KR20220139552A - Continuous positive airway pressure device to be capable of precise control of non-heating humidification and breathing pressure - Google Patents

Abstract

The present invention relates to a positive air pressure device capable of non-heating humidification and precise control of breathing pressure, which comprises: a case formed so that various members can be mounted; a spraying unit formed inside the case to suck in external air and then supply air to the inside of the user's airway; a humidifying unit that is formed to be detachable from the upper front surface of the case and supplies moisture to the air supplied from the spraying unit; and a control unit formed on the upper rear surface of the case to control the operation of the injection unit and the pressure of the supplied air.

Description

Continuous positive airway pressure device to be capable of precise control of non-heating humidification and breathing pressure

The present invention relates to a positive pressure device capable of precise control of unheated humidification and respiration pressure, and more particularly, unheated humidification and respiration pressure capable of preventing airway obstruction by supplying air at a predetermined pressure to treat sleep apnea. It relates to a positive pressure machine capable of precise control of

In general, patients with symptoms such as snoring or sleep apnea can improve their quality of life by performing continuous positive airway pressure (CPAP) treatment.

Continuous positive pressure therapy uses a mask covering the nose to continuously blow air at a fixed pressure into the throat while the patient sleeps to prevent obstruction of the airways.

For this continuous positive pressure treatment, a mask that a patient can wear is used, and the mask is connected to a positive pressure device that supplies air so that a certain amount of air can be continuously supplied to the patient's throat.

That is, when the patient wears a mask supplied with air and goes to bed, air is continuously supplied to the mask from the positive pressure device connected to the mask to prevent obstruction of the patient's airway, and moisture is absorbed by the air supplied into the patient's airway. In order not to evaporate and dry, the water is heated and then evaporated water vapor is supplied together.

However, there is a problem in that the structure and energy efficiency using the electric heater are wasted when water vapor is generated by the heating method as described above, and the pressure is not constantly supplied because the pressure of the air supplied by the water vapor is fluctuated.

In addition, in the case of the heating method as described above, the moisture contained in the air is excessively increased, which can cause diseases due to over-humidity in the respiratory tract. there was.

Korean Patent Publication No. 10-2018-0078580

It is an object of the present invention to solve the above problems by supplying moisture without separately heating water when supplying moisture to the air supplied to the respirator, thereby suppressing the occurrence of fire and noise caused by heating. It is to provide a positive pressure device capable of precise control of respiratory pressure.

Another object of the present invention is to provide a positive pressure device capable of preventing excessive moisture from being supplied to the respiratory tract and capable of removing moisture through the injected air when there is excessive moisture in the respiratory tract and capable of precise control of respiration pressure. .

In addition, another object of the present invention is to measure the pressure of the input air and the pressure of the air generated during respiration to adjust the pressure of the input air according to the breathing pressure of the patient. will provide

The positive pressure machine capable of precise control of non-heating humidification and breathing pressure of the present invention for solving the above problems includes a case formed so that various members can be mounted, and a case formed inside the case to suck external air and then use the airway of the user. An injection unit for supplying air to the inside, a humidifier formed to be detachably attached from the upper front surface of the case and supplying moisture of the air supplied from the injection unit, and an operation of the injection unit formed on the upper rear surface of the case And it characterized in that it comprises a control unit for controlling the pressure of the supplied air.

In addition, the injection unit of the positive pressure machine capable of precise control of non-heating humidification and breathing pressure of the present invention includes an intake filter that filters and purifies foreign substances in the air sucked from the outside of the case, and is formed on the rear surface of the intake filter to the outside of the case An intake fan formed to suck air, an injection channel for moving air sucked from the intake fan in a set direction, and an injection hole formed on the upper portion of the injection channel to supply the air to the humidifier. do.

In addition, the humidification unit of the positive pressure machine capable of precise control of non-heating humidification and breathing pressure of the present invention has an open upper portion, and separation membranes for separating spaces are formed on both sides of the inside, so that water is accommodated in the center and the spray is at the lower end of one side A housing provided with a supply port through which air is introduced, and a plurality of units vertically arranged in the center of the housing and formed to absorb water, humidification that increases the humidity of the air when the air supplied into the housing passes and a filter coupled to the upper part of the housing, sealing the upper surface of the housing, and a cover having an outlet provided at the upper end of the other side of the housing to discharge air with increased humidity through the humidifying filter to the outside. do.

