JP2006068503A - Oxygen concentrator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an oxygen concentrator which can quickly convey required information such as a degree of abnormality to a user when an abnormality occurs in the concentrator. <P>SOLUTION: In a step 100, the oxygen concentrator uses its sensor etc. to judge whether abnormality has occurred in the oxygen concentrator or not. The oxygen concentrator goes to a step 110 when it is judged YES in the step 100, while goes to a stand-by when judged NO. In the step 110, the oxygen concentrator selects the contents of notification of abnormality in accordance with abnormality contents. That is, lighting color of a lamp or a condition of lighting the lamp is set to be changed in accordance with a rank of the abnormality. In the following step 120, a means to notify corresponding abnormality in accordance with abnormality contents is driven to process to notify the abnormality to a user. That is, lighting operation of the lamp is controlled in accordance with the rank of abnormality. In the following step 130, a dealing method is displayed in a scrolled fashion in an external accumulation time display 21. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an oxygen concentrator that supplies a high concentration of oxygen to a patient or the like by, for example, a pressure fluctuation adsorption method.

  Conventionally, as a medical oxygen concentrator used as home oxygen therapy, a pressure fluctuation adsorption type oxygen concentrator has been mainly used. This apparatus compresses and supplies raw material air, adsorbing cylinder filled with an adsorbent that preferentially adsorbs nitrogen in the air and separates oxygen, and switches the inside of the adsorbing cylinder between a pressurized state and a depressurized state. It comprises a switching valve, a product tank for storing the product gas concentrated through the adsorption cylinder, and a flow rate setting device for adjusting the flow rate supplied from the product tank to the patient via the pressure regulator.

  A first pressure sensor is provided on the inlet or outlet side of the adsorption cylinder, and a second pressure sensor and an oxygen sensor for measuring the oxygen concentration of the generated oxygen-enriched gas are provided on the downstream side of the pressure regulator. When an abnormality is detected by these sensors, an alarm lamp is turned on or an alarm buzzer sounds.

  However, many patients with respiratory pulmonary disease who receive home oxygen therapy are elderly people, and especially in severe patients, abnormalities in the device may be accompanied by worsening of symptoms. In addition, when an abnormality occurs in the device, it is easy to panic and there is no time or mental allowance, so it is necessary to easily and accurately tell what kind of abnormality is and how to deal with it. .

In addition, even if a minor abnormality that can be easily solved by the patient himself is often contacted with the device supplier, there is room for consideration in terms of quick response.
Therefore, in recent years, as countermeasures, there have been proposed techniques for displaying the location of an abnormality, displaying the content of the abnormality, and further displaying a countermeasure (see Patent Documents 1 to 3).
JP 2000-316975 (2nd page) JP 2001-46504 (2nd page, FIG. 1) JP 2001-95920 (2nd page, FIG. 4)

  However, although these improved technologies are better than those that turn on a single abnormal lamp or sound an alarm buzzer, they are not sufficient in terms of quickly recognizing the degree of abnormality, and are further improved. Was demanded.

  The present invention has been made in order to solve the above-described problems, and its purpose is to provide oxygen enrichment that can promptly inform a user of necessary information such as the degree of abnormality when an abnormality occurs in the apparatus. Is to provide a vessel.

  (1) According to the invention of claim 1, in the oxygen concentrator provided with an abnormality detecting means for detecting an abnormality of the apparatus (oxygen concentrator), when an abnormality is detected by the abnormality detecting means, the content of the abnormality is The display is performed by driving the corresponding alarm lamp, and the lighting state of the alarm lamp is changed according to the rank (degree: urgency) of the abnormality.

  In the present invention, when an abnormality occurs in the apparatus, the abnormality lamp is displayed with an alarm lamp (a lamp for notifying abnormality such as the abnormality lamp in the embodiment), and the alarm lamp is turned on according to the rank of the abnormality. Change the state of.

  Accordingly, the user can grasp at a glance how many ranks of abnormality have occurred by looking at the lighting state of the alarm lamp. Therefore, the user can calmly cope with a minor abnormality, and can quickly contact a necessary contact person if the abnormality is urgent. In addition, since there is a minor abnormality that can be dealt with by itself, there is an advantage that the response is not delayed because it can be handled by itself.

