JP5266196B2 - Treatment system, oxygen concentrator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an operation method for an oxygen concentrator allowing a prompt and secure maintenance check of the oxygen concentrator for home oxygen therapy. <P>SOLUTION: The oxygen concentrator to generate oxygen-enriched air for home oxygen therapy wherein a patient continuously inhales the oxygen-enriched air is characterized by comprising (1) a display part for displaying information on the operation of the oxygen concentrator including information stored in the past and/or real-time information detected right now and (2) an operation part for executing the display. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to an operation method of an oxygen concentrator, and more particularly, to a configuration capable of quickly and surely and easily performing maintenance and inspection of an oxygen concentrator used for home oxygen therapy that continues to inhale oxygen-enriched gas at home.

  Conventionally, a breathing gas supply device (hereinafter also referred to as an oxygen concentrator) for separating and concentrating oxygen in the air to obtain an oxygen-enriched gas for respiratory disease patients has been developed, and oxygen using the same Therapy has become increasingly popular.

  Such oxygen therapy may be performed while the patient is admitted to a medical institution, but the patient's respiratory illness presents chronic symptoms, and this oxygen therapy is performed over a long period of time to stabilize and stabilize the symptoms. When it is necessary to install the oxygen concentrator above the patient's home, the oxygen-enriched gas supplied by the oxygen concentrator is guided to the vicinity of the patient's nasal cavity using a tube member called a cannula. There is also a treatment method in which a patient performs suction. This kind of treatment method is also called home oxygen therapy or HOT (Home Oxygen Therapy).

  The above-mentioned home oxygen therapy has been prescribed mainly for chronic obstructive pulmonary disease (COPD) and pulmonary tuberculosis sequelae since insurance was applied in 1985. 60 to 65 people per million, or about 80,000 people (as of 2000). In addition, the former Ministry of Health and Welfare Respiratory Failure Team has reported that this home oxygen therapy improves the patient's prognosis. The reason why home oxygen therapy is effective in this way is presumed to be due to improvement in pulmonary circulation dynamics accompanying improvement in hypoxemia.

  The above-mentioned home oxygen therapy consists of (1) medical examination of the patient by the doctor, (2) issuance by the doctor of the home oxygen therapy execution instruction describing the prescription for this patient based on the medical examination, and (3) based on this instruction. Performed through steps such as installing an oxygen concentrator at the patient's home, (4) continuing to perform oxygen-enriched gas inhalation using the oxygen concentrator, and (5) regular, for example, monthly visits. The

JP 7-227516 A

  The oxygen concentrator used for the above-mentioned home oxygen therapy (hereinafter also referred to as oxygen concentrator) is typically configured as a pressure fluctuation adsorption type oxygen concentrator using an adsorbent that selectively adsorbs nitrogen. It was fixedly installed at the home of a patient receiving home oxygen therapy and discharged oxygen-enriched gas (oxygen-enriched gas) for patient respiration. When the patient goes out, such as during regular visits to medical institutions, the patient has inhaled oxygen-enriched gas supplied from a small oxygen cylinder that he carries.

  Therefore, the oxygen concentrator can be operated continuously for a long time at the patient's home and it is necessary to maintain the predetermined performance for generating the oxygen-enriched gas. It is important to carry out inspections to correctly grasp the state of the equipment and take appropriate measures.

  In the above periodic inspection, a specialist engineer familiar with the structure, repair method, performance evaluation method, etc. of the oxygen concentrator has regularly visited the patient's home and used a predetermined measuring instrument. The operation status and performance were confirmed, and in order to do so, it was necessary to train a large number of specialists and to arrange them at bases throughout the country. It was also necessary for the patient to have a professional engineer at home after promising an inspection schedule.

  For such a situation, the present applicant has previously proposed the oxygen concentrator inspection system described in Patent Document 1. The proposed system is mainly composed of an oxygen concentrator that stores operation data inside and a handy terminal that can be connected to the oxygen concentrator and receive operation data. Operational information collected using this handy terminal at home was sent to a main computer installed in a center facility, etc., and collected to enable efficient inspection. However, even when the proposed system is used, it is necessary to visit each patient's home one by one and collect driving data as before, and the work of the patient receiving the visit is still necessary. Improvement was desired.