In addition, the control unit of the positive pressure machine capable of precise control of unheated humidification and breathing pressure of the present invention further includes a pressure measuring sensor for measuring the pressure of air supplied to or discharged from the user's airway through the humidification unit. , The pressure measuring sensor is characterized in that according to the pressure value that fluctuates according to the user's respiration, the speed or pressure at which the injection unit supplies air is controlled according to the pressure setting set in advance by the user.

In addition, the control unit of the positive pressure device capable of precise control of unheated humidification and respiration pressure of the present invention is formed to measure and store any one or more of a change in pressure generated while a user breathes during sleep, an apnea state, and a respiration time. And it is characterized in that the history can be checked through the display.

In addition, the control unit of the positive pressure device capable of precise control of unheated humidification and breathing pressure of the present invention measures the average pressure and the average breathing time generated when the user breathes during sleep, and when the user does not breathe within the measured time It is characterized in that the air is sprayed to breathe by the measured average pressure and average breathing time of the user through the injection unit.

As described above, according to the positive pressure machine capable of precise control of non-heating humidification and breathing pressure according to the present invention, when water is supplied to the air supplied to the respirator, water is supplied without heating separately, thereby generating fire and It has the effect of suppressing noise generation.

In addition, according to the positive pressure device capable of precise control of unheated humidification and breathing pressure according to the present invention, it is possible to prevent excessive moisture from being supplied to the airways and to remove moisture through the air introduced when there is excessive moisture in the airways. .

In addition, according to the positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention, the pressure of the input air can be adjusted according to the patient's breathing pressure by measuring the pressure of the input air and the pressure of the air generated during respiration. It works.

1 is a perspective view showing the external appearance of a positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention.
2 is an exploded view showing the internal structure of a positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention.
3 is a perspective view showing the structure of the humidification unit of the positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention.
Figure 4 is a bottom view showing the bottom of the humidification unit of the positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention.
5 is a cross-sectional view showing the inside of the humidification unit of the positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention.

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. Prior to this, if it is determined that the detailed description of the function and its configuration related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

The present invention relates to a positive pressure device capable of precise control of unheated humidification and respiration pressure, and more particularly, unheated humidification and respiration pressure capable of preventing airway obstruction by supplying air at a predetermined pressure to treat sleep apnea. It relates to a positive pressure machine capable of precise control of

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the external appearance of a positive pressure machine capable of precise control of unheated humidification and respiration pressure according to the present invention, and FIG. 2 is an internal structure of a positive pressure machine capable of precise control of unheated humidification and respiration pressure according to the present invention 3 is a perspective view showing the structure of a humidification unit of a positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention, and FIG. 4 is a non-heating humidification and precise control of breathing pressure according to the present invention It is a bottom view showing the bottom surface of the humidification unit of the positive pressure machine, and FIG. 5 is a cross-sectional view showing the inside of the humidification unit of the positive pressure machine capable of precise control of non-heating humidification and breathing pressure according to the present invention.

1 to 5, the positive pressure device capable of precise control of non-heating humidification and breathing pressure according to the present invention includes a case 100 that is formed so that various members can be mounted, and the inside of the case 100. The injection unit 300 for supplying air to the inside of the user's airway after suctioning the external air, and the moisture of the air supplied from the injection unit 300 and formed to be detachable from the upper front surface of the case 100 It is characterized in that it comprises a humidifying unit 200 to supply, and a control unit 400 formed on the upper rear surface of the case 100 to control the operation of the injection unit 300 and the pressure of the supplied air.

The case 100 is used to prevent external shocks or foreign substances from entering by embedding various members therein, and the upper front part is formed to be accommodated inside by inserting the humidifying unit 200 therein.

At this time, in order to prevent the humidification unit 200 inserted into the case 100 from being exposed to the outside or arbitrarily separated, the opening and closing cover 110 is formed on the upper front surface of the case 100 so that it can be rotated in the upper direction. have.