  In addition, as the rank of abnormalities, the same type of abnormalities with different levels (for example, in oxygen concentration, for example, less than 82% and 75% or less, 75% or less is higher in abnormal rank) or different types However, the degree of abnormality differs depending on the type (for example, in the case of a decrease in oxygen concentration and leakage of a humidifier, an abnormality related to oxygen concentration has a higher abnormality rank).

(2) The invention of claim 2 is characterized in that the alarm lamp is continuously turned on when the rank of the abnormality is lower and the alarm lamp is blinked when the rank is higher.
This invention illustrates the lighting state according to the rank of abnormality. In the present invention, the alarm lamp is continuously lit when the abnormality rank is lower, and the alarm lamp blinks when the abnormality rank is higher, so that the degree of abnormality can be immediately grasped. Therefore, it is possible to quickly and appropriately deal with the abnormality.

(3) The invention of claim 3 is characterized in that the lighting color of the alarm lamp is changed according to the rank of the abnormality.
This invention illustrates the lighting state according to the rank of abnormality. In the present invention, since the lighting color of the alarm lamp is changed according to the rank of abnormality, the degree of abnormality can be immediately grasped. Therefore, it is possible to quickly and appropriately deal with the abnormality.

  Note that the lighting color can be set such that red> yellow> blue (green) as the abnormality rank increases, as in the case of the signal color, for example. Further, when both blinking and lighting color are used, the lighting color is prioritized, and when the lighting color is the same, it can be set that “blinking has a higher rank of abnormality”.

  (4) The invention of claim 4 includes an abnormality detection means for detecting an abnormality of the apparatus, a flow rate indicator for displaying a set flow rate of the oxygen-enriched gas supplied to the user, and / or a state of the flow of the oxygen-enriched gas. When an abnormality is detected by the abnormality detection means in an oxygen concentrator provided with a flow indicator for displaying, the flow rate indicator and / or the flow indicator is driven to perform a display operation corresponding to the abnormality. It is characterized by performing.

  In the present invention, when an abnormality occurs, the occurrence of the abnormality is displayed using a flow rate indicator or a flow indicator. When the flow rate indicator and the flow indicator are normal, their original display is performed, and when an abnormality occurs, for example, a full lighting display or a full blinking display is performed. Therefore, for example, when an abnormality is displayed by driving a flow rate indicator or a flow indicator, it can be assumed that the abnormality rank is high.

It should be noted that the abnormality display of the flow rate indicator and the flow indicator is more effective if used together with the abnormality indication by the alarm lamp described above.
(5) The invention of claim 5 is characterized in that the display state of the flow rate indicator and / or the flow indicator is changed according to the rank of the abnormality.

In the present invention, the display state of the flow rate indicator and the flow indicator is changed according to the rank of the abnormality, so that the user can quickly and accurately grasp the degree of abnormality.
(6) The invention of claim 6 performs continuous lighting display by the flow rate indicator and / or the flow indicator when the rank of the abnormality is lower, and the flow rate indicator and / or flow when the rank is higher. It is characterized by performing blinking display with a display.

  This invention illustrates the lighting state according to the rank of abnormality. In the present invention, when the abnormality rank is lower, the flow rate indicator and the flow indicator (preferably the entire indicator) are continuously lit, and when higher, the flow rate indicator and the flow indicator (preferably Since each display unit blinks), the degree of abnormality can be immediately grasped. Therefore, it is possible to quickly and appropriately deal with the abnormality.

(7) The invention of claim 7 is characterized in that the display color of the flow rate indicator and / or the flow indicator is changed according to the rank of the abnormality.
This invention illustrates the lighting state according to the rank of abnormality. In the present invention, since the display color of the flow rate indicator and the flow indicator (the lighting color when using a lamp) is changed according to the rank of the abnormality, the degree of abnormality can be immediately grasped. Therefore, it is possible to quickly and appropriately deal with the abnormality.

  As the display color, for example, as in the case of the signal color, the higher the abnormality rank is, the higher the red can be set to yellow> blue (green). Further, when both blinking and display color are used, the display color is given priority, and when the display color is the same, it can be set that “the blinking has a higher rank”.

(8) The invention of claim 8 comprises the function of the oxygen concentrator according to any of claims 1 to 3 and the function of the oxygen concentrator according to any of claims 4 to 7. It is characterized by that.
In this invention, since the function of the oxygen concentrator of each claim is provided, the effect (rapid and accurate abnormality recognition) is more remarkable.