  The present invention has been made in view of the above-described situation, and is an oxygen concentrator that enables quick and reliable execution of maintenance and inspection of an oxygen concentrator used for home oxygen therapy that continues to inhale oxygen-enriched gas at home. It is an object to provide a method of operating an apparatus.

In order to solve the above-described problems, the present invention provides each configuration described in 1) to 7) below.
1) An oxygen concentrator that produces oxygen-enriched gas for use in performing home oxygen therapy, which is a therapy in which a patient continuously inhales oxygen-enriched gas, and (1) operation of the oxygen concentrator A display unit for displaying information accumulated in the past and / or real-time information detected directly at present, and (2) an operation unit for performing the display. Oxygen concentrator.
2) A treatment system for use in performing home oxygen therapy in which a patient continuously inhales oxygen-enriched gas generated by an oxygen concentrator, and (1) authentication confirmation or physical using a password An oxygen concentrator provided with a control unit that performs processing of at least one of transmission, readout, display, reset, and erasing of information related to the operation of the oxygen concentrator after unlocking using a typical key; (2) A treatment system comprising: an information terminal device including a transmission unit that transmits the password to the oxygen concentrator.
3) An oxygen enrichment device that generates oxygen enriched gas for use in performing home oxygen therapy, which is a therapy in which the patient continuously inhales oxygen enriched gas, transmitted from an external information terminal device After receiving a password and performing authentication confirmation using the password or unlocking using a physical key, at least one of transmission, readout, display, reset, and deletion of information related to the operation of the oxygen concentrator An oxygen concentrator comprising a control unit for performing the above.
4) A treatment system for use in performing home oxygen therapy, which is a therapy in which the patient continuously inhales oxygen-enriched gas generated by the oxygen concentrator, and (1) information on the operation of the oxygen concentrator And (2) using the information regarding the operation received from the oxygen concentrator, and (a) the oxygen concentrator. Generate at least one of the following: (b) list of oxygen concentrators that have malfunctioned, and (c) list of oxygen concentrators that require replacement or maintenance An information device comprising an executing means for performing a treatment system.
5) The treatment system according to 4) above, wherein the information terminal device lists up an oxygen concentrator that requires replacement and maintenance in the process of (c) and a due date.
6) A treatment system for use in performing home oxygen therapy, which is a therapy in which the patient continuously inhales the oxygen-enriched gas generated by the oxygen concentrator, and (1) information on the operation of the oxygen concentrator And an oxygen concentrator provided with a memory medium configured to be able to record and hold directly and to be removable from the oxygen concentrator, and (2) the memory medium removed from the oxygen concentrator And an information terminal device for reading out information related to the driving.
7) An oxygen concentrator that produces oxygen-enriched gas for use in performing home oxygen therapy, which is a therapy in which a patient continuously inhales oxygen-enriched gas, with information on the operation of the oxygen concentrator An oxygen concentrating apparatus comprising a memory medium that is capable of recording and holding directly and is detachable from the oxygen concentrator.

  The present invention can provide a method of operating an oxygen concentrator that enables quick and reliable and efficient execution of maintenance and inspection of the oxygen concentrator used for home oxygen therapy that continues to inhale oxygen-enriched gas at home.

It is a connection diagram of a home oxygen therapy system which is a preferred example according to an embodiment of the present invention. It is a block diagram of the oxygen concentration apparatus which the home oxygen therapy system of FIG. 1 has.

  Hereinafter, a home oxygen therapy system as a preferred example according to the embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. 1 is a connection diagram of a home oxygen therapy system which is a preferred example according to the embodiment of the present invention, and FIG. 2 is a configuration diagram of an oxygen concentrator included in the home oxygen therapy system of FIG.

