CN213480466U - Air humidifier - Google Patents

Abstract

The utility model discloses an air humidifier, which comprises an evaporation type humidifying component, an atomization type humidifying component and a humidifying airflow channel; the evaporative humidifying component is communicated with the atomizing humidifying component and is communicated with the humidifying airflow channel; the evaporative humidifying component is provided with a first pneumatic device; the atomization type humidification component is provided with a water tank, an atomizer, a second pneumatic device and a mist outlet, the atomizer atomizes water in the water tank, and the second pneumatic device accelerates air flow above the water tank to flow; the wind direction of the air outlet and the wind direction of the mist outlet form an included angle and converge airflow at the air guiding-out component of the humidifying airflow channel. This air humidifier utilizes atomizing formula humidification part, with the water atomization graininess of basin, enlarges its area of contact with the air for its evaporation rate, uses evaporation formula humidification part simultaneously, utilizes high-speed air flow to vaporize water particle fast for the air current of deriving the component through the air is the gas of humidification, can spread in the air rapidly, the humidification air.

Description

Air humidifier

Technical Field

The utility model relates to a humidifier technical field especially indicates an air humidifier

Background

The conventional air humidifiers generally adopt two forms of ultrasonic atomization or evaporative atomization to humidify air.

Wherein ultrasonic atomization wide application has conversion efficiency height, need not heating, no consumptive material, energy-conserving effect in the daily humidification product, but because ultrasonic atomization receives the restriction of transducer frequency, the atomized particles is great, can see obvious white fog. In use, there are a number of technical drawbacks. Conventional ultrasonic atomizers, which have a pronounced white fog, atomize large particles, typically consisting of water particles of 3 microns or more. After the water particles come out of the atomizer, the water particles need to be vaporized in the air, so that the real improvement of the air humidity can be achieved. Because the granularity is larger, the vaporization and diffusion speed in the air is limited, thereby causing poor humidity balance, easily causing the humidity around the atomizer to be too large, reaching saturation and forming the problem of secondary condensation.

However, the common evaporative humidifier has obvious technical defects in both a hot mist mode and a cold mist mode. The hot fog type humidifier needs heating evaporation, so that the conversion efficiency is low and the energy consumption is high. Cold fog type humidifier, in order to increase liquid surface area, generally utilize cascade or similar structure increase the area of contact between water and the air to improve the efficiency of evaporation or vaporization, but this kind of mode easily produces the incrustation scale on cascade or similar structure, breeds the bacterium, can make the volume of product be restricted through the mode of increaseing area of contact simultaneously, is unfavorable for the development of product miniaturization.

SUMMERY OF THE UTILITY MODEL

To the technical problem who solves above, the utility model provides a can realize the vaporization to the efficient air humidifier of humidification.

The utility model adopts the technical proposal that: an air humidifier comprises an evaporative humidification component, an atomization humidification component and a humidification airflow channel; the evaporative humidification component and the atomization humidification component are both communicated with the humidification airflow channel; the evaporation type humidifying component is provided with a first pneumatic device, the first pneumatic device is provided with an air outlet, and the air outlet is connected with the humidifying airflow channel; the atomization type humidification component is provided with a water tank, an atomizer, a second pneumatic device and a mist outlet, the atomizer atomizes water in the water tank, the second pneumatic device accelerates airflow flow of air above the water tank, and the mist outlet is connected with the humidification airflow channel; the humidifying airflow channel is provided with an air guiding component, and the wind direction of the air outlet and the wind direction of the mist outlet form an included angle and converge airflow at the air guiding component.

Further, the air speed of the air outlet is larger than that of the fog outlet.

Furthermore, a heating device is arranged between the first pneumatic device and the air outlet to heat the air.

Further, a guide plate extends from one side of the air outlet close to the mist outlet to the humidifying airflow channel.

Further, the baffle plate extends toward the air outlet member.

Further, a containing cavity is arranged below the water tank, the atomizer is an ultrasonic atomizer and is arranged in the containing cavity to atomize the water in the water tank.

Further, the wind direction of the second pneumatic device is parallel to the surface of the water tank.

Furthermore, an accommodating cavity is arranged below the water tank, the second pneumatic device is arranged in the accommodating cavity, and wind is led out to the surface of the water tank through a second air channel of the second pneumatic device.

Furthermore, the air duct opening of the second air duct is formed in the direction of the side wall far away from the mist outlet, the air of the air duct opening is led out of the side wall, and the air direction of the air duct opening is parallel to the surface of the water tank.

Further, the humidifying air flow channel is a vaporization channel, the air outlet is provided in a plurality, and the mist outlet is provided in a plurality.

