JP3266943B2 - Medical oxygen supply device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for supplying an appropriate amount of oxygen to a patient in need of oxygen inhalation.

[0002]

2. Description of the Related Art As a therapy for patients with respiratory diseases, oxygen therapy for supplying oxygen from an oxygen cylinder or an oxygen concentrator is performed, and this is particularly useful for rehabilitation of patients with chronic respiratory failure. In recent years, oxygen therapy has been performed more often at home than in hospitals, so-called home oxygen therapy.

[0003] In home oxygen therapy, a patient sets the flow rate of an oxygen supply device installed at home according to the oxygen flow rate determined by a doctor, and performs oxygen inhalation. However, especially for patients who have reintegrated into society, they often interrupt oxygen inhalation and leave the site because of toilets or light work.After that, when oxygen inhalation is resumed, a large amount of oxygen is needed temporarily. I do. However, in the conventional oxygen supply device, the flow rate is set according to a predetermined prescription, and oxygen is sent, so that the patient often feels dyspnea for a while.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and is intended to temporarily stop oxygen resumption after a patient temporarily stops oxygen respiration. An object of the present invention is to provide an oxygen supply device that increases the supply amount of oxygen and does not cause a patient to feel dyspnea.

[0005]

That is, the present invention relates to an oxygen supply apparatus which basically comprises an oxygen supply source, a flow rate control device, and a control device. It has a flow rate setting unit and a timer, and is started by turning on a power switch, and / or
When the switch is pressed during use at a steady flow rate, the high flow rate setting section operates to supply a high flow rate of oxygen,
When the time set in the timer elapses, the operation is switched to the steady flow rate setting unit to change the oxygen flow rate to the steady flow rate. More preferably, the power switch and the changeover switch are connected to a remote controller (control unit). A signal transmitting device) and a control signal receiving unit provided in the control device.

Hereinafter, the present invention will be described in detail based on embodiments with reference to the drawings, but the present invention is not limited to these embodiments.

[0007]

Embodiment 1 FIG. 1 is a block diagram showing an application example of the present invention when an oxygen cylinder is used as an oxygen supply source.
The oxygen gas discharged from the oxygen cylinder (18) is supplied to the pressure reducing valve (1).
9), it enters the flow control device (17), and is supplied to the patient at a constant flow rate according to the conditions set according to the doctor's prescription. A control device for regulating the supply of oxygen (1
6) In addition to the control unit (10), the steady flow rate setting unit (1)
1), a high flow rate setting unit (12), a timer (15), etc., and a remote controller (1
When 3) is used, a receiving unit (14) for receiving the control signal is included.

[0008] The steady flow rate setting section (11) sets the oxygen flow rate that the patient should normally inhale by using a volume, a digital switch, or the like. Similarly, the high flow rate setting section (12) sets the oxygen flow rate when a large amount of oxygen is needed temporarily. In this embodiment, the setting units are separately set. However, it is needless to say that the steady flow rate and the high flow rate may be sequentially set and stored using, for example, one volume.

The timer (15) is used to set the time during which a high flow rate of oxygen is to be supplied. For example, a timer using a natural frequency of a crystal oscillator, a timer using mechanical means such as a mainspring, and an AC Or a method using a cycle in which an electric signal circulates in an IC circuit can be used, but is not particularly limited.

[0010] The flow control device (17) includes a control unit (10).
The control unit controls the oxygen flow rate by receiving signals from the steady flow rate setting unit (11), the high flow rate setting unit (12), the receiving unit (14), or the timer (15). The receiving unit (14) receiving the signal from the remote controller (13) or the like transmits a control signal for starting a high flow rate to the flow rate adjusting device (17), and also sends a start signal to the timer (15). And the flow control device (17)
The flow is started at the flow rate set in the high flow rate setting section (12) or is changed from the steady flow rate up to that time to a high flow rate. The flow rate can be changed by using a valve (31) as shown in FIG.
Is performed by changing the opening / closing degree by a valve adjusting mechanism (33) using a stepping motor or the like.
In addition, although the method described in the second embodiment can be applied,
There is no particular limitation.

When the time required to supply oxygen at a high flow rate set by the timer (15) elapses, the flow rate adjusting device (17) adjusts the oxygen flow rate by the steady flow rate setting section (11) according to a signal from the timer (15). Change to the set value. In this embodiment, the control unit (32) that has received the signal from the timer (15) operates the valve adjustment mechanism (33) to return the valve to the position of the steady flow rate.

The oxygen from the oxygen cylinder (18) is reduced in pressure to about 0.3 kg / cm ² by a pressure reducing valve (19), and then supplied to a flow rate adjusting device (17) to control the oxygen at a controlled flow rate. Provided to the patient.