[Configuration of home oxygen therapy system]
As shown in the connection diagram of FIG. 1, the home oxygen therapy system of the present embodiment includes an oxygen concentrator 1 that supplies oxygen-enriched gas to a respiratory disease patient, and a function for confirming the operating state of the oxygen concentrator 1. The main component is a medical institution terminal 2c having

  The oxygen concentrator 1 is a device that separates nitrogen in the air and supplies high-concentration oxygen (oxygen-enriched gas) mainly for use in home oxygen therapy as described above. As an adsorbent that can selectively adsorb nitrogen, molecular sieve zeolite 5A, 13X, or lithium-based zeolite is filled in an adsorption cylinder (in the adsorption unit 5), and compressed air produced by an air compressor (compressor 4). It is a pressure fluctuation adsorption type oxygen concentrator that takes out oxygen by supplying oxygen. In the implementation of the present invention, the configuration related to the basic oxygen concentration function of the oxygen concentrator is not limited to the mode described here, and may be a known configuration or various configurations proposed in the future. I can do it.

  As shown in the block diagram of FIG. 2, the oxygen concentrator 1 of this embodiment, which is a pressure fluctuation type adsorbent oxygen concentrator, has an adsorption cylinder (adsorption unit) filled with an adsorbent that selectively adsorbs nitrogen rather than oxygen. 5), pressurized air compressed by the compressor 4 from the atmosphere is supplied, the inside of the adsorption cylinder is pressurized, nitrogen is adsorbed, and oxygen that has not been adsorbed is taken out. The oxygen-enriched gas, mainly oxygen extracted from the adsorption cylinder, is stored in the product tank 6, and then supplied to the outside of the device 1 from the product supply end 9 via the ultrasonic sensor unit 7 and the breath synchronization unit 8, The oxygen-enriched gas is supplied to the user (oxygen therapy patient) through the nasal cannula 12 which is a tube member that transports the oxygen-enriched gas from the oxygen concentrator 1 to the vicinity of the patient's nasal cavity.

  Here, because the amount of nitrogen that can be adsorbed in one process is determined by the amount and type of adsorbent, the flow switching valve is switched before the amount of nitrogen adsorbed on the adsorbent is saturated. The adsorption cylinder is opened to the atmosphere, the pressure inside the adsorption cylinder is reduced, and nitrogen is desorbed to regenerate the adsorbent. Further, the flow path switching valve is controlled by the main control unit 14 so as to be switched at a preset time. In order to increase the adsorption / desorption amount in one process, the pressure inside the adsorption cylinder in the desorption process may be evacuated using a vacuum pump.

  Note that, by configuring the oxygen concentrator 1 of the system of this embodiment to be small and light, it is described in, for example, Japanese Patent No. 3269626 in order to realize a portable type instead of being fixedly installed in a patient's house. It is a desirable mode that the adsorption unit 5 is provided with the rotary valve means for successively and successively forming gas flow paths for pressurization and desorption with respect to the plurality of adsorption cylinders using the above-described configuration.

  As described in Japanese Patent Application Laid-Open No. 2002-214012 related to the applicant's application, the ultrasonic sensor unit 7 is in the same direction and in the opposite direction to the flow direction of the oxygen-enriched gas flowing in the nasal cannula 1c. The propagation speed of two sound waves, for example, ultrasonic waves, can be measured, and the actual flow rate of the oxygen-enriched gas flowing through the nasal cannula 1c can be measured from the difference between the two measured values. Moreover, you may have the structure which measures the actual flow volume of oxygen-enriched gas using another structure and system.

  Furthermore, the respiration synchronization unit 8 detects the patient's respiration, supplies the oxygen-enriched gas only during the inspiration period (inhaling air), and stops the supply during the exhalation period (out of air). By realizing the function of the demand regulator, it is intended to conserve the amount of oxygen-enriched gas supplied to the patient without affecting the patient's inhalation. In the operation mode used as a supply source, the amount of power used can be reduced, and in the operation mode using a rechargeable battery as the power supply source, the operation time until the next charging can be extended.

  As described above, the operation mode (hereinafter also referred to as the synchronization mode) in which the patient's respiration is detected and the oxygen-enriched gas is supplied only during the inspiration period, and the oxygen-enriched gas having a constant flow rate is supplied regardless of the patient's respiration. The oxygen concentrator 1 is provided with an operation switch (not shown) for switching operation mode (hereinafter also referred to as continuous mode) that is always supplied. For example, in sleep mode, the operation switch is always operated in the continuous mode. Inhalation of oxygen-enriched gas is to be performed. This is to enable the supply of oxygen-enriched gas to continue even when the patient during sleep breathes through the mouth instead of the nasal cavity and is not detected.

