KR200311013Y1 - splenitis-treatment device a spray functional possess for super-micro - Google Patents

Abstract

The present invention relates to a rhinitis treatment device for treating respiratory diseases such as rhinitis, sinusitis, and asthma. More specifically, saline or therapeutic drugs are uniformly sprayed into ultra-fine particles in an ultrasonic atomizer equipped with ultrasonic vibration elements, while an air pump The present invention relates to a rhinitis treatment device that enhances the disinfection, cleaning and treatment effect of a respiratory tract by injecting compressed air at a high pressure discharge pressure into a patient's respiratory tract.

The present invention is a conventional rhinitis treatment device for injecting saline or therapeutic drug into the respiratory system of the patient by spraying the saline or therapeutic drug with the flow rate of the compressed air discharged from the air pump, the injection hole is inserted into the nostril of the patient on the upper side and the inside An air supply hole is formed in the lower side and the main body is provided with a battery case, the upper side of the main body is formed with a drug injecting drug, an air pump for providing compressed air to the air supply hole of the main body, Ultrasonic nebulizer which is injected into the drug reservoir and sprayed uniformly into ultra-fine particles, Flow control valve for controlling the flow rate of the drug flowing into the ultrasonic spray from the drug reservoir, Circuit board and power / turbo inside the body The switch is equipped with a control unit for controlling the ultrasonic atomizer and the air pump.

Description

Sprinitis-treatment device a spray functional possess for super-micro}

The present invention relates to a rhinitis treatment device for treating respiratory diseases such as rhinitis, sinusitis, and asthma. More specifically, the saline or therapeutic agent is uniformly sprayed with ultra-fine particles in an ultrasonic atomizer equipped with ultrasonic vibration elements. The present invention relates to a rhinitis treatment device that injects compressed air at a high pressure discharge pressure from a pump and injects drug particles sprayed into ultra-fine particles into a patient's respiratory system to enhance the disinfection, cleaning, and treatment effects of the respiratory system.

In general, the nose in the human body is a very important organ for breathing, respiratory diseases are most likely to become chronic and recurrence, and when these chronic respiratory diseases become severe, inflammation spreads to the nose and adjacent sinuses, causing complications such as sinusitis. In particular, long-term treatment and prevention is most important because it causes diseases such as rhinitis and asthma.

In recent years, people are very likely to be infected with cold, rhinitis and respiratory diseases due to seasonal differences in temperature, increase in environmental pollution and air pollutants. In particular, infants have a low resistance and are more likely to get sick. The ability to control this often leads to viral respiratory diseases such as colds.

These respiratory diseases (nasal, rhinitis, asthma, sinusitis, etc.) are very uncomfortable breathing, causing headaches and attention deterioration, which causes severe stress on the patient, so that rapid treatment with rest is effective. Do.

Recently, a variety of rhinitis treatment devices that can be used easily and conveniently at home for the purpose of preventing and treating such respiratory diseases have been provided, and most of the rhinitis treatment devices of such respiratory diseases are sprayed with saline or therapeutic drugs in the form of fine vapors. By injecting into the patient's respiratory system, the drug particles sprayed with fine particles are easily disinfected and washed with purulent mucus or solid secretions generated in the nasal cavity, rhinitis, nasopharynx, sinus canalic area due to inflammation.

Recently, a respiratory disease rhinitis treatment device is a saline solution or therapeutic drug is sucked into the discharge tube of the air pump by the flow rate of the air generated in the air pump of a strong discharge pressure, and sprayed into the vapor state of the fine particles through the nozzle Compressed air spray is applied to the patient's respiratory system.

However, since the conventional compressed air spraying method requires compressed air with a strong discharge pressure through an air pump, the vibration of the motor is severely generated, and the spraying method of the therapeutic drug is complicated, thereby increasing the volume of the device. In particular, there is a problem in that the drug particles to be sprayed are not uniform and not finer than the therapeutic effect while the drug is excessively consumed.