The opening/closing cover 110 is hinged with the case 100 and rotates clockwise or counterclockwise from the case 100 to open and close the part where the humidifier 200 is inserted, and the opening/closing cover ( It is possible to prevent foreign substances from entering the inside of the case 100 through the 110).

In addition, the opening/closing cover 110 is provided with a dust-proof cover 120 for opening and closing so that the air introduced into the user's airway through the humidifying unit 200 can be discharged to the outside, and the mask hose connected to the user's airway. When connecting with the humidifier 200 , the dust-proof cover 120 is opened and the hose can be connected to the humidifier 200 located inside the case 100 .

In addition, when not in use, it is possible to cover the dustproof cover 120 to prevent foreign substances from entering the inside of the humidifying unit 200 , and the dustproof cover 120 can also be rotated upward in the same way as the opening and closing cover 110 . It is preferable to be hinged so as to be.

The injection unit 300 is used to help breathing by sucking in air outside the case 100 and supplying it to the inside of the user's airway through the humidifying unit 200, and is located on the inner rear side of the case 100, and After sucking air, air is supplied toward the humidifier 200 at a set pressure.

In addition, the injection unit 300 is formed on the back of the intake filter 310 and the intake filter 310 to filter out and purify foreign substances in the air sucked from the outside of the case 100, the case 100 can suck the outside air. The intake fan 320 is formed so as to be formed so that the air sucked from the intake fan 320 moves in a set direction, and the injection channel 330 is formed on the top of the injection channel 330 to supply air to the humidifier 200 . It is characterized in that it consists of a nozzle 340 to.

The intake filter 310 is formed in an opening formed on the side surface of the case 100 to allow outside air to flow in, and after filtering foreign substances, viruses, and bacteria in the air introduced from the outside through the filter, the air is cooled to the humidifying unit 200 ) is used to send

The intake fan 320 is used to supply external air to the inside of the case 100 using a fan, and can control the flow rate of air supplied to the inside of the case 100 through the intake filter 310 according to the rotation speed. It is possible to adjust the pressure of the air supplied to the humidifier 200 by increasing or decreasing the supplied flow rate.

It is preferable that the intake fan 320 is formed so that the rotation speed can be controlled by the control unit 400 , and the air sucked into the case 100 through the intake fan 320 is primary in the injection channel 330 . is accommodated, and can be supplied to the inside of the humidifier 200 through the injection hole 340 formed in the injection channel 330 .

In addition, the air supplied to the humidifier 200 by the injection hole 340 formed at one end of the injection channel 330 is vertically moved through the injection hole 340 in the injection channel 330, at this time the air In order to reduce the noise generated while moving, it is preferable that the passage between the injection channel 330 and the injection hole 340 is formed to be round so that the air does not generate noise due to resistance due to friction or vortex.

In addition to the injection channel 330, it is preferable that all passages connected at right angles among passages through which air moves in the injection unit 300 and in the humidification unit 200 are all rounded inside, through which the air moves in the vertical or horizontal direction. When it is moved at right angles to the vortex, noise can be suppressed by reducing resistance due to vortex generation and air flow, and it can not disturb the user's sleep.

The injection hole 340 formed in the injection channel 330 is formed with a plurality of sealing on the outer surface, so that when the humidifier 200 is coupled, it is possible to prevent air from leaking to the outside of the humidifying unit 200 .

At this time, the nozzle 340 is formed in a tapered shape in which the diameter gradually decreases in the upward direction, and a plurality of seals are made of different diameters and are sequentially coupled to the tapered injection hole 340, and are made of a rubber material. It is compressed when combined with 200 to fill the gap between the humidifying unit 200 and the injection hole 340 .

The humidifier 200 contains water inside, so when air is supplied to the inside of the humidifier 200 through the injection unit 300, the humidity of the air is increased and then discharged to the outside, so that when the user breathes, the air is airway. It is used to prevent drying out.

