Hz/s, and the amplitude is 5-20 μ V, the second judgment module controls the stable gas nozzle to start through the central console.

Compared with the prior art, the invention has the advantages that: the invention has convenient use and alarm reminding function, can monitor the oxyhemoglobin saturation of patients in real time by remote monitoring and multi-bed, can be applied to emergency rooms, operating rooms, clinical anesthesia, various clinical inpatient wards and the like, can help medical staff to know the degree of the hypoxia in time for patients with hypoxia caused by lung diseases, respiratory disorders and the like by continuous pulse oxyhemoglobin saturation monitoring, provides effective treatment for the patients, and can selectively deliver corresponding gas for the conditions of hypoxia, difficulty in sleeping and abnormal excitation of the patients so as to ensure the comfortable sensation of the patients.

Drawings

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

Fig. 1 is a frame diagram of the multi-bed telemetric blood oxygen system with alarm function according to the present invention.

FIG. 2 is a block diagram of a processing module of the present invention;

fig. 3 is a cross-sectional view of a collection cap of the present invention.

In the figure: the system comprises a server 1, a non-invasive blood oxygen detection module 2, a respiratory frequency detection module 3, a gas conveying device 4, a brain wave detection module 5, a central monitoring console 6, a remote terminal 7, an alarm module 8, a collecting cover 31 and a carbon dioxide sensor 32.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention will be more clearly and clearly defined.

Example one

Referring to fig. 1, the present invention provides a multi-bed telemetric blood oxygen system with alarm function, which is characterized in that the system comprises: the system comprises a server, a noninvasive blood oxygen detection module, a respiratory frequency detection module, a gas conveying device, a brain wave detection module, a central monitoring console, a remote terminal and an alarm module.

Noninvasive blood oxygen module is arranged in carrying out noninvasive collection to patient's blood oxygen saturation and pulse information, and noninvasive blood oxygen module is equipped with a plurality ofly, can be to a plurality of sick beds, and noninvasive blood oxygen module is noninvasive oximetry and probe among the prior art, and its probe is shone at the abundant position of artery blood vessels such as finger or earlobe, calculates the blood oxygen saturation through detecting blood to the absorptive condition of light, and pulse information detects through its internal sensor.

The respiratory frequency detection module is used for detecting the respiratory frequency and the periodic carbon dioxide concentration of a patient.

The brain wave detection module is used for detecting the brain waves of the patient, is a brain wave detector in the prior art, is provided with a brain wave detection patch, and can be attached to the head of the patient to detect the brain wave condition of the patient.

The gas delivery device is used for delivering oxygen or hypnotic gas to a patient.

The central monitoring station is used for receiving data sent by the noninvasive blood oxygen detection module, the respiratory frequency detection module and the brain wave detection module, sending the data to the server for processing and analysis, obtaining and displaying various detection information of a patient, and is a monitoring computer of a medical care station in the prior art.

The server is used for handling the analysis to data, if analysis result unusual will send alarm signal for alarm module and remote terminal, alarm module is buzzer siren, alarm and central monitoring station electric connection, when alarm received alarm signal, central monitoring station also can receive in real time and show with the interface form, make things convenient for medical personnel to observe, here remote terminal can be cell-phone or computer, make things convenient for medical personnel in time to obtain patient's the condition, central monitoring station and remote terminal can control gaseous conveyor and carry corresponding gas to patient, thereby can carry out reasonable processing to the different physiological characteristics of patient.

In this embodiment, the server includes a data transceiver module 11, a database 12, a calculation module 13, a comparison module 14, and a result output module 15.

The data transceiver module 11 is connected with the central monitoring station and used for data interaction with the central monitoring station, and the data transceiver module 11 is a wireless data bluetooth module or a WIFI module which is common in the prior art.

The database 12 stores data of the normal human blood oxygen saturation, the periodic respiratory frequency, the periodic pulse value and the periodic carbon dioxide exhalation range, and is used for comparing the acquired data.

The calculation module 13 is used for calculating the blood oxygen saturation, the pulse and the respiratory frequency value of the patient according to the unit of minutes, and the accuracy of comparison is ensured.

The comparison module 14 is configured to compare each calculated value of the calculation module 13 with range data in the database 12, and send an alarm signal to the remote terminal and the alarm module through the result output module 15 if the value does not fall within the corresponding range value.

The data transceiver module 11, the database 12, the calculation module 13, the comparison module 14 and the result output module 15 are all connected with the control module, and the linkage of the modules is realized through the control module.

Example two

In this embodiment, the respiratory rate detection module includes a carbon dioxide sensor 32, a collection mask 31, and a respiratory collector.