(9) The invention of claim 9 further includes a coping method indicator for displaying a coping method for the abnormality, and the coping method indicator is displayed in characters on the coping method display.
In the present invention, for example, a coping method when an abnormality occurs is displayed using a member capable of displaying characters (particularly text) such as an external integrated time indicator. Can be obtained quickly.

(10) The invention of claim 10 is characterized in that characters indicating the coping method are scroll-displayed on the coping method display.
In the present invention, characters (especially sentences) indicating the coping method are scroll-displayed (preferably repeatedly), so that the coping method can be promptly notified to the user even when the display portion is small.

(11) The invention of claim 11 is characterized in that the coping method indicator doubles as an integrated usage time indicator indicating the integrated usage time of the oxygen concentrator.
In the present invention, when an abnormality occurs, an accumulated usage time display (for example, an external accumulated time display arranged on the operation panel) that can be immediately seen by the user is used as a countermeasure display to display the countermeasure. Therefore, the display part can be made compact.

  (12) The invention of claim 12 is a flow rate indicator for displaying a set flow rate of the oxygen-enriched gas supplied to the user, and an external integration for displaying the accumulated usage time from a predetermined use start time of the apparatus on the operation panel surface. Among the time indicator and the internal accumulated time indicator that displays the accumulated usage time from the beginning of the device inside the device, at least one kind of indicator is provided, the flow rate indicator, the external accumulated time indicator, Of the internal accumulated time display, at least one type of display is used to display the time when the abnormality occurred and / or the content of the abnormality.

  For example, during maintenance, the time of occurrence (occurrence date and time) and the content of an abnormality (for example, error code) can be displayed using the flow rate indicator, external accumulated time indicator, or internal accumulated time indicator. The past driving state can be easily grasped.

Here, the flow rate indicator is the same as that of the fourth aspect, and the countermeasure method indicator of any of the ninth to eleventh aspects can be used as the external integrated time indicator.
(13) When an abnormality is detected, the invention of claim 13 controls the operation of the equipment related to oxygen concentration of the oxygen concentrator in accordance with the content of the abnormality (for example, the rank of abnormality) (for example, an apparatus) Is stopped).

  If an abnormality occurs, if the oxygen concentration operation is continued as it is, a problem such as overheating of the compressor motor may occur. Therefore, in the present invention, when such an abnormality is detected, the operation of the equipment related to oxygen concentration is controlled according to the content of the abnormality. This improves safety.

  The equipment related to oxygen enrichment is equipment necessary for oxygen enrichment, such as a compressor that compresses air and actuators such as various control valves. It is desirable to operate the buzzer and the like as they are.

(14) The invention of claim 14 stops the operation of the compressor that compresses air for oxygen concentration when the abnormal content satisfies a predetermined device stop condition.
The present invention exemplifies the contents of control when an abnormality occurs.

  For example, in an oxygen concentrator that separates oxygen in the air and generates oxygen-enriched air, when it has a compressor that compresses air and means for detecting the rotation speed of the compressor (and hence the rotation speed of the motor), When the rotation speed of the compressor is outside a predetermined range, the abnormality is notified and control is performed to stop the compressor.

  Next, an example (example) of the best mode of the present invention will be described.

  In the present embodiment, oxygen is concentrated by adsorbing and removing nitrogen from the air using a nitrogen adsorbent (hereinafter referred to as an adsorbent), and this oxygen-enriched gas containing a high concentration of oxygen is given to the patient. An example is a pressure fluctuation adsorption type medical oxygen concentrator to be supplied (hereinafter referred to as an oxygen concentrator).

a) First, the appearance of the oxygen concentrator of this embodiment will be described.
As shown in FIG. 1, the oxygen concentrator 1 is provided with an operation panel 5 for operating the oxygen concentrator 1 and displaying its operation at the upper part of the front of a substantially rectangular parallelepiped housing 3. A humidifier 7 for humidifying the oxygen-enriched gas is disposed.