  A specific configuration for detecting patient breathing is, for example, an audio signal (patient breathing sound) using an optical microphone as described in Japanese Patent Application Laid-Open No. 2002-272845 related to the applicant's application. ) Is converted into an optical signal, then converted into a voltage signal, and further converted into a frequency, analysis in the frequency domain is performed, and breathing is detected by the difference in the frequency band, as disclosed in JP-A-62-270170. A method for providing a sensor composed of a pyroelectric element in a nasal cannula as described, and a diamond for detecting capacitance using a polymer film in which a conductive layer is laminated as described in Japanese Patent Publication No. 5-71894 A configuration using a non-ram type pressure detector, or a pressure detector provided near the oxygen supply port of the oxygen concentrator main body as described in JP-A-2-88078, and oxygen based on the signal of the pressure detector There is a way to control the supply of enriched gas, Or it can be realized by other methods.

  The display unit 10 is a display unit including a display member such as a liquid crystal panel and its peripheral interface unit, and displays information transmitted from the main control unit 14 on the display member. The contents of the data displayed by the display unit 10 include the contents displayed on the conventional oxygen concentrator such as the operation on state display, the alarm and alarm display, and the set flow rate display. And information (hereinafter also referred to as operation information and operation data) as a result of detecting the operation state of each component of the oxygen concentrator 1. The specific contents of this driving information will be described later.

  The information output terminal 11 is an output terminal or transmission interface for sending various information sent from the main control unit 14 to a device other than the oxygen concentrator 1 such as a personal computer via a wireless or wired transmission path, A configuration conforming to a known communication standard such as IrDA, RS-232C, USB, bluetooth may be used. In addition to the contents displayed on the conventional oxygen concentrator, the information to be sent includes information on the result of detecting the operation state of the oxygen concentrator 1 (hereinafter also referred to as operation information and operation data). It is.

  The flow rate setting unit 12 is for setting the flow rate of the oxygen-enriched gas to be supplied by the user such as a patient. For example, the dial switch is operated to rotate the dial switch to 1 liter / minute, 2 liter / minute, When a desired selection value is selected from among 3 liters / minute, the main control unit 14 that detects this selection value controls the operating speed of the compressor 4 and the adsorption unit 5 to set the desired flow rate. It is realized.

  The compressor 4 has a compressor drive motor for driving the compressor 4, and the compressor drive motor follows the drive current generated and output by the power supply control unit 3 so as to realize the rotation speed set by the main control unit 14. Compressor 4 is driven to rotate. The compression mechanism part of the compressor 4 compresses air by the rotational force obtained by the compressor drive motor, and there are various types depending on the compression method, such as a reciprocating piston type and a rotary scroll type. However, any type may be used as long as it can compress air in the atmosphere.

  The power supply control unit 3 has a function of supplying power to each component included in the apparatus 1 in addition to the drive current output for driving the compressor 4 as described above. The oxygen concentrator 1 according to the present embodiment is characterized in that it is configured as a portable type, and the conventional typical stationary oxygen concentrator is a method of supplying power from only a household AC power source. The three-way power supply system with built-in battery, home AC power supply, and automotive DC power supply is adopted. For this purpose, the power supply input end 2 is provided on the outer peripheral part of the housing facing the outside of the apparatus, and through this power supply from the AC power supply unit 15 or the in-vehicle power supply unit 16 connected to the cigarette lighter contact in the car is supplied with DC. I can receive it.

  In addition, a battery 13 that can be repeatedly charged in a removable manner is provided inside the oxygen concentrator 1, and when power cannot be supplied through the power input terminal 2, the battery 13 discharges power. Power is supplied to the control unit 3. The battery 13 is normally charged with the power supplied from the AC power supply unit 15 or the in-vehicle power supply unit 16 via the power input terminal 2 and the power supply control unit 3 while the battery 13 is attached to the oxygen concentrator 1. It is executed by being supplied. Further, in place of the battery 13 which is a secondary battery, a power storage unit having another configuration such as a fuel cell may be used.

