JP3198431U - Air duct structure of ultrasonic humidifier - Google Patents

Abstract

To provide an air duct structure of an ultrasonic humidifier that has a simple structure, can be loaded with more water, further prevents backflow of water and does not affect the humidification effect. SOLUTION: An air humidifier structure of an ultrasonic humidifier provided with a storage chamber 10 in which water is mounted in the middle upper part of a humidifier casing 1, and is combined with a fan located at the bottom of the humidifier casing in the storage chamber. One independent ventilation groove 2 to be used is installed. An air suction port located outside the accommodation chamber is provided at the lower end of the independent ventilation groove, and an air exhaust port located inside the accommodation chamber is provided above the independent ventilation groove. The exhaust port is disposed at a position close to the upper portion of the storage chamber, and the opening portion of the upper portion of the storage chamber is covered with the exhaust cover 100. [Selection] Figure 3

Description

  The present invention relates to an ultrasonic humidifier, and more particularly to an air duct structure used in an ultrasonic humidifier.

  As is well known, existing ultrasonic humidifiers generate ultrasonic waves mainly using an ultrasonic vibrator, and atomize the water in the storage chamber into water vapor. Subsequently, by applying wind with a fan installed inside the ultrasonic humidifier, the water vapor is diffused into the air to humidify the air.

  Most existing ultrasonic humidifiers have drawbacks in the air duct structure. The horizontal height of the water level surface of the storage chamber and the horizontal height of the air duct outlet are basically the same. When the storage chamber is filled with water, (1) water tends to flow back to the air duct. (2) Since the wind of the air duct cannot be blown out, the atomized water vapor cannot be diffused in the air. Thereby, the air cannot be humidified, which affects the humidification effect of the ultrasonic humidifier. In order to solve the above problems, the object of the present invention is to provide a ventilation duct structure that is simple in structure, can be loaded with more water in an ultrasonic humidifier, and does not affect the humidifying effect of the ultrasonic humidifier. Is to provide.

  In the present invention, the technical proposals adopted to solve the technical problem are as follows.

  The air duct structure used for the ultrasonic humidifier includes a humidifier casing, and a housing chamber for mounting water is provided in the upper part of the humidifier casing. One independent ventilation groove used in combination with a fan located at the bottom of the humidifier housing is installed in the housing chamber. An air suction port located outside the accommodation chamber is provided at the lower end of the independent ventilation groove, and an air exhaust port located inside the accommodation chamber is provided above the independent ventilation groove. The exhaust port is located in the vicinity of the upper portion of the storage chamber, and the opening portion of the upper portion of the storage chamber is covered with an exhaust cover.

  As a further improvement of the above technical solution, the following configuration is preferable. That is, an upper cap that covers the exhaust port portion is further installed in the storage chamber. The upper surface of the upper cap is lifted up, and a covering groove is formed into which the portion of the upper part of the independent ventilation groove provided with the air exhaust port can be inserted, and the upper cap is positioned on one end side of the covering groove. One recess is formed with the upper surface of the cap recessed below. One connection through hole through which the guide frame in the housing chamber can pass is provided at the bottom of the recess, and further, a vent hole through which gas can pass through is provided in the side wall of the recess. . The vent hole and the exhaust cover that covers the upper opening portion of the storage chamber communicate with each other, and the horizontal height of the exhaust port is equal to or higher than the horizontal height of the end surface of the upper cap.

  As a further improvement of the above technical solution, it is preferable that the outer peripheral edge of the upper cap and the inner wall of the receiving chamber are in contact with each other.

  Moreover, it is also preferable that the said recessed part is located in the part of the center position of an upper cap.

  It is further preferable that the covering groove is provided at a position close to the periphery of the upper cap.