  As shown in FIG. 2, the operation panel 5 includes a power switch 11 for operating / stopping the oxygen concentrator 1, an operation lamp 13 that lights up during normal operation, and an abnormal lamp 15 that lights up / flashes when an abnormality occurs. A dial knob (flow rate setting unit) 17 for switching the set value of the flow rate of the oxygen-enriched gas supplied to the user, a flow rate indicator 19 indicating the set flow rate value, and a method for displaying the accumulated time or treating an abnormality (Countermeasures) External accumulated time indicator 21 for displaying, oxygen concentration lamp 23 for displaying the concentration state of the oxygen-enriched gas by lighting / flashing, and humidifier leak lamp for lighting and displaying the abnormality of the humidifier 7 25, a cannula fold lamp 29 that lights and displays the fold abnormality of the cannula 27 (see FIG. 3), and a flow display lamp 31 that displays the flow state of the oxygen-enriched gas. To have.

  Among these, the abnormality lamp 15 is composed of one red LED and notifies the occurrence of an abnormality of the device by lighting or blinking. The flow rate indicator 19 is composed of a plurality of green LEDs capable of displaying a three-digit number, and displays a number indicating the flow rate when it is normal, and all the LEDs for three digits blink when an abnormality occurs. The external integration time indicator 21 is composed of an LCD that can display a 5-digit number or 5 characters. When it is normal, it displays, for example, the operation time since maintenance, and when an abnormality occurs, it repeats a sentence indicating how to deal with the abnormality. Scroll display. The oxygen concentration lamp 23 includes green and red LEDs, and notifies the abnormality of the oxygen concentration by blinking green / lighting red according to the concentration state of the oxygen-enriched gas. The humidifier leak lamp 25 is composed of a yellow LED and lights up and displays an abnormality caused by the leak of the humidifier 7. The cannula folding lamp 29 is made of a yellow LED, and lights up and displays an abnormality caused by the folding of the cannula 27. The flow display lamp 29 is composed of three green LEDs respectively arranged corresponding to the three triangular display portions. During normal operation, the LEDs are sequentially turned on one by one in the right direction in the figure. Displays the flow status.

  In particular, in this embodiment, as will be described in detail later, the color of the LED to be lit and the blinking state are determined depending on the degree of abnormality (rank). Specifically, the order of urgency is set in the order of red> yellow> green. Also, even in the same color, the degree of urgency is set higher for blinking than for lighting (continuous lighting). Furthermore, the degree of urgency is set higher when not only the display of each lamp but also the entire flow rate indicator 19 blinks at the same time.

b) Next, each structure which performs basic operation | movement of the oxygen concentrator 1 of a present Example is demonstrated.
A compressor 33 that compresses raw material air and an zeolite adsorbent that preferentially adsorbs nitrogen in the air and separates oxygen from the upstream side of the air introduction path 32 of the oxygen concentrator 1 (for example, Li— A pair of adsorption cylinders (first adsorption cylinder 35, second adsorption cylinder 37) filled with X-type zeolite are provided, and between the compressor 33 and the adsorption cylinders 35, 37, the adsorption cylinders 35, 37 are provided. A pair of three-way switching valves (a first switching valve 39 and a second switching valve 41 are provided for switching between adsorption and desorption of nitrogen by repeating pressure increase / decrease. Is provided with an exhaust passage 43 for exhausting nitrogen through the three-way switching valves 39 and 41.

  Furthermore, on the downstream side of the pair of adsorption cylinders 35, 37, a first communication path 45 communicating between the adsorption cylinders 35, 37 and a pressure between the adsorption cylinders 35, 37 provided in the first communication path 45. A two-way valve (pressure equalizing valve) 47 for adjusting the pressure, a second communication passage 49 communicating between the adsorption cylinders 35, 37, an orifice 51 provided in the second communication passage 49, and a backflow of oxygen-enriched gas is prevented. A pair of check valves 53, 55, a product tank 57 for storing oxygen-enriched gas, a pressure regulator 59 for regulating the pressure of the oxygen-enriched gas, the flow rate setting unit 17, and the humidifier 7 An electromagnetic on-off valve 61 for opening and closing the gas flow path is provided, and the cannula 27 is connected downstream thereof.

  Further, an oxygen sensor 63 for detecting the oxygen concentration of the oxygen-enriched gas is disposed between the flow rate setting device 17 and the humidifier 7, and the first between the compressor 33 and the three-way switching valves 39 and 41 is arranged. A pressure sensor 65 is disposed, and a second pressure sensor 67 is disposed between the humidifier 7 and the electromagnetic on-off valve 61.

  Among them, the compressor 33 is driven by a DC brushless motor 34. The DC brushless motor 34 includes a hall sensor for detecting the rotational speed of the DC brushless motor 34 (that is, the rotational speed of the compressor 33). 36 is arranged.