  The main control unit 14 detects the operating state of the oxygen concentrator 1 along with the same function as the oxygen concentrator of the conventional configuration that controls each component of the oxygen concentrator 1 to supply the oxygen-enriched gas. Thus, it has a function of generating and storing digital information (hereinafter also referred to as driving information or driving data) digitized as necessary.

  The above operation information is digital information obtained as a result of detecting the operation state of each component included in the oxygen concentrator 1 including configurations other than those described above, and (1) pressure fluctuation adsorption (2) Oxygen concentration of oxygen-enriched gas discharged from the oxygen concentrator 1, (3) Operation time of the oxygen concentrator 1, (4) You may comprise so that at least any one of the information of the presence or absence of abnormality in the oxygen concentration apparatus 1 may be included.

  The operation information is output to an apparatus other than the oxygen concentrator 1 via the information output terminal 11, for example, a personal computer, or output to the display unit 10 or other display means for display. These functions will be described later.

  Further, the above-described main control unit 14 is configured by using computer means according to a known technique, and a computer program installed on the computer means and running on the computer means has already been described or has the following operations. It may be configured to include a code part in which each operation step is described so as to be realized.

  Further, the oxygen concentrator 1 of the present embodiment has a characteristic configuration for realizing a portable function, for example, in addition to the points described above, for example, it has a necessary degree of dustproof and dripproof functions and has an oxygen concentration. It has a housing part that protects the inside of the device 1, a wheel part that is attached to the housing part, a holding handle that is also attached to the housing part (both not shown), etc. You can accompany them. It is good also as a structure where a patient carries directly with a sling belt, or puts it in a rucksack and carries it without having a wheel part.

Furthermore, in order to make the oxygen concentrator 1 portable, the mass and volume have been greatly reduced from the past. For example, a conventional fixed installation type typical oxygen concentrator has a mass of about 30 kg. The apparatus 1 of the present embodiment is configured with a mass of less than 5 kg and is easy to carry, so that it is easy for the patient to accompany the medical institution that is the outpatient.
The configuration of the medical institution terminal 2c included in this system will be described together with the operation of this system described below.

[Operation of home oxygen therapy system]
Next, the operation of the home oxygen therapy system of the present embodiment will be described with reference to FIG. 1 which is a system connection diagram.

  First, when the patient 1b is in the patient's home 1a and undergoes oxygen therapy, the patient can be supplied with electric power from a household AC power source and inhale oxygen-enriched gas in the same way as before, and the battery in the patient's home can be used. If inhalation is performed with 13 drives, patient 1b can continue inhaling while freely moving around the patient's home with the device 1 without restrictions of AC outlets, so it can be many meters like conventional fixed installation type devices The inconvenience of connecting a long cannula with an extension tube to the oxygen concentrator and inhaling via this cannula with an extension tube is eliminated.

  As a characteristic point of the present embodiment, the main control unit 14 included in the apparatus 1 detects the above operation information at any time or at an appropriate timing when supplying the oxygen-enriched gas, and performs the main control. It is recorded and held in a memory unit (not shown) inside the unit 14.

  Further, the above operation information may be recorded and held not by the memory inside the main control unit 14, but by memory means provided independently, or like a memory stick-TM or SD card-TM. As the removable memory means, only the removable memory means may be taken out and brought into the medical institution 2a instead of the entire oxygen concentrator 1 when going to the medical institution 2a. Alternatively, although the patient brings the oxygen concentrator 1 to the medical institution 2a to be visited, as a method of passing the above operation information to the information equipment of the medical institution, after removing these removable memory means from the oxygen concentrator 1, the medical institution It is also possible to perform so-called medium delivery, which is attached to the information equipment and delivered.

Of course, these driving information may be generated not only in the patient's home 1a but also in the patient's outing destination 3a.
The patient 1b visits the medical institution 2a along with the oxygen concentrator 1 on a regular basis, for example, once a month. That is, the patient 1b carries the oxygen concentrator 1 into the medical institution 2a.