In addition, the humidification unit 200 has an open upper portion, so that separation membranes 211 for separating spaces are formed on both sides of the inside, so that water is accommodated in the center and air is injected through the spray unit 300 at the lower end of one side. The housing 210 in which the 212 is provided and a plurality of them are vertically disposed in the center of the housing 210 and are formed to absorb water, so that when the air supplied into the housing 210 passes, the humidity of the air is increased The humidification filter 213 is coupled to the upper part of the housing 210 to seal the upper surface of the housing 210 and to discharge the air with increased humidity through the humidification filter 213 to the outside of the housing 210. It is characterized in that it consists of a cover 220 provided with an outlet 222 at the upper end of the other side.

The housing 210 has an open upper portion and is formed to separate spaces from each other through a separation membrane 211 , and a cover 220 is mounted on the upper portion of the housing 210 to seal the upper portion of the housing 210 . and the air introduced into the housing 210 by the cover 220 can move in a set direction.

Here, one side of the space separated through the separation membrane 211 is formed so that air can be supplied through the injection unit 300, the center is formed so that water can be accommodated, and the other side is formed to receive air with improved humidity to the outside. It is divided into a space for discharge.

At this time, it is preferable that a hole through which air can move is formed at the upper end of the separation membrane 211 so that the air can sequentially move to one side, the center, and the other side of the housing 210 , and the separation membrane 211 provides The water accommodated in the housing 210 does not move to one side and the other side of the housing 210 , but only air can move through the hole formed at the top.

In addition, the lower end of one side of the housing 210 is provided with a supply port 212 so that the outer surface of the injection port 340 formed in the injection unit 300 can be inserted, and when the humidifier 200 is inserted into the case 100 , the injection port 340 is closely coupled to the supply port 212 so that air supplied through the injection unit 300 can be supplied through one side of the housing 210 .

A plurality of humidifying filters 213 are vertically formed in the center of the housing 210 so that air flowing in from one side can move to the other side while passing through the humidifying filter 213 .

At this time, the humidifying filter 213 is formed to absorb the water contained in the center of the housing 210, and when the air passes through the humidifying filter 213 that has absorbed the water, moisture is contained in the air to improve the humidity in the air. do.

That is, a plurality of humidifying filters 213 are maintained in a state of absorbing water, and as the air sequentially passes through the humidifying filter 213, the moisture absorbed by the humidifying filter 213 is transferred to the air, and the humidity can be improved. there will be

Since the humidity is improved while the air passes through the humidifying filter 213 , the humidifying filter 213 is preferably arranged in a zigzag shape so that the air must pass through the humidifying filter 213 .

The air passing through the plurality of humidification filters 213 finally moves to the other side of the housing 210 through the hole formed in the separation membrane 211 , and through the outlet 222 formed at the top of the cover 220 , the case 100 ) is discharged to the outside and can be supplied to the user's airway.

At this time, since the air introduced into the user's airway passes through the humidifier 200 and maintains a constant humidity, when the humidity in the user's airway is low, it can be prevented from drying while supplying moisture, and conversely, when the humidity in the airway is high In this case, as the air moves, it can absorb moisture and lower the humidity in the airways.

In addition, it is preferable that a support plate 214 for supporting the humidification cover 220 is formed on the lower surface of the plurality of humidification filters 213 formed in the housing 210 to maintain a vertical state, and the humidification filter 213 is formed. ) may also be formed on the upper portion of the support plate 214 so that the upper and lower portions of the humidifying filter 213 can be fixed at a set position.

In addition, when the support plate 214 is formed on the upper portion of the humidification filter 213 , it is formed in any one of a mesh, a mesh, and a ring shape to allow water to flow into the housing 210 through the inlet 221 formed in the cover 220 . It is desirable to be able to supply.

In order to clean the inside of the housing 210 and replace the humidification filter 213 when the humidification filter 213 is damaged or contaminated, the cover 220 is formed to be detachable from the housing 210 . desirable.

To this end, a plurality of coupling members 223 are formed in the cover 220 , and the coupling members 223 are formed to be rotatable from the outer surface of the cover 220 , and a groove is dug in the center of the housing 210 on the outer surface of the housing 210 . It is formed so that the housing 210 and the cover 220 can be maintained in a coupled state by being coupled to the formed fixing hook 216 .