  Therefore, the DC brushless motor 34 is normally controlled by the well-known inverter circuit 38 so as to have a predetermined target rotational speed based on the rotational speed detected by the Hall sensor 36. The rotational speed of the DC brushless motor 34 detected by the hall sensor 36 is input to the microcomputer 73 (see FIG. 4) via the inverter circuit 38.

c) Next, the electrical configuration of the oxygen concentrator of this embodiment will be described.
In this embodiment, as shown in FIG. 4, the oxygen concentrator 1 is equipped with an electronic control device 71 that controls the operation of the oxygen concentrator 1.

  The electronic control unit 71 includes a well-known microcomputer 73. The input unit 75 is connected to the power switch 11, the flow rate setting unit 17, and the like. A first pressure sensor 65, a second pressure sensor 67, an oxygen sensor 63, a temperature sensor 76 (mounted on a circuit board), and a hall sensor 36 are connected.

  The output unit 77 of the microcomputer 73 includes a buzzer (or speaker) 79, a flow rate indicator 19, an abnormal lamp 15, an oxygen concentration lamp 23, a humidifier leak lamp 25, and a cannula bent lamp 29 as means for notifying abnormality. It is connected. Further, the output unit 77 includes an operation lamp 13, a flow indicator 31, an external accumulated time indicator 21, an internal accumulated time indicator 81 (located on the circuit board), an inverter circuit 38, a DC brushless motor 34, and three directions. The switching valves 39 and 41, the pressure equalizing valve 47, and the electromagnetic on-off valve 61 are connected.

Note that a memory (EEPROM) 83 is connected to the microcomputer 73 in order to store the content of the abnormality that has occurred in the apparatus and the time of occurrence of the abnormality (occurrence date: date, time, etc.).
d) Next, the basic operation of the oxygen concentrator 1 of the present embodiment having the above-described configuration will be described.

In the oxygen concentrator 1 of this embodiment, basically, oxygen concentration and regeneration of the adsorbent are performed by alternately repeating pressurization and pressure reduction in the first adsorption cylinder 35 and the second adsorption cylinder 37.
For example, the compressor 33 sends compressed air to the first adsorption cylinder 35 via the first switching valve 39, and adsorbs nitrogen to the adsorbent to concentrate oxygen. When a predetermined time has elapsed, the switching direction is switched to the other second adsorption cylinder 37 by the switching valves 39 and 41, the first adsorption cylinder 35 is connected to the atmosphere side, and the adsorbed nitrogen is reduced. To be discharged.

  In addition, when switching between pressurization and decompression, the pressure equalizing valve 47 is opened for a short period of time, so that the second suction cylinder 37 that has been decompressed from the first suction cylinder 35 that has been pressurized has the normal pressure. Concentrated oxygen gas is supplied in the opposite direction to the flow. With this oxygen-enriched gas, nitrogen and moisture adsorbed by the adsorbent in the second adsorption cylinder 37 are washed away and discharged to the outside through the second switching valve 41 and the exhaust passage 43.

  In this way, only the oxygen is extracted by the adsorption cylinders 35 and 37 at the time of pressurization, and the oxygen-enriched gas is supplied to the outside (and hence the patient). By repeating this alternately for both adsorption cylinders 35 and 37, 90% or more of concentrated oxygen can be obtained continuously.

e) Next, the abnormality detection of the oxygen concentrator, which is the main part of the present embodiment, and the operation at the time of abnormality detection will be described. That is, the control process at the time of abnormality detection performed by the electronic control unit 71 will be described.

  In this embodiment, when any abnormality is detected in the apparatus by means for detecting the abnormality (each sensor or the like), the means for notifying the abnormality (each lamp or the like) is used according to the rank of the abnormality. The notification content is changed and notified to the user.

  That is, as shown in the flowchart of FIG. 5, in step 100, it is determined whether an abnormality has occurred in the apparatus based on the signal from each sensor. If an affirmative determination is made here, the process proceeds to step 110, while if a negative determination is made, the process waits.

  In step 110, contents for notifying abnormality are selected according to the abnormality contents. That is, since the lighting state of the lamp and the display content are changed according to the case where the abnormality rank is high or the abnormality rank is low, the display method corresponding to the abnormality content is determined here. Note that data for performing this processing is stored in the memory 83.