  A medical institution terminal 2c is installed in advance in the medical institution 2a. The medical institution terminal 2c is realized by incorporating a dedicated computer program for receiving operation information of the oxygen concentrator 1 and converting it into a display signal in a general-purpose personal computer. That is, the central information processing unit (CPU) provided in the medical institution terminal 2c receives the operation information which is a digital signal output from the main control unit 14 of the oxygen concentrator 1 according to the dedicated computer program, and receives the medical information. The monitor unit or other information display means attached to the engine terminal 2c operates to generate a display signal for displaying the contents of the operation information.

  The doctor 2b of the medical institution 2a displays the operation information of the above or other configurations on the monitor unit attached to the medical institution terminal 2c connected to the information output terminal 11 via the transmission cable 2e or other transmission path. By confirming, the oxygen concentrator 1 is correctly operated, and as a result, it is possible to grasp whether the patient is correctly receiving home oxygen therapy, and the therapeutic effect of home oxygen therapy can be greatly enhanced.

  The driving information may be transmitted to an information display unit (not shown) outside the medical institution terminal 2c so that the driving information is displayed. Further, a printing unit (not shown) may be provided. Of course, it is also possible to use it and print it on a paper medium.

In addition, the operation information is not output to the medical institution terminal 2c and displayed or the like, but the operation unit (not shown) included in the oxygen concentrator 1 is operated to display on the display unit 10 included in the oxygen concentrator 1 May be displayed.

  In addition, the driving information that is displayed and output is not only information related to past driving previously detected and accumulated by the main control unit 14, but also the above display by directly detecting current real-time driving information. It is also possible to perform.

  When the driving information is displayed on the medical institution terminal 2c of the medical institution, the menu screen (not shown) is first displayed by the function of the dedicated display program installed in the medical institution terminal 2c in advance as described above. Is displayed on the display screen of the medical institution terminal 2c, and the medical information is selected by selecting a desired information name from the item names included in the menu screen, for example, “adsorption pressure”, “oxygen concentration”, etc. It can be displayed on the display screen of the engine terminal 2c. The display order of the item names in the menu screen may be increased as the order of display frequency to increase the efficiency of selection work.

  In addition, for the purpose of altering driving information and preventing it from being erased, authentication using a password, etc. is performed so that only medical personnel determined in advance can read, display, and reset (delete) driving information. It may be configured to confirm or release the lock with a physical key. For this reason, a lock is provided on the oxygen concentrator 1 side, or only when a correct password is sent from the medical institution terminal 2c connected to receive the information, this information is transmitted and displayed. The control unit 14 may be configured.

The operation after the driving information is displayed on the medical institution terminal 2c is as follows.
First, when the doctor 2b reads the occurrence of an abnormality such as the predetermined oxygen concentration not being obtained from the displayed operation information, the medical device 2b delivers the alternative oxygen concentrator 1 to the patient 1b. It is possible to contact the supplier. If replacement of oxygen concentrator 1 is not urgent, deliver it to this medical institution by the next visit so that patient 1b can receive an alternative oxygen concentrator 1 at the next visit (after one month) You can also ask them to do it.

  In addition, the operation information is transmitted to the management terminal 4c of the management center 4a via the Internet communication network 5a, and the trend data of the operating status of each oxygen concentrator is generated or abnormal in accordance with the operation of the management center person 4b. It may be configured such that a list of oxygen concentrators in which gas is generated, an oxygen concentrator that needs to be replaced or maintained soon, and a list of countermeasure dates are executed. For this purpose, the operation information sent from the oxygen concentrator 1 to the medical institution terminal 2c is configured in advance as a data format that can be easily transmitted and received as data attached to an e-mail, such as a data format of general-purpose spreadsheet software or a text data format. It is advantageous if Alternatively, an address that the management terminal 4c has on the Internet communication network 5a, specifically an IP address, for example, may be added in advance to the operation information and transmitted.

  When dealing with the occurrence of an abnormality and arranging for an alternative device, delivery of the alternative oxygen concentrator to a medical institution or patient's house is executed in the same manner as described above.

  A medical institution is provided with a server 2d that temporarily stores driving information, and a person in charge of the medical institution supplier visits the medical institution regularly to collect driving information from the server 2d. Isolation between the terminal 2c and the Internet communication network 5a may be performed.