Compared with the prior art, the utility model discloses an air humidifier utilizes atomizing formula humidification part, with the water atomization graininess of basin, increaseing its area of contact with the air for its evaporation rate uses evaporation formula humidification part simultaneously, utilizes high-speed air to flow the quick vaporization of water granule for the air current of deriving the component through the air is the gas of humidification, can spread in the air rapidly, the humidification air.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings, there is shown in the drawings,

FIG. 1: the utility model discloses an air humidifier's structural schematic.

Names and designations of parts

Evaporative humidification component 1 casing 21

Inner chamber 22 of the first pneumatic device 11

Side wall 23 of air outlet 12

First air duct 13 water tank 24

Heating device 14 receiving cavity 25

Fog outlet 26 of guide plate 15

Atomizer 27 of atomizing humidification component 2

The second pneumatic means 28 humidifies the air flow channel 3

Second air duct 281 and air guide-out member 31

Air duct opening 282

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

As shown in fig. 1, the air humidifier of the present invention includes an evaporation type humidification component 1, an atomization type humidification component 2, and a humidification airflow channel 3, wherein the evaporation type humidification component 1 and the atomization type humidification component 2 are all communicated with the humidification airflow channel 3. In some embodiments, the evaporative humidification component 1 is disposed above the atomizing humidification component 2, and both the evaporative humidification component 1 and the atomizing humidification component 2 are connected to the humidification air channel 3. The atomizing humidification unit 2 atomizes water in the water tank 24 into particles, and increases the contact area between the particles and air. The evaporative humidification component 1 rapidly vaporizes water particles by high-speed air flow.

As shown in fig. 1, the evaporative humidification component 1 is provided with a first pneumatic device 11, the first pneumatic device 11 is provided with an air outlet 12, and the air outlet 12 is connected with the humidification air channel 3. In some embodiments, a heating device 14 is disposed between the first pneumatic device 11 and the air outlet 12 to heat the air, so as to increase the air pressure difference and heat the air, thereby improving the vaporization efficiency. In some embodiments, as shown in fig. 1, the first pneumatic device 11 is connected to a first air duct 13, the first air duct 13 is an accelerating duct or a high-speed duct, the first air duct 13 is connected to the air outlet 12, the heating device 14 is disposed in the first air duct 13, and the first air duct 13 is configured to stabilize the air pressure and the air flow area at the air outlet 12, so that the vaporization effect is better and stable.

As shown in fig. 1, the atomizing humidification component 2 is provided with a water tank 24, an atomizer 27, a second pneumatic device 28, and a mist outlet 26, the atomizer 27 atomizes water in the water tank 24, the second pneumatic device 28 accelerates air flow above the water tank 24, and the mist outlet 26 is connected to the humidification air flow channel 3. In some embodiments, the atomizing humidification component 2 is provided with a housing 21, a water tank 24 is disposed in the housing 21, an accommodation chamber 25 is disposed below the water tank 24, an inner chamber 22 is disposed above the water tank 24, and the inner chamber 22 is defined by a surface of the water tank 24 and a plurality of side walls 23. The atomizer 27 and the second pneumatic device 28 are disposed in the accommodating chamber 25, and in some embodiments, the atomizer 27 is an ultrasonic atomizer 27 disposed at the bottom of the water tank 24, and the water in the water tank 24 is atomized by the vibration of the ultrasonic atomizer 27. The mist outlet 26 is disposed on a side wall 23 of the inner cavity 22, and in some implementations, the mist outlet 26 is disposed on an upper side wall 23 of the inner cavity 22.

As shown in fig. 1, an air guiding member 31 is disposed on the humidified airflow channel 3, an included angle is formed between the wind direction of the air outlet 12 and the wind direction of the mist outlet 26, and the airflow is collected at the air guiding member 31, and the wind speed at the air outlet 12 is greater than the wind speed at the mist outlet 26, and the collected airflow is vaporized and guided out to the air through the air guiding member 31 to humidify the air. The gathered air flow generates a venturi effect due to the air pressure difference between the air outlet 12 and the mist outlet 26, reduces the air pressure at the mist outlet 26 and in the inner cavity 22, increases the saturation difference, accelerates the vaporization speed, and vaporizes the mist guided out by the mist outlet 26. The arrangement of the air guiding-out component 31 ensures that the gathered air flow can be evaporated and vaporized better, and the vaporization efficiency of the vaporizer is improved.