In the following step 120, the means for notifying the corresponding abnormality (such as each lamp) is driven according to the content of the abnormality to notify the user of the abnormality.
In the subsequent step 130, the external integrated time display 21 is driven to perform a process of displaying a countermeasure for the abnormality, and the process is temporarily terminated.

Hereinafter, the contents of abnormality detection and abnormality notification will be specifically described with reference to FIG.
(1) <Folding cannula>
If the detection value of the second pressure sensor 67 is equal to or greater than the predetermined threshold S1, it is determined that the cannula 27 has been broken. Then, the yellow cannula folding lamp 29 is turned on, and the display content of the external integrated time indicator 21 is switched to the display of the coping method. That is, using the external integrated time display 21, the content “please confirm that the tube is bent” is scroll-displayed. In this case, the operation of the apparatus is continued, and the error code E1 indicating the content of the abnormality and the occurrence date and time are stored in the memory 83.

(2) <Low pressure alarm>
When the detection value of the first pressure sensor 65 is equal to or less than the predetermined threshold value S2, it is determined that the pressure of the air pressurized by the compressor 33 has decreased excessively. Then, the red abnormality lamp 15 blinks, and all the display parts of the flow rate indicator 19 also blink, and the display content of the external integrated time indicator 21 is switched to the display of the countermeasure. That is, the external accumulated time display 21 is used to scroll and display the content “Please switch to oxygen cylinder and contact emergency contact”. In this case, the operation of the apparatus is continued, and the error code E2 indicating the content of the abnormality and the occurrence date and time are stored in the memory 83.

(3) <Overpressure alarm>
When the detected value of the first pressure sensor 65 is equal to or greater than the predetermined threshold S3, it is determined that the pressure of the air pressurized by the compressor 33 has increased excessively. Then, the red abnormality lamp 15 blinks, the flow rate indicator 19 also blinks, and the display content of the external integrated time indicator 21 is switched to the display of the countermeasure. That is, the external accumulated time display 21 is used to scroll and display the content “Please switch to oxygen cylinder and contact emergency contact”. In this case, the operation of the apparatus is stopped, and the error code E3 indicating the content of the abnormality and the occurrence date and time are stored in the memory 83.

Here, the stop of the operation of the apparatus is a stop of the operation of the actuator for performing oxygen concentration, such as the stop of the DC brushless motor 34 and each of the electromagnetic valves 39, 41, 47, 61. It should be noted that it is desirable to operate the lamp or the like for notifying the abnormality as it is. (The same applies hereinafter)
(4) <Humidifier leak warning>
For example, even when the switch (not shown) that is turned on when the humidifier 7 is attached is turned on and the electromagnetic on-off valve 61 is turned on (closed) at the time of starting the device or the like, the second When the detected value of the pressure sensor 65 is equal to or less than the predetermined threshold value S4, it is determined that a leakage abnormality has occurred in the humidifier 7. Then, the yellow humidifier leakage lamp 15 is turned on, and the display content of the external integrated time display 21 is switched to the display of the countermeasure. That is, the external accumulated time display 21 is used to scroll and display the content “Please close the humidifier lid firmly”. In this case, the operation of the apparatus is continued, and the error code E4 indicating the abnormal content and the occurrence date and time are stored in the memory 83.

(5) <Oxygen concentration reduction>
If the oxygen sensor 63 determines that the oxygen concentration is equal to or lower than a predetermined threshold value (indicating less than 82%) S5, it is determined that an abnormality has occurred in which the oxygen concentration has significantly decreased. Then, the green oxygen concentration lamp 23 blinks, and the display content of the external integrated time indicator 21 is switched to the display of the coping method. That is, the external accumulated time display 21 is used to scroll and display the content “Please contact the emergency contact while continuing use”. In this case, the operation of the apparatus is continued, but the error code indicating the abnormal content is not stored.

(6) <Oxygen concentration reduction>
When the oxygen sensor 63 determines that the oxygen concentration is equal to or less than a predetermined threshold value (indicating 75% or less) S6, it is determined that an abnormality in which the oxygen concentration greatly decreases has occurred. Then, the red oxygen concentration lamp 23 is turned on, and the display content of the external integrated time indicator 21 is switched to the display of the coping method. That is, the external accumulated time display 21 is used to scroll and display the content “Please switch to oxygen cylinder and contact emergency contact”. In this case, the operation of the apparatus is continued, and the error code E5 indicating the abnormal content and the occurrence date and time are stored in the memory 83.

