KR20230145673A - Sterilizing Apparatus for Positive Airway Pressure Device Using Ozone Water - Google Patents

Abstract

The present invention relates to a CPAP sterilization device using ozonated water that can be used to disinfect a CPAP tube (T), mask (M), or humidifier water tank (R), and includes a disinfection tank for accommodating ozonated water and disinfection objects immersed in it. (100); a waste ozone water drain 121 for discharging waste ozone water to the outside of the disinfection tank 100 after disinfection of the object to be disinfected is completed; An ozone water drain 160 provided in the disinfection tank 100 to drain ozone water from the disinfection tank to the outside of the disinfection tank 100; An ozonated water supply port (150) for supplying ozonated water into the disinfection tank (100); And an ozonated water generator 300 for increasing the ozone dissolved concentration of the ozonated water flowing out through the ozonated water drain 160 and supplying it back to the ozonated water supply unit 150, wherein one end of the tube T among the objects to be disinfected is It is fixed to the ozonated water supply port 150, and the ozonated water supplied through the ozonated water supply port 150 passes through the tube T and the mask M connected to the other end of the tube T to the disinfection tank 100. It is characterized by flowing into.

Description

{Sterilizing Apparatus for Positive Airway Pressure Device Using Ozone Water}

The present invention relates to a positive pressure device disinfection device, and more specifically, to a positive pressure device disinfection device that can simultaneously disinfect the inner and outer peripheral surfaces of the mask, tube, or humidifier water tank of the positive pressure device using ozonated water.

Sleep apnea is a sleep disorder in which the airway narrows during sleep, resulting in poor oxygen supply. Respiratory pauses can last for seconds or minutes and often result in significant sleep disruption, which can lead to problems such as fatigue and cognitive impairment. Positive airway pressure (CPAP, APAP, BiLevel) is a device to help sleep apnea patients breathe. It supplies air at a certain pressure through a mask worn by the patient, and is equipped with a humidifier to keep the airway open. do.

Positive airway pressure treatment is a very effective means of treating sleep apnea, but the masks, tubes, and water tanks for humidifiers worn by patients are exposed not only to the user's droplets but also to high humidity, so they are placed in an environment where bacterial or mold growth is easy. do. In recent years, the demand for home positive airway pressure devices has been increasing, but if hygienic management of these devices is not done properly, the use of positive airway pressure devices can actually cause respiratory diseases. In order to hygienically manage the CPAP machine, a technology has been proposed to disinfect the inside of the mask and tube of the CPAP machine using ozone, which is known to have a sterilizing effect (see Figure 1). However, ozone itself is a gas that can have a negative impact on the user's health if leaked indoors, and the disinfection effect was not very high. Furthermore, only the inner surface of the mask and tube can be disinfected, but the outer surface of the mask and tube and the humidifier water tank cannot be disinfected, so these must be disinfected separately.

Registered Patent Publication No. 10-1183059 (Announcement Date: 2012.09.20.) Registered Patent Publication No. 10-1849436 (Announcement date: 2018.04.16.) Public Patent Publication No. 10-2017-0035534 (Publication date: 2017.03.13.)

The present invention is intended to solve the problems of the prior art described above, and not only improves the disinfection effect by using ozonated water rather than gaseous ozone, but also disinfects the inner and outer peripheral surfaces of the mask and tube, and the inner and outer peripheral surfaces of the humidifier water tank at the same time. The purpose is to provide a CPAP disinfection device that can

The present invention relates to a CPAP sterilization device using ozonated water that can be used to disinfect a CPAP tube (T), mask (M), or humidifier water tank (R), and includes a disinfection tank for accommodating ozonated water and disinfection objects immersed in it. (100); a waste ozone water drain 121 for discharging waste ozone water to the outside of the disinfection tank 100 after disinfection of the object to be disinfected is completed; An ozone water drain 160 provided in the disinfection tank 100 to drain ozone water from the disinfection tank to the outside of the disinfection tank 100; An ozonated water supply port (150) for supplying ozonated water into the disinfection tank (100); And an ozonated water generator 300 for increasing the ozone dissolved concentration of the ozonated water flowing out through the ozonated water drain 160 and supplying it back to the ozonated water supply unit 150, wherein one end of the tube T among the objects to be disinfected is It is fixed to the ozonated water supply port 150, and the ozonated water supplied through the ozonated water supply port 150 passes through the tube T and the mask M connected to the other end of the tube T to the disinfection tank 100. It is characterized by flowing into.