[0013]

Embodiment 2 In this embodiment, an oxygen concentrator is used as an oxygen supply source, and FIG. 2 is a schematic diagram showing the structure of the apparatus. This device converts nitrogen gas in the air into a nitrogen adsorption tower (21).
The oxygen gas adsorbed and discharged by the oxygen reservoir is stored in a tank (22) and used as an oxygen supply source instead of the oxygen cylinder (18) of the first embodiment, and is generally referred to as an adsorption-type oxygen concentrator. is there. In addition to the above, there is an oxygen concentrator using an oxygen-enriched system by membrane separation, but it is not particularly limited.

In this embodiment, a power switch (26) is provided on the operation panel of the apparatus main body, and a power switch (27) is also provided on the remote controller (13) so that power can be turned on / off by both. I made it. The remote controller (13) and the receiving unit (14)
The remote controller (13) has a configuration as shown in FIGS.
As a signal of a certain frequency, in addition to the high flow rate start signal by the changeover switch (28), the power of the apparatus itself is turned on / off.
The OFF signal can also oscillate.

Digital switches are used for the steady flow rate setting section (11) and the high flow rate setting section (12), and the timer (15) is provided with an IC on a control board of the control section (10). The duration of the high flow rate, that is, the time during which the high flow state was maintained after the power switch (26, 27) or the changeover switch (28) was pressed was set to 3 minutes. This time can be changed by a trimmer on the substrate.

The flow rate adjusting mechanism (25) includes a plurality of orifices each having a different cross-sectional area and a flow rate setting section (11,
The method was selected in a stepwise manner according to 12). Also,
The control unit (10) controls the oxygen flow rate and controls the adsorption and desorption of nitrogen gas for generating oxygen.

As described above, the remote controller (13) used in the present invention is a transmitter having a configuration as shown in FIG. 4, and includes an oscillation element (41) composed of a ceramic element and an oscillation circuit. At (42), a signal of the fundamental frequency is oscillated. The frequency dividing circuit (43) is a circuit for dividing the basic frequency to a frequency suitable for remote control control, and the frequency-divided signal is supplied to the modulating unit (44).

On the other hand, the pulse generator (45) supplies a pulse signal to the modulator (44) in accordance with the operation of the switch (46). In the modulating section (44), a signal for remote control control and ON / O of a remote control switch are provided.
A pulse signal, which is an FF signal, is synthesized and supplied to a light emitting diode (47) capable of mainly generating infrared rays, thereby generating a remote control operation signal (48).

FIG. 5 is a block diagram showing the configuration of the receiving section (14) of the present embodiment. Phototransistor (5
1) is an operation signal (48) from the remote controller
Is supplied to the amplifier (52), and the signal is amplified to a desired signal, and then supplied to the demodulation circuit (53).

The demodulation circuit (53) includes a resonance circuit (5) including a capacitor and a resistor that resonate with the output frequency of the frequency divider (43) of the remote controller (13).
4), the operation signal (48) of the remote controller can be selectively received. Then, a signal corresponding to the remote control switch (46) is demodulated, a relay (55) is driven, and a control signal (56) for controlling the oxygen supply device is generated,
The flow controller (17) and the timer (15) are controlled.

The remote controller (13) controls ON / OFF of the apparatus itself, setting of a steady flow rate, setting of a high flow rate, and setting of a timer, in addition to the flow rate adjustment, corresponding to the frequency divided by the frequency dividing circuit. It is also possible to transmit signals of a plurality of control items.

When a remote controller is used, the remote controller (13) intentionally interferes with a remote control signal such as noise from the surrounding environment.
If the device is stopped without operating the device, there is a fatal danger to the patient.

If the apparatus is stopped due to a power failure or disconnection of the power cord during operation of the oxygen concentrator, an alarm is generated by a buzzer sound, lamp display, or the like, and an appropriate operation such as switching to an oxygen cylinder is performed. Measures can be taken, and the device of the present embodiment is also configured in this manner. However, when the device is stopped due to the above-described interference or the like, it is extremely difficult to generate an alarm. Therefore, it is necessary to take the following measures to prevent a malfunction due to the interference to the remote control circuit. preferable.