  Since the oxygen concentrator 1 of the present embodiment is configured as described above, it is not necessary for a professional engineer to visit the patient's home periodically to perform maintenance and inspection of the oxygen concentrator, or at least the number of times can be reduced. Economic efficiency is improved, and the medical economic burden can be reduced. In addition, since the area in charge of the management center can be expanded, maintenance and inspection of the oxygen concentrator can be continued with fewer facilities and personnel, further improving economic efficiency. In addition, since the doctor of the medical institution can directly check the operation status of the oxygen concentrator used by the patient, there is an effect that the certainty and safety in performing home oxygen therapy are further improved.

DESCRIPTION OF SYMBOLS 1 Oxygen concentrator 1a Patient house 2a Medical institution 2c Medical institution terminal (information terminal device)
13 Battery (battery means)
14 Main control unit (information output means)

Claims (6)

An oxygen concentrator that produces an oxygen-enriched gas for use in performing home oxygen therapy, a therapy in which the patient continuously inhales oxygen-enriched gas,
(1) Information related to the operation of the oxygen concentrator, a display unit for displaying information accumulated in the past and / or real-time information currently detected directly;
(2) an operation unit for performing the display;
With
And the information about the driving is
(A) the state of operation of the flow rate setting unit for setting the flow rate of the oxygen-enriched gas to be supplied to the patient, and (B) the state of detection of actual patient respiration by means for detecting patient respiration. An oxygen concentrator characterized by being configured. An oxygen concentrator that produces an oxygen-enriched gas for use in performing home oxygen therapy, a therapy in which the patient continuously inhales oxygen-enriched gas,
(1) Information relating to the operation of the oxygen concentrator, and a control unit that controls to output information accumulated in the past and / or real-time information currently detected directly to the outside of the oxygen concentrator;
(2) an information output terminal section for performing the output;
And the information on the driving is
(A) the state of operation of the flow rate setting unit for setting the flow rate of the oxygen-enriched gas to be supplied to the patient, and (B) the state of detection of actual patient respiration by means for detecting patient respiration. An oxygen concentrator characterized by being configured.   Provided with means for executing at least one of output, display, reset, and deletion of information related to the operation of the oxygen concentrator after authentication confirmation using a password or unlocking using a physical key The oxygen concentrator according to claim 1 or 2, wherein A treatment system for use in performing home oxygen therapy, which is a therapy in which a patient continuously inhales oxygen-enriched gas produced by an oxygen concentrator,
(1) (A) State of operation of the flow rate setting unit for setting and operating the flow rate of the oxygen-enriched gas to be supplied to the patient, and (B) State of detection of actual patient respiration by means for detecting patient respiration An oxygen concentrator comprising information output means for accumulating information relating to the operation of the oxygen concentrator configured to include and outputting the information to the outside in accordance with the operation;
(2) Using the information related to the operation received from the oxygen concentrator, (a) generating trend data of the operation status of the oxygen concentrator, (b) at least among the list of oxygen concentrators in which an abnormality has occurred An information device comprising execution means for executing any one of the processes;
A treatment system comprising: A treatment system for use in performing home oxygen therapy, which is a therapy in which a patient continuously inhales oxygen-enriched gas produced by an oxygen concentrator,
(1) (A) State of operation of the flow rate setting unit for setting and operating the flow rate of the oxygen-enriched gas to be supplied to the patient, and (B) State of detection of actual patient respiration by means for detecting patient respiration An oxygen concentrator comprising a memory medium configured to include information about the operation of the oxygen concentrator and capable of being directly recorded and retained and configured to be detachable from the oxygen concentrator; ,
(2) An information terminal device that reads the information about the operation by attaching the memory medium removed from the oxygen concentrator,
A treatment system comprising: An oxygen concentrator that produces an oxygen-enriched gas for use in performing home oxygen therapy, a therapy in which the patient continuously inhales oxygen-enriched gas,
(A) the state of operation of the flow rate setting unit for setting the flow rate of the oxygen-enriched gas to be supplied to the patient, and (B) the state of detection of actual patient respiration by means for detecting patient respiration. An oxygen concentrator comprising a memory medium configured to be able to directly record and hold information relating to the operation of the oxygen concentrator and to be detachable from the oxygen concentrator .

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