The positive airway pressure sterilization device using ozonated water according to the present invention further includes a hot air generator 400 for generating hot air for drying, wherein the hot air generator 400 includes the ozone generator 300 and the ozone supply port ( 150) is connected by a first switching valve 500 on the movement path of ozonated water, and after discharging all of the ozonated water in the disinfection tank 100 through the waste ozone water drain 121, the hot air generator ( The first switching valve 500 is driven so that drying hot air generated in 400 can flow into the disinfection tank 100 through the ozone water supply port 150.

In addition, the ozone water generator 300 generates ozone by introducing oxygen, but the ozone that is not dissolved in the ozone water in the disinfection tank 100 and is in a gaseous state passes through the gas flow pipe 180 to the ozone water generator ( It is characterized in that it is supplied to the oxygen inlet of 300).

Furthermore, the ozone water supply port 150 includes an insertion tube 153 protruding from the inner peripheral surface of the disinfection tank 100 and a vibrator provided in a predetermined portion of the insertion tube 153, and the insertion tube 153 is It is inserted into one side of the tube (T) to supply ozonated water to the inside of the tube (T), and the vibrator generates vibration in the ozonated water to remove contaminants attached to the inner peripheral surface of the tube (T). do.

The ozonated water supply port 150 includes elastic packing 152, and when one side of the tube T is fixed to the ozonated water supply port 150, the elastic packing 152 is connected to the insertion tube 153. Due to being inserted between the inner peripheral surfaces of the tube (T), the tube (T) is fixed to the ozonated water supply port (150), and at the same time, all ozonated water supplied through the ozonated water supply port (150) is stored in the tube (T). ) is characterized by flowing through.

Lastly, the ozonated water generator 300 includes an ozone generator 320 that generates ozone by introducing oxygen; and an ozone water generating tank 330 for mixing the ozone generated from the ozone generator 400 with the ozonated water discharged through the ozone water drain 160. In the positive pressure device disinfection process, the ozone generated from the ozone generator 400 is It is supplied to the ozone water generation tank 330, and if the positive pressure device is not sterilized, the ozone generated by the ozone generator 400 may be supplied to the ozone discharge fan 340 for discharging ozone to the outside.

The positive pressure disinfection device according to the present invention can increase the disinfection effect by simultaneously disinfecting the inner and outer surfaces of the mask, tube, and humidifier water tank using ozonated water. Furthermore, the diaphragm vibrates not only outside the mask, tube, and humidifier, but also inside the ozone water, effectively removing foreign substances attached to the surface.

Figure 1 shows a positive pressure disinfection device according to the prior art.
Figures 2 and 3 show the overall configuration of the positive airway pressure disinfection device according to the first embodiment of the present invention.
Figures 4 and 5 show the overall configuration of a positive airway pressure disinfection device according to a second embodiment of the present invention.
Figures 6 and 7 show a state in which disinfection objects (masks, tubes, water bottles for humidifiers) are immersed in ozone water in a disinfection tank.
Figure 8 shows a state in which a tube, which is a disinfection object, is mounted on an ozone water supply port.
Figure 9 shows a state in which the humidifier water tank, which is an object to be disinfected, is mounted on the ozone water supply port.
Figure 10 shows an example in which a binding port is formed at the ozone water supply port.
Figure 11 shows a state in which a humidifier water tank is mounted on an ozone water supply port where a binding port is formed.
Figure 12 shows a mask fixing unit and a mask mounted thereon.