The present invention is designed to solve the problems associated with the rhinitis treatment device of the conventional respiratory disease as described above, uniformly spraying saline or therapeutic drugs into ultra-fine particles in an ultrasonic nebulizer equipped with an ultrasonic vibrating element, and sprayed into ultra-fine particles It is injected to the patient's respiratory system by pumping the high pressure discharge pressure from the air pump to enhance the disinfection, cleaning and treatment effect of the respiratory system while preventing excessive consumption of drugs, providing a rhinitis treatment device consisting of a simple spray structure The purpose is to.

The present invention for achieving the above object is a conventional rhinitis treatment device for spraying saline or therapeutic drug to the respiratory tract of the patient by spraying saline or therapeutic drug at the flow rate of compressed air discharged from the air pump, the nose of the patient on the upper side An injection hole inserted into the hole and an air supply hole are formed therein, a main body provided with a battery case in the lower side, a drug reservoir formed in the upper part of the main body, and injected with a drug, and compressed in the air supply hole of the main body. An air pump for providing air, an ultrasonic atomizer supplied with a drug injected into the drug reservoir, and sprayed uniformly into ultra-fine particles, a flow control valve for controlling a flow rate of the drug flowing into the ultrasonic atomizer from the drug reservoir, and the main body It is composed of a control board that controls the ultrasonic atomizer and air pump by installing a circuit board and power / turbo switch inside. will be.

1 is a perspective view showing a preferred embodiment according to the present invention

2 is a cross-sectional view of the operating state according to the present invention

3 is a cross-sectional view showing a use state according to the present invention

Figure 4 is a sectional view of the main part showing the injection state of compressed air according to the present invention

Figure 5 is a sectional view of the main portion showing an embodiment of the ultrasonic nebulizer according to the present invention

Figure 6 is a side cross-sectional view of the ultrasonic nebulizer according to the present invention

{Description of symbols for main parts of the drawing}

10.Body 11 ... Inlet

12 Air supply hole 13 Battery case

20 ... Drug Receptacle 21 ... Cover

22.Drug supply pipe 30 ... Air pump

31.Motor 32.Discharge pipe

40 ... ultrasonic sprayer 41 ... vibrating body

42 Assembly 43 Vibration element

50.Flow control valve 51.Control knob

60 Control part 61 Circuit board

62 ... Power switch 62a ... Turbo switch

The present invention uniformly sprays the saline solution or therapeutic drug into ultra fine particles in an ultrasonic atomizer equipped with ultrasonic vibration elements, and injects the drug particles sprayed into the fine particles into the respiratory system of the patient by injecting them into the patient's respiratory pressure at a high pressure. It is to provide a rhinitis treatment device that enhances disinfection, cleaning and treatment.

Hereinafter, a configuration of a preferred embodiment according to the present invention will be described in detail with reference to FIGS. 1 to 6 shown in the drawings.

The present invention is a conventional rhinitis treatment device that inhales saline or therapeutic drugs and injects them into the respiratory tract of the patient at the flow rate of the compressed air discharged from the air pump, the inlet of the small diameter inserted into the nostril to the upper side 11 is formed and the air supply hole 12 is formed in the inlet 11, the main body 10 is provided with a battery case 13 in the lower side, and formed in the upper side of the main body 10 The cover 21 is fastened to the upper part and the drug storage container 20 into which a predetermined amount of drug is injected, and is installed in the main body 10 and the discharge pipe 32 is connected to the air supply hole of the main body 10. Air pump 30 for injecting compressed air into the 12, and the injection port 11 and the air supply hole 12 formed in the main body 10 is installed in the drug reservoir 20 and the drug supply pipe 22 Ultrasonic nebulizer 40 and the sprayed drug is uniformly sprayed into ultra-fine particles, and the phase The flow rate control valve 50 for adjusting the flow rate of the drug flowing into the ultrasonic atomizer 40 from the drug reservoir 20, the circuit board 61, the power switch 62 and the turbo switch inside the main body 10 A structural feature of the control unit 60 is installed to control the air pump 30 and the ultrasonic atomizer 40 by mounting a 62a.