As shown in fig. 3, collect cover 31 and be loudspeaker form, its material is hard plastic or metal material, it is through suspending the head of a bed top position of rope fixed mounting in the sick bed in midair, thereby make the gas of patient's exhalation in time give off and collect cover 31 position, be convenient for gaseous collection, for the convenience of patient's exhalation gas can be fast through collecting cover 31, collect the inside fixed mounting fan of cover 31, collect and cover 31 top and set up the wind hole, can collect cover 31 with the quick suction of the gas of patient exhalation through starting the fan, make things convenient for gaseous detection work.

The breath collector is for collecting breath data of a subject patient.

The carbon dioxide sensor 32 is fixedly installed in the collection cover 31, and carbon dioxide is used for collecting gas exhaled by the patient and detecting the concentration of carbon dioxide in the gas.

The carbon dioxide sensor 32 and the respiratory collector are both electrically connected with the central monitoring station.

In this embodiment, the gas delivery device includes an oxygen supply nozzle and a stable gas nozzle, and both the oxygen supply nozzle and the stable gas nozzle are fixedly installed in the collecting cover 31.

In this embodiment, the respiration collector 33 includes a pressure sensor, the pressure sensor is used for detecting the fluctuation frequency of the body of the subject patient when breathing, the frequency is the respiration frequency, the sensor is embedded in the mattress of the hospital bed, the pressure change to the cushion caused by the trunk change caused by the patient breathing is sensed in real time, the interruption of the change is the interval of breathing, and thus the respiration frequency can be obtained.

In this embodiment, the server further includes a processing unit, and the processing unit is configured to analyze the respiratory frequency and the brain wave data, and calculate and record respiratory and brain wave parameter frequencies.

In this embodiment, the respiration parameters include respiration frequency, respiration frequency and respiration duration, the electroencephalogram parameters include electroencephalogram waveform, and electroencephalogram waveform irregularity, and the electroencephalogram waveforms are divided into four waveforms according to the frequency, amplitude and physiological characteristics, one is α -wave, the frequency is 8 to 13 Hz/sec, and the amplitude is 20 to 100 μ V. This wave occurs during normal quiet and awake eyes. The second is beta wave, with frequency of 14-30 Hz/s and amplitude of 5-20 μ V, which appears when people look at things or hear sound, and when thinking, the beta wave is generally considered as the expression of excitation of cerebral cortex. Third, theta wave with frequency of 4-7 Hz/s and amplitude of 100-150 μ V. People develop when getting sleepy, oxygen deprived or anaesthetized. Fourthly, delta wave, frequency 0.5-3 Hz/s, amplitude 20-200 μ V. It can appear during sleep, and does not have the wave after waking up; deep anesthesia and hypoxia occur.

In this embodiment, the processing unit includes a first determination module, the determination module compares the real-time minute breathing parameter data of the patient with the previous minute breathing parameter data of the real-time breathing parameter, if the latter data is smaller than the former data and the breathing frequency data in the database 12, respectively, the detection result indicates that the patient breathes difficultly, and the central monitoring station controls the oxygen supply nozzle to supply oxygen to the patient, otherwise, the oxygen is cut off;

for example: the breathing frequency of a certain patient in the previous minute is 16 times, and the breathing frequency of the patient in the next minute is reduced to 12 times, so that the phenomenon of dyspnea of the patient is proved to occur, at the moment, the oxygen supply nozzle blows oxygen to the patient, and the oxygen can be accurately blown to the head of the patient through the collecting cover 31, so that the patient can conveniently breathe.

EXAMPLE III

In this embodiment, the brain wave module includes a brain wave detection patch and a brain wave detector, the brain wave detector is configured to send brain wave data obtained by detecting the brain wave detection patch to the central monitoring station, and the central monitoring station forwards the brain wave data to the server.

In this embodiment, the server further comprises a second determination module, the second determination module is used for analyzing the type of the brain wave waveform, and when the brain wave waveform is theta wave, the frequency is 4-7 Hz/sec, and the amplitude is 100-150 μ V, the second determination module controls the oxygen supply nozzle to be started through the central console; when the brain wave is beta wave, the frequency is 14-30 Hz/s, and the amplitude is 5-20 muV, the second judgment module controls the start of the stable gas spray head through the central control console, and obtains the brain state information of the patient through analyzing the brain wave of the patient, so that the abnormal excitation condition of the patient caused by pain or drug stimulation after the operation can be met.

Example four

In this embodiment, oxygen suppliment shower nozzle and stable gas shower nozzle pass through high-pressure hose and electric pressure regulating valve and are connected with oxygen cylinder and fragrant aerosol generator intercommunication respectively, and fragrant aerosol generator can produce the champignon gaseous, and the kind of champignon can be selected according to actual conditions, through the gaseous mood that can relax patient of champignon, makes patient relax.

Electric pressure regulating valve and central monitoring station electric connection, central monitoring station are used for controlling electric pressure regulating valve's aperture to make medical personnel can control the discharge of oxygen and perfume gas according to patient's severity.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, various changes or modifications may be made by the patentees within the scope of the appended claims, and within the scope of the invention, as long as they do not exceed the scope of the invention described in the claims.