  The beneficial effects of the present invention are as follows. In the present invention, since an independent ventilation groove is installed in the storage chamber, and an exhaust port close to the upper portion of the storage chamber is provided above the independent ventilation groove, the ultrasonic humidifier of the present invention carries more water. can do. The surface of the water should be lower than the position of the air outlet, and when the air current blows out from the air outlet, it can be blown out from the exhaust cover together with the water vapor atomized in the storage chamber, guaranteeing the humidifying effect of the ultrasonic humidifier of the present invention To do. In addition, an upper cap is further installed in the accommodation chamber, and the upper cap is provided with a coating groove and a recess. Since the vent hole is provided on the side wall of the recess, the wind blown into the independent ventilation groove can pass through the vent hole, and then the atomized water vapor is diffused in the air, and the air is further humidified. . Since the horizontal height of the exhaust port is equal to or higher than the horizontal height of the end face of the upper cap, when the accommodation chamber is filled with water, the water level is at most equal to the horizontal height of the end face of the upper cap. Therefore, the horizontal height of the water level is not higher than the horizontal height of the exhaust port, and at this time, water does not flow back into the independent ventilation groove. The wind generated during the operation of the fan can enter the accommodating chamber through the exhaust port of the independent ventilation groove, and then blows out from the vent hole portion on the side wall of the recess. Thereby, the water vapor | steam after atomization can be spread | diffused in the air, and the humidification effect of an ultrasonic humidifier is ensured.

FIG. 1 is a schematic diagram of an external structure of an ultrasonic humidifier that employs an air duct structure of the present invention. FIG. 2 is a schematic diagram of an exploded structure of an ultrasonic humidifier employing the air duct structure of the present invention. FIG. 3 is a schematic diagram of the internal structure of an ultrasonic humidifier employing the air duct structure of the present invention. 4 is a cross-sectional view taken along line AA in FIG. FIG. 5 is a schematic structural view of a humidifier housing in the present invention. FIG. 6 is a schematic structural view of the humidifier housing according to the present invention as seen from another angle. FIG. 7 is a schematic structural view of the upper cap in the present invention. FIG. 8 is a schematic structural view of the upper cap as seen from another angle in the present invention. FIG. 9 is an enlarged schematic diagram of a portion B in FIG.

  Hereinafter, the present invention will be described in more detail based on drawings and specific embodiments for carrying out the invention.

  Please refer to FIG. 1 to FIG. The air duct structure used for the ultrasonic humidifier includes a humidifier housing 1, and a housing chamber 10 in which water is mounted is provided in the upper portion of the humidifier housing 1. One independent ventilation groove 2 used in combination with a fan located at the bottom of the humidifier housing 1 is installed in the storage chamber 10. Here, the independent ventilation groove 2 refers to the independent ventilation groove 2 that can separate the water in the storage chamber 10 from the air in the independent ventilation groove 2. At the lower end of the independent ventilation groove 2, an air suction port 20 located outside the accommodation chamber 10 is provided, and at the upper part of the independent ventilation groove 2, an air exhaust port 21 located inside the accommodation chamber 10 is provided. . The exhaust port 21 is located near the upper portion of the storage chamber 10, and the opening portion of the upper portion of the storage chamber 10 is covered with an exhaust cover 100. In the present embodiment, the independent ventilation groove 2 is installed in the storage chamber 10, and the air exhaust port 21 close to the upper portion of the storage chamber 10 is provided in the upper part of the independent ventilation groove 2. Can carry more water. It is sufficient that the water surface is lower than the position of the air outlet 21, and when the air current blows out from the air outlet 21, it can be blown out from the exhaust cover 100 together with the water vapor atomized in the accommodation chamber 10, and the ultrasonic humidifier of this embodiment. Guarantee the humidification effect.

  And the upper cap 3 which covers the said air exhaust port 21 part is further installed in the said accommodation chamber 10. FIG. A covering groove 30 is formed in which the bottom surface of the upper cap 3 is lifted up, and the upper part of the independent ventilation groove 2 provided with the air exhaust port 21 can be inserted into the inside. Further, the covering groove 30 is formed. One indented portion 31 is formed in which the upper surface of the upper cap 3 located on one end side is recessed downward. One connection through hole 310 through which the guide frame in the storage chamber 10 can pass is provided at the bottom of the recess 31, and a vent hole 311 through which gas can pass through the side wall of the recess 31 is provided. It has been. The vent hole 311 and the exhaust cover 100 that covers the opening at the top of the accommodation chamber 10 communicate with each other. The horizontal height of the exhaust port 21 is equal to or higher than the horizontal height of the end surface of the upper cap 3, and preferably the horizontal height of the exhaust port 21 is higher than the horizontal height of the end surface of the upper cap 3. The upper cap 3 installed in the storage chamber 10 is provided with a covering groove 30 and a recessed portion 31. Since the vent hole 311 is provided on the side wall of the indented portion 31, the wind blown into the independent vent groove 2 can pass through the vent hole 311 and then diffuses the atomized water vapor into the air. Humidify the air. Since the horizontal height of the exhaust port 21 is equal to or higher than the horizontal height of the end face of the upper cap 3, when the accommodation chamber 10 is filled with water, the height of the water level is at most equal to the end face of the upper cap 3. . Therefore, the horizontal height of the water level is not higher than the horizontal height of the air outlet 21, and at this time, water does not flow back into the independent ventilation groove 2. The wind generated during the operation of the fan can enter the housing chamber 10 through the exhaust port 21 of the independent ventilation groove 2, and then blows out from the vent 311 portion on the side wall of the recess 31, and further fog The vaporized water vapor is diffused in the air to ensure the humidifying effect of the ultrasonic humidifier.