In the present invention, the main body 10 is a plastic material that is injection-molded into a mold, and is configured to have a concave shape in the upper and lower middle portions so as to be convenient for use by hand, and a space in which various parts can be built is provided. Ultrasonic nebulizer spraying the drug into the ultra-fine particles by receiving the battery case 13, the battery case 13 is inserted, the air pump 30 to operate by receiving the power of the battery 14, the power of the battery 14 40, a flow control valve 50 for adjusting the flow rate of the sprayed drug, and the control unit 60 for controlling the operation of the air pump 30 and the ultrasonic atomizer 40 is provided.

In the main body 10 is a battery case 13 is formed in the lower side inside the battery 14 to be supplied with power, and the injection hole 11 of the small diameter that can be inserted into the nostril of the patient to the upper side Is formed, and the air supply hole 12 of the predetermined space is formed inwardly of the injection hole 11.

The injection hole 11 of the small diameter penetrates the tip, and the plurality of discharge holes 12a are drilled through the air supply hole 12 so that the compressed air injected into the air supply hole 12 is discharged. It is discharged to the injection hole 11 through 12a.

The upper portion of the main body 10 is formed with a drug storage container 20 for storing and storing a predetermined amount of saline or a therapeutic drug, wherein the drug storage container 20 is a structure in which the cover 21 is fastened to the upper portion of the drug injection and Alternatively, the internal washing may be performed, and the upper portion may be positioned above the inlet 11 and the air supply hole 12 formed in the main body 10.

Meanwhile, the air pump 30 for supplying compressed air to the upper air supply hole 12 of the main body 10 is installed in the main body 10, and the discharge pipe 32 is connected to the air supply hole 12 to supply a motor. Compressed air is generated and injected by the driving of the 31, where the air pump 30 may use a micro diaphragm pump which provides a discharge pressure of low noise, low vibration, and high pressure by a known technique.

Ultrasonic nebulizer 40 of the present invention receives the drug stored in the drug reservoir 20 and sprays uniformly into ultra-fine particles is the injection port 11 and the air supply formed in the main body 10 by the spray method by the ultrasonic vibration element 43 Is installed on the position of the hole 12, the drug supply pipe 22 is installed in the drug reservoir 20 is connected to the drug is supplied to the ultrasonic atomizer (40).

The ultrasonic atomizer 40 has a vibrating body 41 which is drilled in the inlet hole 41b into which the drug is introduced into the center, the spraying direction has a conical shape, and the assembly 42 is screwed in the opposite direction, and the vibration A ring-shaped vibrating element 43 sandwiched between the sieve 41 and the assembly 42 and provided with a terminal 44 on its outer circumferential surface, and a buffer member 45 surrounding the vibrating body 41 and the assembly 42. It is composed of a case 46 is built in and fixedly mounted to the air supply hole 12 of the main body 10.

The vibrating body 41 is made of a metal body (stainless steel) in which the drug flowing through the inlet hole 41b therein is sprayed into ultra-fine particles by the vibration of the ultrasonic vibrating element 43, and one spraying direction has a conical shape. It has a circular vibration surface (41a) formed in the inclined surface centered on the inlet hole (41b) in the end portion, the opposite direction is fitted with a ring-shaped vibration element 43 is fitted and threaded to form a circular assembly 42 ) Is fastened, and the drug supply pipe 22 into which the drug is injected to the front end is coupled.

The vibrating surface 41a formed at the end of the conical shape in the spraying direction of the vibrating body 41 is sprayed into ultra-fine particles by ultrasonic vibration in the inlet hole 41b and vibrates again to the drug particles discharged on the surface of the inlet hole 41b. It is added to perform the function of spraying further particles.