Below, the overall configuration of the positive pressure disinfection device using ozonated water according to the present invention will be described with reference to the drawings. The specific structural or functional descriptions presented in the embodiments of the present invention are merely illustrative for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms. In addition, it should not be construed as being limited to the embodiments described in this specification, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Figure 2 shows the overall configuration of the positive pressure disinfection device according to the first embodiment of the present invention. The disinfection tank 100 is a water tank-shaped structure capable of storing ozonated water (W), and the disinfection objects, such as a mask (M), a tube (T), and a humidifier water tank (R), are immersed in the ozonated water (W). A waste ozone water drain 121 is formed at the bottom of the disinfection tank 100, so that the waste ozone water filled in the disinfection tank 100 can be drained into the waste ozone water tank 120 after disinfection is completed. And in order to effectively remove foreign substances attached to the outer surface of the object to be disinfected, a first vibrator may be formed on the inner peripheral surface of the disinfection tank 100. The first oscillator is an ultrasonic oscillator, also called a transducer, that vibrates ozone water so that contaminants attached to the outer circumference of the object to be disinfected can easily come off.

On one side of the disinfection tank 100, there is an ozonated water drain 160 for discharging ozonated water with a low concentration of ozone from the disinfecting tank 100 and for supplying ozonated water containing a high concentration of ozone into the disinfecting tank 100. An ozonated water supply port 150 is provided for this purpose. The ozonated water flowing into the ozonated water drain 160 increases the dissolved concentration of ozone in the ozonated water generator 300 and then flows back into the disinfection tank 100 through the ozonated water supply port 150. The ozonated water generating unit 300 may use a conventionally disclosed ozonated water generating means. Figure 3 is an example of an ozone water generating device used in the related art. Oxygen (O ₂ ) introduced through the oxygen inlet 312 is converted into ozone (O ₃ ) by the UV lamp 311. The prior art in Figure 3 suggests a configuration that increases the effect of ozonated water by simultaneously using UV-C (wavelength 200-280 nm) and VUV (100-200 nm) lamps. Ozonated water with a reduced dissolved concentration of ozone (ozonated water flowing in through the ozonated water drain) flows into one side of the transparent tube 313, and ozonated water with high concentration flows out to the other side of the transparent tube 313. Ozone flows into the transparent tube 313 through the venturi injector 314 formed on one side and is mixed with the ozonated water. And the UV lamp 311 used to generate ozone is again radiated to the ozonated water in the transparent tube 313 to activate the ozone and sterilize the ozonated water.

Referring again to FIG. 2, between the ozonated water drain 160 and the ozonated water generating unit 300, there is a pump 210 for flowing the ozonated water (W) to the ozonated water generating unit 300, as well as foreign substances in the ozonated water (W). A filter 220 may be provided to filter out.

Additionally, a first switching valve 500 may be provided between the ozonated water generating unit 300 and the ozonated water supply port 150. The inlet side of the first switching valve 500 may be connected to the ozonated water generator 300 and the hot air generator 400, respectively, and the outlet side may be connected to the ozonated water supply port 150. Therefore, depending on the operation of the first switching valve 500, ozonated water supplied from the ozonated water generator 300 may be supplied to the ozonated water supply port 150, and hot air generated from the hot air generator 400 may be supplied.

For reference, water in which ozone is dissolved is generally called 'ozone water', and ozone water is known to have higher sterilization and odor removal effects than gaseous ozone. When ozone is dissolved in water, OH radicals are formed, which are highly chemically active and are known to cause chemical reactions and oxidize bacteria, viruses, fungi, and various harmful gases that generate bad odors in the air or water. The decomposition rate of ozone is greatly affected by pH because it has the ability to self-decompose by OH radicals. In other words, ozone remains stable in acidic conditions, but the rate of decomposition increases as it becomes more alkaline. Ozone begins to decompose by the initially formed OH radical, and OH radicals are generated through the intermediate path of hydroperoxy radical (HO ₂ ^- ), superoxide radical (O ₂ ^- ), and ozonide radical (O ₃ ^- ). I do it.

The ozonated water whose dissolved concentration of ozone has been lowered in the disinfection tank 100 exits the disinfection tank 100 through the ozonated water drain 160 and then passes through the pump 210, filter 220, and ozonated water generator 300 again to the ozonated water supply port. As it flows into the disinfection tank 100 through 150, a circulation of ozonated water is formed. After the ozone water disinfection is completed, the waste ozone water is collected into the waste ozone water tank 120 through the waste ozone water drain 121 (or may be directly disposed of outside), and only the objects to be disinfected remain in the disinfection tank 100. At this time, the first switching valve 500 operates to supply hot air generated from the hot air generator 400 into the disinfection tank 100 through the ozone water supply port 150 to dry the disinfection object in the disinfection tank 100. .