Claims (10)

1. The utility model provides a take alarming function's many berths telemetering measurement blood oxygen system, its characterized in that, includes server, noninvasive blood oxygen detection module, respiratory frequency detection module, gas delivery mechanism, brain wave detection module, central monitoring station, remote terminal and alarm module, noninvasive blood oxygen module is used for carrying out the noninvasive collection to patient's blood oxygen saturation and pulse information, respiratory frequency detection module is used for detecting patient respiratory frequency and cycle carbon dioxide concentration, brain wave detection module is used for detecting patient's brain wave, gas delivery mechanism is used for carrying oxygen or the gas of sleeping peacefully to patient, central monitoring station is used for receiving the data that noninvasive blood oxygen detection module, respiratory frequency detection module and brain wave detection module sent to give the server with data transmission and carry out the processing analysis, obtain and show each item detected information of patient, the server is used for carrying out the processing analysis to data, will send alarm signal for alarm module and remote terminal if the analysis result is unusual, and control gas delivery mechanism carries corresponding gas to patient.

2. The multi-bed telemetric blood oxygen system with alarm function according to claim 1, characterized in that: the server comprises a data receiving and transmitting module, a database, a calculating module, a comparing module and a result output module; the data transceiver module is connected with the central monitoring station and used for data interaction with the central monitoring station; the database stores data of normal human blood oxygen saturation, periodic respiratory frequency, periodic pulse value and periodic carbon dioxide exhalation range; the calculation module is used for calculating the blood oxygen saturation, the pulse and the respiratory frequency value of the patient according to the unit of minutes; the comparison module is used for comparing each calculated value of the calculation module with range data in the database, and if the value does not fall into the corresponding range value, an alarm signal is sent to the remote terminal and the alarm module through the result output module.

3. The multi-bed telemetric blood oxygen system with alarm function according to claim 1, characterized in that: respiratory frequency detection module includes the carbon dioxide sensor, collects the cover and breathes the collector, collect the cover and be loudspeaker form, its fixed mounting is in sick bed top position, it is used for gathering object patient's breathing data to breathe the collector, carbon dioxide sensor fixed mounting is in collecting the cover, and carbon dioxide is used for collecting the gas of patient's exhalation to carbon dioxide concentration in the testing gas, carbon dioxide sensor and breathing the collector all with central monitoring station electric connection.

4. The multi-bed telemetric blood oxygen system with alarm function according to claim 1, characterized in that: gaseous conveyor includes oxygen suppliment shower nozzle and stable gas shower nozzle, and the equal fixed mounting of oxygen suppliment shower nozzle and stable gas shower nozzle is in collecting the cover.

5. The multi-bed telemetering blood oxygenation system with an alarm function according to claim 4, wherein: the respiration collector includes a pressure sensor for detecting data of a fluctuation frequency of the body of the subject patient while breathing, the frequency being a breathing frequency.

6. The multi-bed telemetric blood oxygen system with alarm function according to claim 5, wherein: the server also comprises a processing unit, and the processing unit is used for analyzing the respiratory frequency and the brain wave data, and calculating and recording the respiratory and brain wave parameter frequencies.

7. The multi-bed telemetric blood oxygen system with alarm function according to claim 6, characterized in that: the respiration parameters comprise respiration frequency, respiration times and respiration duration, and the brain wave parameters comprise brain wave waveforms.

8. The multi-bed telemetric blood oxygen system with alarm function according to claim 7, characterized in that: the processing unit comprises a first judging module, the judging module compares real-time minute breathing parameter data of a patient with previous minute breathing parameter data of the real-time breathing parameter, if the latter data are respectively smaller than the former data and breathing frequency data in the database, the breathing difficulty of the patient is judged when the concentration data of carbon dioxide exhaled by the patient is smaller than the periodic carbon dioxide exhalation range in the database and the detected brain wave is in a normal range, the central monitoring station controls the oxygen supply nozzle to supply oxygen to the patient, and the oxygen is cut off otherwise.

9. The multi-bed telemetering blood oxygenation system with an alarm function according to claim 1, characterized in that: the brain wave module comprises a brain wave detection patch and a brain wave detector, the brain wave detector is used for sending brain wave data obtained by detecting the brain wave detection patch to the central monitoring station, and the central monitoring station forwards the brain wave data to the server.

10. The multi-bed telemetric blood oxygen system with alarm function according to claim 8, wherein: the server also comprises a second judging module, wherein the second judging module is used for analyzing the type of the brain wave waveform, and when the brain wave waveform is theta wave, the frequency is 4-7 Hz/s, and the amplitude is 100-150 mu V, the second judging module controls the oxygen supply spray head to be started through the central console; when the brain wave is beta wave, the frequency is 14-30 Hz/s, and the amplitude is 5-20 μ V, the second judgment module controls the stable gas nozzle to start through the central console.

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