The shock absorbing member 45 made of silicon is made of a case 46 to surround the outside of the vibrating body 41 and the assembly 42 to absorb ultrasonic vibration generated from the vibrating element 43 so as not to affect the main body 10. The case 46 is formed in a cap shape surrounding the outside of the conical vibrating body 41 formed in the spraying direction, and is fixedly installed on the position of the injection hole 11 and the air supply hole 12.

In the above, a plurality of discharge holes 12a are drilled by the outer circumference of the case 46 installed on the position of the air supply hole 12, and the compressed air injected into the air supply hole 12 is discharged through the injection hole 11. do.

In the ultrasonic atomizer 40, the vibrating element 43 is supplied to the terminal 44 mounted on the outer circumferential surface of the battery 6 by supplying DC 6V power through the storage battery 14 and generating a vibration frequency of approximately 60 to 65 KHz. Spraying is performed with ultra-fine particles of ˜2 micron (μm) or less.

The flow control valve 50 for adjusting the flow rate of the drug injected into the ultrasonic atomizer 40 from the drug reservoir 20 is a drug that is connected to the drug reservoir 20 and the ultrasonic atomizer 40 as a function of controlling the spray amount of the drug. It is installed inside the main body 10 so as to be mounted on the supply pipe 22, and a control knob 51 is mounted to be positioned outside the main body 10 so that the flow rate of the drug injected into the ultrasonic atomizer 40 can be finely controlled. Is installed.

On the other hand, a circuit board (PCB) 61 is mounted inside the main body 10, and a power switch 62 and a turbo switch 62a are mounted to be exposed to the outside of the main body 10, thereby providing an air pump 30 and an ultrasonic atomizer ( The control unit 60 for controlling the operation of the 40 is installed, the power switch 62 supplies the power of the storage battery 14 to the circuit board 61 while operating the ultrasonic atomizer 40, the turbo The switches 62a are separately installed to operate the air pump 30.

Referring to the operation of the present invention made of such a configuration as follows.

The present invention is to open the cover 21 of the drug reservoir 20 and inject a predetermined amount of saline or therapeutic drug therein and then insert the inlet 11 into the nostril of the patient and the power switch 62 of the control unit 60 When the "on"), the drug stored in the drug reservoir 20 with the operation of the ultrasonic atomizer 40 is injected into the ultrasonic atomizer 40 through the flow control valve 50 and the drug supply pipe 22 to vibrate element 43 ) Is injected into the patient's respiratory system by uniformly sprayed into ultra-fine particles of 1 to 2 microns (μm) or less, and the drug is the drug reservoir 20 is located on the upper side of the body 10, the flow control valve by water pressure Injected into the ultrasonic nebulizer 40 through the drug supply pipe 22 and 50, it may be perforated through the vent hole of the fine particles in the cover 21 of the drug reservoir 20 for smooth injection of the drug.

The treatment proceeds while adjusting the spray amount of the therapeutic drug sprayed from the ultrasonic atomizer 40 by rotating the control knob 51 of the flow control valve 50 according to the patient, such as an adult or the elderly and young children, the treatment When the turbo switch 62a of the control unit 60 is "on" in the spraying state of the drug, the air pump 30 is operated to inject the compressed air into the air supply hole 12 through the discharge pipe 32, and the air Since the compressed air injected into the supply hole 12 is discharged to the injection hole 11 through the plurality of discharge holes 12a, the drug particles sprayed into the injection hole 11 are injected and deeply injected into the nostril of the patient, where the turbo switch Operation of the air pump 30 by the 62a is operated according to the patient or the patient's respiratory disease condition, the air pump 30 is operated only while the "on" by pressing the turbo switch 62a.