Furthermore, a gas flow pipe 180 may be formed between the top of the disinfection tank 100 and the oxygen inlet of the ozone water generator 300. In the disinfection tank 100, especially in the upper part of the disinfection tank 100 that is not filled with ozone water, there may be ozone that is not dissolved in the ozone water (W) and exists in a separated gaseous form. This ozone may be released to the outside of the disinfection tank 100. If leaked, it may be harmful to users. Therefore, in general, a waste ozone device must be provided to remove such ozone, but in the present invention, ozone that is not mixed in the ozone water is re-introduced into the ozone water generator 300 through the gas flow pipe 180, thereby generating separate waste ozone. The problem of external ozone leakage can be solved without a device.

Figure 4 shows a positive pressure disinfection device according to a second embodiment of the present invention. Except for the configuration of the ozonated water generator 300, the remaining configuration is no different from the first embodiment. The ozonated water generator 300 according to the second embodiment has an ozone generator 320 and an ozonated water generating tank 330 that are separated. Referring to FIG. 5, the ozone generator 320 receives oxygen from the outside and generates ozone through plasma discharge. In the ozone generator 320, ceramic rods 321 and electrodes 322 are alternately arranged. When voltage is applied to the electrodes 322, a plasma discharge occurs between the ceramic rods 321 and electrodes 322, and ozone is generated. Oxygen introduced into the generator 320 is converted into ozone. The ozone generated from the ozone generator 320 moves to the ozonated water generation tank 330 and mixes with the ozonated water flowing into the ozonated water generating tank 330 to increase the dissolved concentration of ozone in the ozonated water. Furthermore, the ozone water generator 300 may further include a second switching valve 350, where the inlet side of the second switching valve 350 is connected to the ozone generator 320, and the two outlet sides each generate ozone water. It is connected to the tank 330 and the ozone discharge fan 340. Depending on the operation of the second switching valve 350, ozone generated from the ozone generator 320 may flow into the ozone water generation tank 330 or be discharged to the outside of the device through the ozone discharge fan 340. Therefore, when the disinfection object is being disinfected in the positive pressure disinfection device, the ozone from the ozone generator 320 is sent to the ozonated water generation tank 330 and used to generate ozonated water, and when the positive pressure disinfection device is not disinfected, the ozone is discharged to the outside of the device. The ozone released can be used for indoor disinfection.

FIG. 6 shows a state in which the mask (M), the tube (T), and the humidifier water tank (R) are immersed in the ozone water (W) of the disinfection tank 100. Hereinafter, the mask (M), tube (T), and humidifier water tank (R) will be collectively referred to as disinfection objects. And Figure 7 shows a state in which disinfection objects are placed in the disinfection tank 100. It can be seen that one end of the tube (T) is connected to the mask (M), and the other end of the tube (T) is connected to the ozone water supply port (150). Ozonated water flowing in through the ozonated water supply port 150 flows into the disinfection tank 100 through the tube (T) and the mask (M) connected thereto. Furthermore, the ozonated water supply port 150 can supply ozonated water into the humidifier water tank (R), which will be explained in detail later.

Figure 8 shows the state before the ozone water supply port 150 is inserted into the tube T at one end. Preferably, the ozonated water supply port 150 includes an insertion tube 153 protruding outside the inner wall of the disinfection tank 100, through which ozonated water is supplied to the inside of the tube T. Additionally, a second vibrator 151 may be provided at a portion of the insertion tube 153, preferably at the terminal end of the insertion tube 153. Additionally, elastic packing 152 is formed in a predetermined portion of the insertion tube 153, so that one side of the tube T can be stably fitted and fixed. Elastic packing 152 may be made of silicone rubber. With one side of the tube (T) inserted into the ozonated water supply port (150), the ozonated water supplied through the ozonated water supply port (150) is delivered to the inside of the tube (T) through the insertion tube (153). flows along the inside of the tube (T) and flows out through the mask (M). Therefore, ozonated water with an increased dissolved concentration of ozone after passing through the ozonated water generator 300 can be reliably used to disinfect the inner peripheral surface of the tube (T) and mask (M), which are most likely to be contaminated. Furthermore, the ultrasonic vibration generated from the second vibrator 151 formed at the end of the insertion tube 153 is reliably transmitted to the inner surface of the tube (T), effectively removing contaminants attached to the inner surface of the tube (T). I do it.