(7) <Power failure>
When a power supply abnormality is detected, the red abnormality lamp 15 is turned on, and the display content of the external integrated time indicator 21 is switched to the display of the countermeasure. In other words, the contents of “Please check the outlet or breaker” are scroll-displayed using the external integrated time display 21. In this case, the operation of the apparatus is stopped, but an error code indicating the abnormal content is not stored.

(8) <Temperature rise>
If the temperature sensor 76 determines that the temperature is equal to or higher than the predetermined threshold value S7, it is determined that an abnormality in which the temperature rises excessively has occurred. Then, the red abnormality lamp 15 blinks, and all the display parts of the flow rate indicator 19 also blink, and the display content of the external integrated time indicator 21 is switched to the display of the countermeasure. That is, the external accumulated time display 21 is used to scroll and display the content “Please switch to oxygen cylinder and contact emergency contact”. In this case, the operation of the apparatus is stopped, and the error code E6 indicating the abnormal content and the occurrence date and time are stored in the memory 83.

(9) <Rotational speed abnormality>
When the rotational speed of the DC brushless motor 34 deviates from a predetermined safe rotational speed range by the hall sensor 36, it is determined that an abnormality has occurred in the DC brushless motor 34. Then, the red abnormality lamp 15 blinks and the flow rate indicator 19 is also turned on, and the display content of the external integrated time indicator 21 is switched to the display of the countermeasure. That is, the external accumulated time display 21 is used to scroll and display the content “Please switch to oxygen cylinder and contact emergency contact”. Further, the operation of the apparatus is stopped, and the error code E7 indicating the abnormal content and the occurrence date and time are stored in the memory 83.

f) Next, effects of the present embodiment having the above-described configuration will be described.
When an abnormality is detected, the oxygen concentrator 1 of the present embodiment changes the lamp for notifying the abnormality, the lighting method, and the like according to the rank (emergency level) and contents of the abnormality. Can quickly grasp the degree of abnormality and its contents. Therefore, the user can deal with the abnormality with a margin.

In addition, when an abnormality occurs, the countermeasure method is displayed on the external integrated time indicator 21, so that what the user can deal with can be promptly dealt with, and there is no fear that the countermeasure will be delayed.
Further, in this embodiment, for example, by operating a switch (not shown) provided on the circuit board, a 3-digit flow rate indicator 19, a 5-digit external integrated time indicator 21, and a 6-digit internal integrated time display. Using the device 81, it is possible to display the date and time of occurrence of an abnormality and an error code (display of an abnormality record).

  For example, if an E4 abnormality occurs at 15:30 on July 29, 2004, the flow rate indicator 19 is “200”, the external accumulated time indicator 21 is “40729”, and the internal accumulated time indicator 81 is “ 1530E4 "is displayed.

  Further, when the rotational speed of the DC brushless motor 34 of the compressor 33 is abnormal, the operation of the oxygen concentrator 1 is stopped, for example, the DC brushless motor 34 and the electromagnetic valves 39, 41, 47, 61 are stopped. Therefore, it is possible to prevent problems such as overheating of the DC brushless motor 34 and improve safety.

In addition, this invention is not limited to the said Example at all, and it cannot be overemphasized that it can implement with a various aspect in the range which does not deviate from the summary of this invention.
(1) If an abnormality occurs, for example, all three LEDs of the flow indicator may blink instead of (or simultaneously with) the flow rate indicator.

  (2) When displaying a record of an abnormality, the date and time of occurrence of an abnormality or an error code may be displayed using only one or two of a flow rate indicator, an external integration time indicator, and an internal integration time indicator. it can. At this time, if the number of digits of each display is insufficient, the display contents can be switched or displayed by scrolling.

  (3) In addition to the lamp, when notifying the abnormality using a flow rate indicator or a flow indicator, those light emitting elements (LEDs, etc.) can be fully lit or flashed, but LEDs of different colors, etc. May be used for notification by changing the display color.

  (4) When the abnormality is notified by light such as a lamp, the abnormality may be notified by sound using a buzzer or a speaker. At this time, it is desirable to change the sound depending on the rank of the abnormality. For example, it is possible to change the frequency of the sound and the pattern that rings.