The present invention is to uniformly spray the therapeutic drug into the ultra-fine particles in the ultrasonic nebulizer 40 to inject into the patient's respiratory system, while selectively compressing the sprayed drug particles into the compressed air generated in the air pump 30 to the patient's respirator By injecting, the drug particles penetrate deep into the respiratory tract and enhance the therapeutic effect.

In the present invention, the ultrasonic vibrating element 43 in the ultrasonic nebulizer 40 sprays the drug uniformly into ultra-fine particles, which significantly reduces the consumption of the drug and increases the disinfection and washing efficiency of the solidified secretion in the respirator.

The preferred embodiments of the present invention have been described with reference to the present invention, and the present invention is not limited to the above embodiments, and a person having ordinary knowledge in the technical field to which the present invention pertains through the above embodiments does not depart from the gist of the present invention. Can be implemented in a variety of changes.

The present invention is configured to uniformly spray the saline or therapeutic drugs into ultra-fine particles in an ultrasonic atomizer equipped with an ultrasonic vibrating element, and to inject the drug particles sprayed into the ultra-fine particles in the air pump at a high pressure discharge pressure to inject into the patient's respiratory system, It is to increase the effectiveness of disinfection, cleaning and treatment of the respiratory tract while preventing excessive consumption of the drug, and to provide an effect consisting of a simple spray structure.

Claims (4)

In a conventional rhinitis treatment device that inhales saline or therapeutic drugs at the flow rate of compressed air discharged from an air pump, sprays them into fine particles, and injects them into the patient's respiratory system. An injection hole 11 having a small diameter inserted into the nostril is formed at an upper side thereof, and an air supply hole 12 having a discharge hole 12a formed therein is formed in the injection hole 11, and a battery case 13 is disposed in the lower side thereof. The main body 10 is provided with; A drug reservoir 20 formed at an upper side of the main body 10 and having a cover 21 fastened thereon and a predetermined amount of drug injected therein; An air pump (30) installed inside the main body (10) and connected to a discharge pipe (32) to inject compressed air into the air supply hole (12) of the main body (10); Ultrasonic nebulizer 40 is installed inside the main body 10 and the drug reservoir (20) and the drug supply pipe 22 is connected and the drug injected is uniformly sprayed into ultra-fine particles; A flow rate control valve 50 for controlling the flow rate of the drug flowing into the ultrasonic atomizer 40 from the drug reservoir 20; A circuit board 61, a power switch 62, and a turbo switch 62a are mounted inside the main body 10 to configure a control unit 60 that controls the operation of the air pump 30 and the ultrasonic atomizer 40. Rhinitis treatment device having a spray function of ultra-fine particles, characterized in that. The method of claim 1, Ultrasonic nebulizer 40 is a vibrating body 41 is drilled in the inlet hole 41b into which the drug is introduced into the center and the spray direction has a conical shape and the assembly 42 is screwed in the opposite direction, and the vibrating body A ring-shaped ultrasonic vibrating element 43 sandwiched between the 41 and the assembly 42 and provided with a terminal 44 on an outer circumferential surface thereof, and a buffer absorbing vibration to surround the vibrating body 41 and the assembly 42. Rhinitis treatment device having a spray function of ultra-fine particles, characterized in that the member 45 is built in the case 46 is fixedly installed on the position of the injection port 11 and the air supply hole 12 of the main body 10 . The method of claim 2, In the spraying direction of the vibrating body 41, a circular vibrating surface 41a formed in an inclined surface around the inlet hole 41b is formed at the conical end portion and vibrates again to the drug particles discharged on the surface of the inlet hole 41b. Rhinitis treatment device having a spray function of ultra-fine particles, characterized in that configured to apply. The method of claim 1, Flow control valve 50 is installed inside the main body 10 to be mounted on the drug supply pipe 22 is connected to the drug reservoir 20 and the ultrasonic atomizer 40, the adjustment knob 51 is the main body 10 Rhinitis treatment device having a spray function of ultra-fine particles, characterized in that mounted on the outside.