Figure 9 shows a state in which the humidifier water tank (R) is mounted on the ozone water supply port 150. Although there is a difference from the embodiment of FIG. 8 in the form in which the second vibrator 151 is attached to the insertion tube 153, there is a significant difference in essence in that it is configured to generate ultrasonic vibration on the inner peripheral surface of the object to be disinfected. There is no The insertion tube 153 equipped with the second vibrator 151 at the end is inserted into the humidifier water tank (R) through the through hole of the humidifier water tank (R). The ozone water discharged through the insertion tube 153 is supplied into the inside of the humidifier water tank (R) and then flows out to the outside of the humidifier water tank (R) through the through hole of the humidifier water tank (R). In this case, not only is ozone water with an increased dissolved concentration of ozone directly used to disinfect the inner circumferential surface of the humidifier water tank (R), but also the ultrasonic vibration generated by the second vibrator 151 is used to remove contaminants from the inner peripheral surface of the humidifier water tank (R). It can be used effectively.

The ozonated water supply port 150 of FIG. 10 is an example of a form suitable for use in a humidifier water tank (R), and is further provided with an elastic holder 154. The elastic holder 154 may be made of a corrosion-resistant metal such as stainless steel or a plastic synthetic resin material, and may be formed in the form of a cantilever beam where one side is fixed to the surrounding structure and the other side is freely movable. Preferably, the elastic holder 154 is formed of a pair of elements and may be arranged symmetrically about the insertion tube 153. In addition, the distance between the elements of the elastic holder 151 can be formed to become farther from the fixed part to the shorter and freely movable other end.

Figure 11 shows the process of mounting the humidifier water tank (R) to the ozone water supply port 150 using the elastic holder 154. First, as shown in Figure 11 (a), the two elements forming the elastic holder 151 are pushed in the direction (center direction) of the insertion tube 153 to narrow the distance between the elements forming the elastic holder 151. Next, make it pass through the through hole of the humidifier water tank (R). And when the force applied to the elastic holder 154 is removed, the distance between the elements constituting the elastic holder 154 increases, and as a result, the humidifier water tank (R) as shown in FIG. 11(b) The through hole is caught in a part of the elastic holder (154). In this state, even if ozone water is supplied through the insertion tube 153, it is possible to prevent the humidifier water tank (R) from leaving the ozone water supply port 150.

Figure 12 shows the mask fixing part 170. The mask fixing part 170 is designed to prevent the mask M from flowing in the ozone water when ozone water flows into the disinfection tank 100 through the tube T and the mask M. One side is hinged. The pivotable fixture 172 is configured to restrict the mask M in a manner that covers the top of the mask M. At this time, an elastic pressing portion 173 made of a material such as rubber is formed at the bottom of the rotating fixture 172 to stably press the top of the mask M. Preferably, the mask fixing part 170 may further include a mask support 176 supporting the lower end of the mask M. A water conduit 175 is formed in the mask stand 176, so that ozone water flowing through the tube T and the mask M can flow out of the mask M through the conduit 175. Furthermore, one end of the pivoting fixture 172 is hinged to the mask stand 176, and a fastener 174 is formed on the other end of the pivoting fixture 172. The fastener 174 is an element that the user can easily attach and detach, such as a magnet, and serves to fix the other end of the pivoting fixture 172 to the mask stand 176. When the user applies force to the pivoting fixture 172 to rotate the pivoting fixture 172 around the hinge, the fastener 174 at the other end of the pivoting fixture 172 may be separated from the mask stand 176, but the user In the disinfection process where force is not applied, the other end of the rotating fixture 172 is fixed to the mask stand 176 by the fastener 174, allowing the mask M to be stably fixed.