As shown in fig. 1, the evaporative humidification component 1 further includes a flow guide plate 15 extending from the air outlet 12 to the humidification air flow path 3 near the mist outlet 26, and the flow guide plate 15 extends toward the air outlet member 31. The air flow of the air outlet 12 is prevented from entering the inner cavity 22 through the mist outlet 26 due to pressure difference, so that the vaporization efficiency is prevented from being influenced, and the humidification effect is prevented from being influenced. At the same time, the mist guided out of the mist outlet 26 is guided out to the air guiding member 31, and is sufficiently mixed with the air flow guided out of the air outlet 12 and vaporized.

In some embodiments, as shown in fig. 1, the second pneumatic device 28 is disposed in the inner cavity 22 or at the bottom of the water tank 24, and the wind of the second pneumatic device 28 is guided into the inner cavity 22 to accelerate the airflow in the inner cavity 22, so that the second pneumatic device guides the mist out of the mist outlet 26 to the humidified airflow channel 3. The wind direction of the second pneumatic device 28 can be optionally set according to the requirement, and in some embodiments, the wind direction of the second pneumatic device 28 is parallel to the surface of the water tank 24, so that the airflow in the inner cavity 22 can be better balanced, and the particles of the atomized fog can be more stable.

In some embodiments, as shown in fig. 1, the second pneumatic device 28 is disposed at the bottom of the water tank 24, is disposed in the accommodating chamber 25, and guides the wind out of the surface of the water tank 24 through the second wind duct 281 of the second pneumatic device 28. In some embodiments, the air duct opening 282 of the second air duct 281 opens in a direction away from the side wall 23 of the mist outlet 26, the air of the air duct opening 282 is guided out of the side wall 23, and the air direction of the air duct opening 282 is parallel to the surface of the water tank 24. The wind of wind channel mouth 282 toward derive on lateral wall 23, by lateral wall 23 with the wind direction upward and to the opposite direction diffusion of deriving for wind is fully diffused in inner chamber 22, accelerates the air current in inner chamber 22, guarantees the stability of air current simultaneously, ensures that atomizing effect is better, avoids partial fog to produce the secondary and condense or atomizing granule in inner chamber 22 and is constantly increasing.

In some embodiments, the humidification airflow channel 3 is a vaporization channel, and in order to achieve better vaporization, the air outlet 12 is provided in multiple, and the mist outlet 26 is provided in multiple, any combination, to increase the flow of the atomized particles and air, thereby further increasing the vaporization speed.

The working principle of the air humidifier in this embodiment is that the ultrasonic transduction atomizing plate vibrates to generate energy, water is atomized to form 3-10 micron-sized water particle mist beads, the surface area of liquid is increased, and the second pneumatic device 28 enables atomized particles to reach the mist outlet 26 through the inner cavity 22 and enter the humidifying airflow channel 3. The first pneumatic device 11 forms a single high-speed air channel, the air speed of the air outlet 12 is greater than the air speed of the mist outlet 26, the air flow of the air outlet 12 and the air flow of the mist outlet 26 are converged on the air flow humidifying channel, and the atomized particles guided out of the mist outlet 26 are vaporized by the high-speed air flow of the air outlet 12, so that the converged air flow on the air flow humidifying channel enters the air guiding member 31 to be fully vaporized. The air guided out of the air guiding-out component 31 is vaporized humidified air, and the effects of high humidity and no obvious atomized particles are met, so that the air is quickly humidified.

The air humidifier in the embodiment makes full use of each evaporated element, so that the humidification efficiency is improved best, and meanwhile, no bad effect or consumable material is generated.

Factors that generally affect evaporation are mainly temperature, humidity, liquid surface area and air flow velocity at the liquid surface. Whereas under relatively quiescent conditions, the rate of water evaporation is dependent only on the rate of molecular diffusion, and the rate of evaporation W is described by the following equation:

the above equation is called Dalton's Law and shows that the evaporation rate W is directly proportional to the saturation difference (E-E) and the molecular diffusion coefficient (A) and inversely proportional to the gas pressure (P). The difference between the saturated water vapor pressure (E) and the actual water vapor pressure (E) in the air at a certain temperature is called the saturation difference (d). I.e., d-E, which indicates the degree of saturation of the actual water vapor in the air, is often used in studies of water surface evaporation, and its magnitude indicates the evaporation capacity of water molecules, with larger d, stronger and faster.

In some embodiments, as shown in fig. 1, by using a combination of structures and principles, various factors influencing evaporation are fully utilized, so that the evaporation efficiency is greatly improved.