In addition, a plurality of rings are formed on the inner surface of the cover 220 that is in close contact with the upper surface of the housing 210 to prevent water or air from leaking through the gap between the housing 210 and the cover 220 . .

In a state in which the housing 210 and the cover 220 are coupled, the user separates the housing 210 and the cover 220 from the case 100 and then passes the housing 210 through the inlet 221 formed in the cover 220 . Water can be accommodated in the center, and a separate stopper is formed in the inlet 221 to prevent the water contained in the housing 210 from leaking to the outside.

In addition, a diaphragm 224 is formed on the inner surface of the cover 220 at the same position as the separation membrane 211 of the housing 210 so that the inner space of the housing 210 is separated even in a state in which the cover 220 is coupled. it is preferable

In addition, the control unit 400 further includes a pressure measuring sensor 430 for measuring the pressure of the air supplied to the user's airway or discharged from the user through the humidifying unit 200, the pressure measuring sensor 430 is the user It is characterized in that the injection unit 300 controls the speed or pressure at which the air is supplied according to the pressure setting previously set by the user according to the pressure value that fluctuates according to the breathing of the user.

The control unit 400 is formed to measure the pressure of the air discharged to the outside of the case 100 through the humidifying unit 200, and a pressure measuring sensor ( 430) will be provided.

In addition, a separate exhaust port 215 through which air can be discharged is formed at the lower end of the other side of the housing 210 so that the pressure measuring sensor 430 can measure the pressure of the air discharged from the humidifying unit 200, The pressure measuring sensor 430 is provided with an intake port 440 for sucking the air introduced into the other side of the housing 210 .

That is, when the housing 210 is inserted into the case 100 , the intake port 440 is inserted into the exhaust port 215 formed in the housing 210 , and flows into the other side of the housing 210 through the humidification filter 213 . Some of the air is applied to the pressure sensor 430 through the exhaust port 215.

Through this, the pressure measuring sensor 430 can measure the pressure of the air supplied to the user, and according to the pressure value measured by the pressure measuring sensor 430 , the control unit 400 controls the intake fan formed in the injection unit 300 . By controlling the speed of 320, it is possible to adjust the pressure of the air.

As the intake air increases, the pressure applied to the pressure measurement sensor 430 increases, and as the intake air decreases, the pressure applied to the pressure measurement sensor 430 may decrease. becomes

In addition, the breath exhaled while the user breathes can be introduced into the humidifier 200, in this case, the pressure of the air flowing into the other side of the housing 210 by the user's breathing can be measured by the pressure measuring unit.

Through this, the control unit 400 can control the injection unit 300 so that the pressure of the air is maintained at the pressure value set in advance by the user using the pressure value that varies according to the user's breathing, and, if necessary, the user's It is possible to control the pressure value of the input air to be adjusted according to the respiration.

In addition, a plurality of seals are formed on the outer surface of the intake port 440 like the injection hole 340 so that a gap is not generated when inserted into the exhaust port 215 of the housing 210 .

In addition, the control unit 400 is formed to measure and store any one or more of a change in pressure, an apnea state, and a respiration time generated while the user breathes during sleep, and the history can be checked through the display 410 . do it with

In addition, the control unit 400 measures the average pressure and the average breathing time generated when the user breathes during sleep, and when the user does not breathe within the measured time, the average pressure and average measured by the user through the injection unit 300 . It is characterized in that the air is sprayed to breathe as much as the breathing time.

In addition, the control unit 400 is formed on the upper portion of the case 100, a display 410 that visually indicates various information, and a plurality of control buttons 420 formed around the display 410 that can input or control a set value. ) may be further included.

The display 410 may display information about the operating state of the positive pressure device or output log data stored in the control unit 400 in which the pressure generated when the user breathes during sleep, the apnea state, the breathing time, etc., and the user wakes up Through the display 410, it is possible to visually check the current status during sleep.

In addition, this information can be checked by transmitting it to an external terminal or transmitted to an external server and then checked by the medical staff, so that the medical staff can adjust the treatment related to sleep apnea symptoms or the pressure value at which the CPAP is operated according to the patient's condition.

