Atomizing humidifier
Technical Field
The utility model relates to a humidifier technical field, concretely relates to atomizing humidifier.
Background
Along with the development of economy and the improvement of the living standard of people, the requirements of people on the quality of life and health are higher and higher, so that the humidifier gradually becomes a necessary product for most families, the humidifier can increase the humidity of air in a space, the problems caused by dry environment are solved, and the skin is kept moist.
The existing humidifier is, for example, 201920277632.0 named as an easily cleaned humidifier, water in a water tank is atomized after being subjected to high-frequency oscillation through an atomization device, and atomized water mist is naturally diffused into air through a mist outlet barrel arranged above the atomizer, so that the air is humidified, and the purposes of humidifying and refreshing the air are achieved. The humidifier with the structure has the advantages that the water mist diffusing efficiency is low, the height of the mist is not ideal enough, and the water mist is easy to condense in the mist guide column due to the low mist outlet speed, so that the humidifying effect of the humidifier is greatly reduced.
Some humidifiers adopt a direct evaporation type humidifying structure, namely, a part of a humidifying filter screen with water absorbability and air permeability is soaked in water, the filter screen self-absorbs water to realize permeation humidification, and after air passes through the filter screen soaked by the water, water in the filter screen is evaporated, so that the humidified air is naturally diffused to achieve the humidification purpose. In the humidification mode, the water absorption speed of the filter screen is low, so that the humidification effect of the humidifier is poor, and the water evaporation speed and the diffusion speed of the humidified air of the filter screen are low, so that the humidification efficiency of the humidifier is not ideal. Meanwhile, because the water absorption speed of the filter screen is generally low, water is diffused from the soaked part of the filter screen to the un-soaked part only through the water absorption of the filter screen, the situation that the un-soaked part cannot be fully wetted often easily occurs, the filter screen cannot be ensured to be uniformly wetted, and the humidifying effect of the humidifier is poor.
Therefore, how to further improve the humidification efficiency and the humidification effect of the humidifier is a problem to be urgently solved by those skilled in the art.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an atomizing humidifier that humidification is effectual, humidification is efficient.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
an atomization humidifier comprises a humidifier body, a fan assembly, a humidification assembly, a water tank assembly and a purification assembly;
the machine body is provided with an air flow channel, and the side edge of the machine body is provided with an air inlet;
the fan assembly is arranged in the airflow channel and used for generating negative pressure and humidifying airflow after passing through the humidifying assembly;
the humidifying component comprises a water storage tank and a moisture absorption barrel, the water storage tank is arranged in the airflow channel of the machine body, and the moisture absorption barrel is arranged in the water storage tank and used for absorbing water in the water storage tank to keep moist;
the water tank assembly comprises a water storage tank, and the water storage tank supplies water to the water storage seat and the water storage tank;
the purifying assembly is arranged at the air inlet of the machine body, and external air enters the water storage tank after being filtered by the purifying assembly.
Preferably, the humidifying assembly further comprises a driving source, the moisture absorption cylinder is arranged along the length direction of the water storage tank, and the driving source is used for driving the moisture absorption cylinder to rotate relative to the water storage tank, so that the moisture absorption cylinder is uniformly contacted with the water in the water storage tank to keep moist.
Preferably, a moisture absorption section of thick bamboo includes rotary drum, filter core and transmission portion, the rotary drum transversely is arranged in the cistern, the filter core is the tube-shape, and the cover is located in the rotary drum, the one end of rotary drum is provided with transmission portion, the driving source includes mount pad, driving piece and driving medium, the mount pad set firmly in the lateral wall of fuselage, the driving piece set firmly in the mount pad, the transmission is connected between driving medium and the transmission portion, the driving piece passes through the driving medium drives the rotary drum rotates.
Preferably, the humidifying assembly further comprises a water drawing structure, the water drawing structure is arranged on the rotary drum in the circumferential direction of the filter element, and the water drawing structure draws water in the water storage tank along with the rotation of the rotary drum to humidify the filter element.