The atomization part is utilized to increase the surface area of the liquid and accelerate the evaporation speed. Liquid is atomized into liquid particles with the diameter of 3-10 um, so that the surface area of the liquid is increased, the surface area of the atomized particles is increased by about 10000 times compared with the surface area of the liquid surface by taking the diameter of 20cm as an example according to the area of a container of a conventional humidifier and referring to the atomization amount of 700mL/H and the average particle diameter of 5um, the evaporation speed of the liquid is greatly increased, and a powerful condition is created for vaporization.

By using the high-speed air duct (the first air duct 13), the air flow speed on the liquid surface can be increased, and the evaporation speed can be increased. Meanwhile, the air pressure in the mist outlet 26 and the inner cavity 22 is reduced, so that the saturation difference of the humidifying air flow channel is increased, and the vaporization efficiency and the evaporation speed in the humidifying air flow channel are increased.

The heating device 14 increases the temperature in the first air duct 13, so that the temperature in the humidified air flow passage 3 is increased, the evaporation speed in the humidified air flow passage 3 is increased, the mist guided out from the mist outlet 26 is sufficiently vaporized in the humidified air flow passage 3 and the air guiding member 31, and the air flow guided out through the air guiding member 31 is humidified air without obvious atomized particles, and the humidified air can be rapidly diffused and humidified in the air.

Meanwhile, the humidified air flow path 3 is provided with the air guide-out member 31, so that the atomized particles can be fully vaporized in the path, and the purpose that the final air has enough humidity but does not contain excessive water particles is achieved.

The utility model discloses an air humidifier utilizes atomizing formula humidification part 2, with the water atomization graininess of basin 24, increases its area of contact with the air for its evaporation rate uses evaporation formula humidification part 1 simultaneously, utilizes high-speed air to flow the quick vaporization of water granule, makes the air current of deriving the component 31 through the air be the gas of humidification, can spread in the air rapidly, the humidification air. Meanwhile, the air humidifier is high in humidifying speed, the air humidity balance of the humidification is good, secondary condensation cannot occur, and the comfort of people is stronger. In addition, the air humidifier is simple in structure, easy to develop in a miniaturized mode, low in power consumption and low in cost, is an environment-friendly and economical product, and meets the requirements of the public.

As long as the idea created by the present invention is not violated, various different embodiments of the present invention can be arbitrarily combined, and all the embodiments should be regarded as the content disclosed by the present invention; the utility model discloses an in the technical conception scope, carry out multiple simple variant and different embodiments to technical scheme and go on not violating the utility model discloses the arbitrary combination of the thought of creation all should be within the protection scope.

Claims (10)

1. An air humidifier is characterized by comprising

The device comprises an evaporative humidifying component, an atomizing humidifying component and a humidifying airflow channel; the evaporative humidification component and the atomization humidification component are both communicated with the humidification airflow channel;

the evaporation type humidifying component is provided with a first pneumatic device, the first pneumatic device is provided with an air outlet, and the air outlet is connected with the humidifying airflow channel;

the atomization type humidification component is provided with a water tank, an atomizer, a second pneumatic device and a mist outlet, the atomizer atomizes water in the water tank, the second pneumatic device accelerates airflow flow of air above the water tank, and the mist outlet is connected with the humidification airflow channel;

the humidifying airflow channel is provided with an air guiding component, and the wind direction of the air outlet and the wind direction of the mist outlet form an included angle and converge airflow at the air guiding component.

2. An air humidifier according to claim 1, wherein: the air speed of the air outlet is larger than that of the fog outlet.

3. An air humidifier according to claim 1, wherein: and a heating device is arranged between the first pneumatic device and the air outlet to heat the air.

4. An air humidifier according to claim 1, wherein: the air outlet is close to one side of the mist outlet and extends to the humidifying airflow channel to form a guide plate.

5. An air humidifier according to claim 4, wherein: the deflector extends in the direction of the air outlet member.

6. An air humidifier according to claim 1, wherein: the basin below is equipped with the holding chamber, the atomizer is the ultrasonic atomization ware, locates the holding intracavity be used for with the water of basin atomizes.

7. An air humidifier according to claim 1, wherein: the wind direction of the second wind-driven device is parallel to the surface of the water tank.

8. An air humidifier according to claim 1, wherein: and an accommodating cavity is arranged below the water tank, and the second pneumatic device is arranged in the accommodating cavity and guides wind to the surface of the water tank through a second air duct of the second pneumatic device.

9. An air humidifier according to claim 8, wherein: the air duct opening of the second air duct is formed in the direction of the side wall far away from the fog outlet, and air at the air duct opening is led out of the side wall.

10. An air humidifier according to claim 1, wherein: the humidifying airflow channel is a vaporization channel, the air outlet is provided with a plurality of air outlets, and the mist outlet is provided with a plurality of mist outlets.

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