In addition, the control unit 400 is able to derive the pressure average and the respiration time average generated when the user breathes based on the biometric information generated when the user breathes, and controls the injection unit 300 based on this information By doing so, it is possible to control the operation of the positive pressure device according to the user's preference.

In other words, since the positive pressure device operates according to the pressure generated when the user breathes normally, the user can breathe naturally while sleeping, and since air is supplied according to the user's breathing time, the Problems caused by shortness of breath can also be resolved.

As described above, according to the positive pressure machine capable of precise control of non-heating humidification and breathing pressure according to the present invention, when water is supplied to the air supplied to the respirator, water is supplied without heating separately, thereby generating fire and It can suppress noise generation, prevent excessive moisture from being supplied to the airways, and when there is excessive moisture in the airways, moisture can be removed through the air introduced, It has the effect of adjusting the pressure of the input air according to the breathing pressure of the patient by measuring it.

As described above, the present invention has been described with reference to preferred embodiments, but those of ordinary skill in the art to which the present invention pertains may vary the present invention within the scope not departing from the technical spirit and scope described in the claims of the present invention. It can be modified or modified in any way. Accordingly, the scope of the present invention should be construed by the appended claims to include examples of many such modifications.

100: case 110: opening and closing cover
120: dust cover 200: humidification unit
210: housing 211: separator
212: supply port 213: humidification filter
214: support plate 215: exhaust port
216: fixing hook 220: cover
221: inlet 222: outlet
223: coupling member 224: diaphragm
300: injection unit 310: intake filter
320: intake fan 330: injection channel
340: injection port 400: control unit
410: display 420: control button
430: pressure measuring sensor 440: intake port

Claims (6)

a case in which various members can be mounted;
an injection unit formed inside the case to suck outside air and then supply air into the airway of the user;
a humidifying unit formed to be detachably attached from the upper front surface of the case and supplying moisture from the air supplied from the spraying unit;
A control unit formed on the upper rear surface of the case to control the operation of the injection unit and the pressure of the supplied air; characterized in that it comprises a
Positive pressure device capable of precise control of unheated humidification and breathing pressure.
The method of claim 1,
the spraying part
an intake filter for filtering and purifying foreign substances in the air sucked from the outside of the case;
an intake fan formed on a rear surface of the intake filter to suck in air outside the case;
an injection channel through which the air sucked from the intake fan is moved in a set direction;
characterized in that it comprises a; is formed in the upper portion of the injection channel for supplying the air to the humidifier.
Positive pressure device capable of precise control of unheated humidification and breathing pressure.
The method of claim 1,
the humidifier
a housing having an open upper portion and separation membranes for separating spaces on both sides of the housing, accommodating water in the center and having a supply port through which air is introduced through the spraying unit at one lower end;
a plurality of humidifying filters arranged vertically in the center of the housing and formed to absorb water to increase the humidity of the air when the air supplied into the housing passes;
A cover coupled to the upper portion of the housing to seal the upper surface of the housing and provided with an outlet at the upper end of the other side of the housing to discharge air with increased humidity through the humidifying filter to the outside.
Positive pressure device capable of precise control of unheated humidification and breathing pressure.
The method of claim 1,
the control unit
It further comprises;
The pressure sensor is characterized in that according to the pressure value that fluctuates according to the user's respiration, the speed or pressure at which the injection unit supplies air according to the pressure setting set in advance by the user is controlled.
Positive pressure device capable of precise control of unheated humidification and breathing pressure.
The method of claim 1,
the control unit
It is formed to measure and store any one or more of a change in pressure, an apnea state, and a respiration time that occurs while the user breathes during sleep, characterized in that it is possible to check the history through a display
Positive pressure device capable of precise control of unheated humidification and breathing pressure.
The method of claim 1,
the control unit
Measures the average pressure and average breathing time that occur when the user breathes during sleep, and when the user does not breathe within the measured time, air is sprayed to breathe as much as the average pressure and average breathing time of the user through the injection unit characterized by
Positive pressure device capable of precise control of unheated humidification and breathing pressure.

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