100: Disinfection tank 120: Waste ozone water tank
121: Waste ozone water drain 130: First oscillator
150: Ozonated water supply port 151: Second oscillator
152: elastic packing 153: insertion tube
154: Elastic holder
160: Ozone water drain 170: Mask fixing part
171: third vibrator 172: rotation fixture
173: elastic pressing part 174: fastening port
175: water conduit 176: mask stand
177: third oscillator 180: gas flow pipe
210: pump 220: filter
300: Ozone water generating unit 311: UV lamp
312: oxygen inlet 313: transparent tube
314: Venturi injector
320: Ozone generator 321: Ceramic rod
322: Electrode 330: Ozone water generation tank
340: Ozone discharge fan 350: Second switching valve
400: hot air generator 500: first switching valve
W: Ozonated water R: Humidifier water tank
T: Tube M: Mask

Claims (6)

It relates to a CPAP sterilization device using ozonated water that can be used to disinfect the CPAP tube (T), mask (M), or humidifier water tank (R),
A disinfection tank (100) for accommodating ozone water and disinfection objects immersed in it;
a waste ozone water drain 121 for discharging waste ozone water to the outside of the disinfection tank 100 after disinfection of the object to be disinfected is completed;
An ozone water drain 160 provided in the disinfection tank 100 to drain ozone water from the disinfection tank to the outside of the disinfection tank 100;
An ozonated water supply port (150) for supplying ozonated water into the disinfection tank (100); and
It includes an ozonated water generating unit 300 for increasing the ozone dissolved concentration of the ozonated water flowing out through the ozonated water drain 160 and supplying it back to the ozonated water supply unit 150,
Among the disinfection objects, one end of the tube (T) is fixed to the ozone water supply port 150, and the ozonated water supplied through the ozone water supply port 150 is connected to the tube (T) and the other end of the tube (T). A positive pressure disinfection device using ozonated water, characterized in that it flows into the disinfection tank (100) through a mask (M).
The method according to claim 1, further comprising a hot air generator 400 for generating hot air for drying,
The hot air generator 400 is connected by a first switching valve 500 on the ozone water movement path connecting the ozone generator 300 and the ozone supply port 150,
After all ozonated water in the disinfection tank 100 is discharged through the waste ozone water drain 121, drying hot air generated from the hot air generator 400 flows into the disinfection tank 100 through the ozone water supply port 150. A positive pressure disinfection device using ozonated water, wherein the first switching valve (500) is driven to enable
In claim 1 or claim 2,
The ozonated water generator 300 generates ozone by introducing oxygen,
A CPAP disinfection device using ozonated water, characterized in that ozone that is not dissolved in the ozonated water and is in a gaseous state in the disinfection tank (100) is supplied to the oxygen inlet of the ozonated water generator (300) through the gas flow pipe (180). .
In claim 1 or claim 2,
The ozone water supply port 150 includes an insertion tube 153 protruding from the inner peripheral surface of the disinfection tank 100 and a vibrator provided in a predetermined portion of the insertion tube 153,
The insertion tube 153 is inserted into one side of the tube (T) to supply ozonated water to the inside of the tube (T),
A positive pressure disinfection device using ozonated water, wherein the vibrator generates vibration in the ozonated water to remove contaminants attached to the inner peripheral surface of the tube (T).
In claim 4,
The ozonated water supply port 150 includes elastic packing 152,
When one side of the tube (T) is fixed to the ozone water supply port 150, the elastic packing 152 is inserted between the insertion tube 153 and the inner peripheral surface of the tube (T), so that the tube ( A CPAP disinfection device using ozonated water, characterized in that T) is fixed to the ozonated water supply port (150) and at the same time, all ozonated water supplied through the ozonated water supply port (150) flows through the tube (T).
In claim 1 or claim 2,
The ozonated water generator 300 includes an ozone generator 320 that generates ozone by introducing oxygen; and
It includes an ozone water generation tank 330 for mixing ozone generated from the ozone generator 400 with ozone water discharged through the ozone water drain 160,
In the positive pressure disinfection process, ozone generated from the ozone generator 400 is supplied to the ozone water generation tank 330,
When the positive pressure device is not disinfected, the ozone generated from the ozone generator (400) is supplied to the ozone discharge fan (340) for discharging the ozone to the outside.