[1] Each time the switch (27, 28) of the remote controller (13) is operated once, the operation signal (28) is transmitted two or more times within a fixed time (for example, one second). The transmitter (14) is also provided with a condition circuit that responds only to a signal corresponding to the number of times of the operation signal (28) within the above-mentioned fixed time. [2] A special identification code signal (for example, 10110) is added to the operation signal (28), and the receiving unit (14) is also provided with a condition circuit that reacts only to the signal to which the identification code signal is added. [3] Standards of signals used for infrared remote control for general home appliances are being standardized (for example, each member of the Home Appliances Association). It is intentionally different from the standard. [4] Take measures against the combination of the above [1] to [3].

In the embodiment of the present invention, an electromagnetic wave such as an infrared ray is used as a means for transmitting the operation signal of the remote control. However, means other than this embodiment may be used. For example, a radio wave having a frequency of 1.5 to 2500 MHz can be used. When using this radio wave, the frequency is 1.
It is preferable that the frequency is 5 MHz or more and 2500 MHz or less. If the frequency is lower than the lower limit frequency, mutual interference with radio broadcasting or the like may occur.
An antenna of a special shape for transmitting and receiving radio waves is required, which is not preferable.

As described above, when a radio wave is used as a means for transmitting the operation signal, it is preferable that the radio wave is a remarkably weak radio wave specified in Article 4, Paragraph 1 of the Radio Law, and this rule is satisfied. Even a very weak radio wave does not hinder the effect of the present invention.

Also, a sound wave can be used instead of the radio wave. The frequency of the sound wave in this case is
It is preferable to use an ultrasonic wave of 16 KHz or more and less than 250 KHz because it is noisy when distinguished from ambient noise or when it is heard by human ears. And this frequency is 250
If the frequency is higher than KHz, attenuation due to propagation in the atmosphere increases, and an element for transmitting and receiving the ultrasonic waves has a special shape, which is not preferable.

[0028]

According to the oxygen supply apparatus of the present invention, when the oxygen inhalation is temporarily interrupted for a toilet or light work, the oxygen inhalation is resumed, or when some work is performed during the oxygen inhalation, etc. When a large amount of oxygen is required, more oxygen is supplied than during the steady state for a period of time that requires a large amount of oxygen (appropriate time). It does not make you feel difficult,
Since the oxygen flow is always given according to the doctor's prescription, there is no burden or trouble on the patient, and favorable results can be obtained in treatment.

Further, in the case where the remote control device is incorporated in the device, the patient does not need to touch the device when operating the switch of the oxygen supply device, so the oxygen supply device may be installed in the corner of the room. This increases the degree of freedom of the installation location, and is preferable in terms of electric wiring and noise reduction.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an oxygen supply device according to one embodiment of the present invention.

FIG. 2 is a schematic diagram illustrating a configuration of an oxygen supply device according to another embodiment of the present invention.

FIG. 3 is a block diagram showing an example of a flow control device according to the present invention.

FIG. 4 is a block diagram showing a configuration of a remote controller (control signal transmitting device) used in the present invention.

FIG. 5 is a block diagram illustrating a configuration of a receiving unit that receives an operation signal of a remote controller used in the present invention.

[Explanation of symbols]

 10, 32 control section 11 steady flow rate setting section 12 high flow rate setting section 13 remote controller 14 receiving section 15 timer 17 flow rate control device 25 flow rate control mechanism 26, 27 power switch 28 changeover switch 33 valve control mechanism 41 oscillating element 42 oscillation circuit 43 Frequency divider 44 Modulator 45 Pulse generator 46 Switch 47 Light emitting diode 48 Operation signal 51 Phototransistor 52 Amplifier 53 Demodulation circuit 54 Resonant circuit 55 Relay 56 Control signal

──────────────────────────────────────────────────続 き Continuation of the front page (56) References Patent 2608958 (JP, B2) Patent 3183527 (JP, B2) JP 2-12114 (JP, B2) JP 5-65200 (JP, B2) JP 62-37996 (JP, B2) JP-B 62-54023 (JP, B2) (58) Fields investigated (Int. Cl. ⁷ , DB name) A61M 16/00-16/10

Claims (2)

(57) [Claims] 1. An oxygen supply device basically comprising an oxygen supply source, a flow control device, and a control device, wherein the control device has a steady flow rate setting section, a high flow rate setting section, and a timer in addition to a control section. When the power switch is turned on and started, and / or when the changeover switch is pressed during use at a steady flow rate, the high flow rate setting section operates to supply a high flow rate of oxygen, and then the timer is set in advance. When the elapsed time has elapsed, the steady flow rate setting section automatically operates,
A medical oxygen supply device wherein the oxygen flow rate is changed to a steady flow rate. 2. The medical device according to claim 1, wherein the power switch and the changeover switch include a remote controller (control signal transmitting device) and a control signal receiving unit provided in the control device. Oxygen supply device.