  (5) In addition to the DC brushless motor, an AC motor can be used. Also in this case, when the rotational speed of the AC motor is controlled, if the rotational speed is abnormal, it is possible to perform control such as notification of abnormality or stop of the apparatus.

  (6) As means for detecting the rotational speed of the motor, a well-known, for example, pickup type sensor can be used in addition to the hall sensor.

It is explanatory drawing which shows the external appearance of the oxygen concentrator of an Example. It is explanatory drawing which shows the operation panel of the oxygen concentrator of an Example. It is explanatory drawing which shows the basic composition of the oxygen concentrator of an Example. It is explanatory drawing which shows the electrical structure of the electronic controller of the oxygen concentrator of an Example. It is a flowchart which shows the process performed with the electronic control apparatus of an Example. It is explanatory drawing which shows the abnormality display of an Example, the countermeasure method of abnormality, etc.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Oxygen concentrator 5 ... Operation panel 15 ... Abnormal lamp 17 ... Flow rate setting device 19 ... Flow rate indicator 21 ... External integration time indicator 23 ... Oxygen concentration lamp 25 ... Humidifier leak lamp 29 ... Cannula broken lamp 31 ... Flow display vessel

Claims (14)

In the oxygen concentrator provided with an abnormality detecting means for detecting an abnormality of the apparatus,
When an abnormality is detected by the abnormality detection means, an alarm lamp corresponding to the content of the abnormality is driven and displayed, and the lighting state of the alarm lamp is changed according to the rank of the abnormality. A featured oxygen concentrator.   2. The oxygen concentrator according to claim 1, wherein the alarm lamp is continuously lit when the abnormality rank is lower and the alarm lamp blinks when the rank is higher.   The oxygen concentrator according to claim 1 or 2, wherein a lighting color of the alarm lamp is changed according to the rank of the abnormality. An abnormality detection means for detecting an abnormality of the device;
A flow rate indicator for displaying a set flow rate of the oxygen-enriched gas supplied to the user and / or a flow indicator for displaying the flow state of the oxygen-enriched gas;
In an oxygen concentrator with
An oxygen concentrator, wherein when an abnormality is detected by the abnormality detection means, the flow rate indicator and / or the flow indicator is driven to perform a display operation corresponding to the abnormality.   The oxygen concentrator according to claim 4, wherein a display state of the flow rate indicator and / or the flow indicator is changed according to the rank of the abnormality.   When the abnormality rank is lower, continuous lighting display is performed by the flow rate indicator and / or flow indicator, and when it is higher, blinking display is performed by the flow rate indicator and / or flow indicator. The oxygen concentrator according to claim 5.   The oxygen concentrator according to claim 5 or 6, wherein a display color of the flow rate indicator and / or the flow indicator is changed according to the rank of the abnormality.   An oxygen concentrator comprising the function of the oxygen concentrator according to any one of claims 1 to 3 and the function of the oxygen concentrator according to any one of claims 4 to 7.   The oxygen enrichment according to any one of claims 1 to 8, further comprising a coping method display for displaying a coping method for the abnormality, wherein the coping method is displayed in characters on the coping method display. vessel.   The oxygen concentrator according to claim 9, wherein characters indicating the coping method are scroll-displayed on the coping method display.   11. The oxygen concentrator according to claim 9, wherein the coping method indicator also serves as an accumulated usage time indicator that indicates an accumulated usage time of the oxygen concentrator. A flow rate indicator that displays the set flow rate of the oxygen-enriched gas supplied to the user;
An external integrated time indicator that displays on the operation panel surface the accumulated usage time from a predetermined use start time of the device;
It has at least one indicator among the internal accumulated time indicator that displays the accumulated usage time from the beginning of the device inside the device,
Using at least one of the flow rate indicator, the external cumulative time indicator, and the internal cumulative time indicator to display the time when the abnormality occurred and / or the content of the abnormality. The oxygen concentrator according to any one of claims 1 to 11.   The operation according to any one of claims 1 to 12, wherein when the abnormality is detected, operation of an apparatus related to oxygen concentration of the oxygen concentrator is controlled according to the content of the abnormality. Oxygen concentrator.   The oxygen concentrator according to claim 13, wherein when the abnormal content satisfies a predetermined apparatus stop condition, an operation of a compressor that compresses air for the oxygen concentration is stopped.

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