  Furthermore, in order to prevent the wind blown out from the air exhaust port 21 from being blown out from the gap between the upper cap 3 and the inner wall of the storage chamber 10, the outer periphery of the upper cap 3 and the storage chamber 10 are preferably used. The inner wall of the touch. With this structure, the wind blown out from the exhaust outlet 21 can be intensively blown out from the vent 311, thereby diffusing the atomized water vapor into the air better, and the humidifying effect of the ultrasonic humidifier can be improved. Guarantee.

  Further, in order to make the production and processing of the upper cap 3 convenient, the recessed portion 31 is preferably located at the central position of the upper cap 3. More preferably, the covering groove 30 is provided in a portion near the periphery of the upper cap 3. Correspondingly, the independent ventilation groove 2 is also installed at a position close to the side wall of the storage chamber 10. With the above installation, the air duct structure of the present embodiment can be made rational without any waste.

  The above description is only a preferred embodiment of the present invention. Any technical scheme that achieves the object of the present invention by basically the same means belongs to the technical scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Humidifier housing | casing 2 Independent ventilation groove 3 Upper cap 10 Accommodating chamber 31 Recessed part 100 Exhaust cover 311 Ventilation hole

Claims (5)

  An air duct structure for an ultrasonic humidifier, which includes a humidifier housing (1) and includes a housing chamber (10) for mounting water in the middle upper portion of the humidifier housing (1), wherein the housing chamber (10 ) Is provided with one independent ventilation groove (2) to be used in combination with the fan located at the bottom of the humidifier housing (1), and at the lower end of the independent ventilation groove (2), the storage chamber (10) An air suction port (20) located outside is provided, and an air exhaust port (21) located inside the accommodation chamber (10) is provided above the independent ventilation groove (2), and the air exhaust port (21) is located in the accommodation chamber ( 10) An air duct structure for an ultrasonic humidifier, wherein the air duct structure is located in a position close to the upper portion, and the opening portion of the upper portion of the accommodation chamber (10) is covered with an exhaust cover (100).   In the storage chamber (10), an upper cap (3) covering the portion of the air exhaust port (21) is further installed, the bottom surface of the upper cap (3) is lifted upward, and the air exhaust port (21) is provided. Further, the upper surface of the upper cap (3) is formed with a covering groove (30) into which the upper portion of the independent ventilation groove (2) can be inserted, and further positioned on one end side of the covering groove (30). One recess (31) that is recessed below is formed, and one connection through hole (310) that allows the guide frame in the storage chamber (10) to pass therethrough is formed at the bottom of the recess (31). Further, a vent hole (311) through which air can pass is provided in the side wall of the recess (31), and an exhaust cover (100) covering the vent hole (311) and the upper opening portion of the accommodation chamber (10). What is The air duct of an ultrasonic humidifier according to claim 1, characterized in that the horizontal height of the exhaust port (21) is equal to or greater than the horizontal height of the end face of the upper cap (3). Construction.   The air duct structure of an ultrasonic humidifier according to claim 2, wherein the outer peripheral edge of the upper cap (3) and the inner wall of the accommodation chamber (10) are in contact with each other.   The air duct structure of an ultrasonic humidifier according to claim 2 or 3, characterized in that the recess (31) is located at a central position of the upper cap (3).   The air duct structure of an ultrasonic humidifier according to claim 4, wherein the covering groove (30) is provided at a position close to the outer peripheral edge of the upper cap (3).

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