KR200157611Y1 - Nozzle control device of heater type humidifier - Google Patents

Abstract

The present invention is to control the size of the discharge port formed in the nozzle according to the amount of humidification, relates to a nozzle control device of the heater-type humidifier to prevent the water vapor from stagnating in the atomization chamber so that the amount of humidification due to condensation is reduced, in particular the heater In the atomization chamber provided with a nozzle on the top of the water tank is installed, a receiving portion is formed so that the rotary cylinder of the lower end of the nozzle is fitted on the upper end of the atomization chamber, a discharge port is formed on one side of the receiving portion, the bottom surface of the rotary cylinder Upper and lower ends that correspond to the upper and lower ends of the discharge port are provided, and the upper and lower ends are connected to the inclined surface of the thread form.

Description

Nozzle control device of heater humidifier

1 is a cross-sectional view of a conventional humidifier.

2 is a cross-sectional view of the present invention humidifier.

* Explanation of symbols for main parts of the drawings

10: water tank 11: heater

12: Fig. 13: receiving part

14 discharge port 15 nozzle

16: rotating cylinder 17,18: upper and lower end

19: slope

The present invention relates to a nozzle control device for a heater humidifier, and more particularly, a heater type that reduces condensation by adjusting the size of the discharge hole according to the amount of humidification by varying the discharge port by rotating the nozzle where the humidified water vapor is discharged. It relates to a nozzle control device of the humidifier.

In general, the heater-type humidifier is composed of a water tank (1) containing water, and an atomization chamber (3) covering the top of the water tank as shown in FIG. 1, and the heater (2) heated by electricity in the water tank (1). Is installed and a nozzle 4 having a discharge port 5 is installed at the upper end of the atomization chamber 3.

In the conventional heater-type humidifier configured as described above, when the submerged heater 2 is heated, water is evaporated to generate water vapor, and the water vapor is discharged from the nozzle 4 at the upper portion through the atomization chamber 3 to the room. At this time, it is discharged through the discharge port 5 formed in the nozzle 4 and the nozzle 4 is rotated to the left and right to adjust the direction of the discharge port 5 can supply water vapor to the desired place.

However, since the size of the discharge port 5 formed in the nozzle 4 is fixed in a predetermined form, when the amount of humidification is increased, the phenomenon of stagnation of water vapor occurs in the discharge port 5, and smooth discharge is not achieved. In addition, since the water vapor generated by heating the heater 2 is small, when the water is stagnated at the discharge port 5, the moisture content is further reduced since the water vapor condenses into the water particles while touching the inner wall of the nozzle 4 or the atomization chamber 3 and becomes condensed into water particles. There is.

The present invention is devised to solve the conventional problems, the purpose of the present invention is to adjust the size of the discharge port formed in the nozzle according to the amount of humidification, so that the water vapor is not stagnant in the atomization chamber to reduce the amount of humidification due to condensation It is to provide a nozzle control device of the heater-type humidifier.

In order to achieve the above object, the present invention provides a atomization chamber in which a nozzle is installed in an upper portion of a water tank in which a heater is installed, and a receiving portion is formed at an upper end of the atomization chamber so that a rotating cylinder of the lower end of the atomization chamber is fitted therein. The discharge port is formed, the upper and lower end portions are provided on the bottom surface of the rotary tube to match the upper and lower ends of the discharge port, and these upper and lower ends are connected to the inclined surface of the thread form.

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

2 is a cross-sectional view of the present invention humidifier. That is, the water tank 10 in which the heater 11 is installed in the inner center is provided at the lower portion, and the atomization chamber 12 is provided at the upper portion of the water tank 10. The atomizing chamber 12 is formed with a receiving portion 13 into which the nozzle 15 is fitted at an upper end thereof in a state of being inclined upwardly, and a discharge port 14 is formed at one outer peripheral surface of the receiving portion 13. In addition, the nozzle 15 fitted to the receiving part 13 has a rotary cylinder 16 formed at the lower end thereof and is fitted to the inner circumferential surface of the receiving part 13.

On the other hand, the rotating cylinder 16 has a threaded inclined surface 19 formed at the lower end so that the inclined surface 19 opens and closes the discharge port 14 when the nozzle 15 is rotated to the left and right. That is, the upper and lower ends 17 and 18 of the inclined surface 19 are connected to the upper and lower ends 17 and 18 in an inclined manner in the form of a thread in a state coinciding with the upper and lower ends of the discharge port 14. That is, the inclined surface 19 formed on the rotating cylinder 16 is inclined upwardly to the upper portion of the rotating cylinder 16 while rotating in the right direction. Therefore, when the nozzle 15 is rotated in the right direction, the lower end 18 of the inclined surface 19 approaches the lower end of the discharge port 14 so that the discharge port 14 is narrowed. When the nozzle 15 is rotated in the left direction, the upper end 17 is discharged ( The discharge port 14 is widened while being close to the upper portion of the 14).

In addition, the discharge port 14 is composed of an inclined surface 19 of which the upper and lower ends are inclined upward by approximately 45 ° so that the discharge port 14 does not interfere with the discharge port 14 when the steam is discharged.

The present invention configured as described above generates water vapor when the heater 11 is heated in a state in which water is contained in the water tank 10. The steam generated at this time is directed to the nozzle 15 formed at the upper end through the atomization chamber 12. On the other hand, the nozzle 15 has a rotary cylinder 16 formed at a lower end thereof fitted into the receiving unit 13, and the inclined surface 19 formed in the rotary cylinder 16 is in contact with the discharge port 14. Is adjusted. Therefore, while the steam is exhausted into the room through the inclined surface 19 and the discharge port 14, the room is humidified.

On the other hand, the nozzle 15 is rotated to the left and right, the upper and lower ends 17, 18 of the inclined surface 19 is in contact with the upper and lower ends of the discharge port 14, the degree of opening and closing of the discharge port 14 is adjusted. That is, when the nozzle 15 is rotated to the right, the lower end 18 is close to the lower end of the discharge port 14, and thus, the discharge port 14 is narrowed. When the nozzle 15 is rotated to the left and right sides, the upper end 17 is close to the upper part of the discharge port 14. Thus, the discharge port 14 is widened. Therefore, when the amount of water vapor heated by the heater 11 is large, the nozzle 15 is rotated to widen the discharge port 14 so that the water vapor escapes quickly. Also, when the amount of water vapor is small, the nozzle 14 decreases in the discharge port 14. 15) by adjusting the density of the water vapor, it is possible to visually check the water vapor. On the other hand, since the size of the discharge port 14 is adjusted according to the amount of humidification, condensation phenomenon is reduced by eliminating the congestion of water vapor.

As described above, according to the present invention, since the size of the discharge port is controlled according to the amount of water vapor, the density of water vapor is increased and can be confirmed with the naked eye. Also, since the water vapor is not stagnant in the atomization chamber, the amount of water vapor due to condensation is not reduced. It works.

Claims (1)

In the atomization chamber 12 in which the nozzle 15 is installed above the water tank 10 in which the heater 11 is installed, the rotary cylinder 16 at the lower end of the nozzle 15 is provided at the upper end of the atomization chamber 12. Receiving portion 13 is formed to be fitted, the discharge port 14 is formed on one side of the receiving portion 13, the image corresponding to the upper and lower ends of the discharge port 14 on the bottom surface of the rotary cylinder 16 , The lower end portion (17) (18) is provided and the upper, lower portion (17) (18) of the nozzle control device of the heater-type humidifier, characterized in that connected to the threaded inclined surface (19).