Preferably, the water drawing structure comprises a plurality of water drawing parts distributed around the circumference of the rotary drum, each water drawing part is provided with a water containing cavity, an opening of each water containing cavity faces the rotation direction of the rotary drum, a water outlet is formed in one side, close to the filter element, of each water containing cavity, a water diversion part is arranged in each water containing cavity, and after the water containing cavities draw water, the water diverted by the water diversion parts is guided to the filter elements from the water outlets for humidification.
Preferably, the side edges of the rotary drum at two ends of the filter element are respectively provided with the water drawing structures, the water drawing structures further comprise a ring body, the ring body is sleeved on the side edge of the rotary drum at the filter element, and the water drawing parts of the two water drawing structures are distributed in the circumferential direction of the ring body at equal angles.
Preferably, the fuselage includes base, upper bracket and collateral branch seat, the top of base is provided with upper bracket, both sides are provided with the water storage seat respectively with the collateral branch seat, the side of base is provided with first fog outlet, be provided with in the upper bracket airflow channel, airflow channel is linked together with first fog outlet, be equipped with on the collateral branch seat the air inlet, be equipped with the ascending water storage chamber of opening on the water storage seat, the water tank subassembly is located in the water storage chamber.
Preferably, the water tank subassembly still includes atomizer and pneumatic component, be provided with out the fog passageway in the water storage tank, it is linked together with airflow channel to go out the fog passageway, the atomizer set up in the water storage seat, fog by go out fog passageway and first fog outlet discharge to airflow channel, the bottom of water storage tank be provided with the delivery port respectively with go out the fog passageway, be provided with the outlet valve in the delivery port, pneumatic component set up in the bottom of water storage seat, and be located the below of fog passageway, the pneumatic component with fog by it discharges to go out the fog passageway airflow channel.
Preferably, the bottom of the water storage cavity extends upwards to form a guide column of a hollow structure, an air outlet is formed in the upper end of the guide column, the guide column extends into the mist outlet channel, and the air moving piece is located below the guide column to blow mist in the mist outlet channel to the first mist outlet.
Preferably, the fog outlet channel comprises a first drainage cavity, a second fog outlet and a third drainage cavity, the first drainage cavity is communicated with the second drainage cavity, the second drainage cavity is located right above the atomizer, the second fog outlet is arranged at the upper end of the second drainage cavity, the second fog outlet is communicated with the first fog outlet, the flow guide column extends into the first drainage cavity, the third drainage cavity is arranged on the inner side of the second drainage cavity, the third drainage cavity is communicated with the first drainage cavity, and the first drainage cavity, the second drainage cavity and the third drainage cavity are of hollow structures with downward openings.
After the technical scheme is adopted, compared with the background art, the utility model, have following advantage:
1. the utility model discloses well moisture absorption section of thick bamboo is fully moist by the water of water storage box, and the air through the purification produces the negative pressure by the fan subassembly that is arranged in airflow channel behind the moisture absorption section of thick bamboo humidification and discharges to airflow channel, and airflow channel through the negative pressure discharges the air of humidification, and this kind of mode, the air of humidification not only can be faster, more high effluvium, can carry out the humidification to the environment fully moreover, has improved the humidification efficiency and the humidification effect of humidifier.
2. The utility model discloses well air is by the back row of humidification subassembly humidification to airflow channel, and the atomizer becomes behind the fog with water atomization component and is arranged fog to airflow channel by the wind moving piece, produces the negative pressure by the fan subassembly that is arranged in airflow channel again, discharges the air of fog and humidification together, fog and moisture can be faster like this, scatter more highly, and can carry out the humidification to the environment fully, have further improved the humidification efficiency and the humidification effect of humidifier.
3. The utility model discloses be provided with in the side of filter core at the rotary drum and draw the water structure, draw the water structure and draw the water in the cistern along with the rotation of rotary drum, further humidification is carried out to the filter core through the water that draws for the filter core can obtain more even wet thoroughly, and then has improved the humidification effect of humidifier further.
4. The utility model discloses after the water storage seat of fuselage was arranged in to well storage water tank, not only can provide the water of atomizing usefulness for the atomizer, but also can provide the water that the humidification was used for the inner filter core of water storage box, simplified the structure of humidifier complete machine, be favorable to the miniaturization of humidifier.
Drawings
FIG. 1 is a perspective view of an embodiment I;
FIG. 2 is a cross-sectional view of an embodiment;
FIG. 3 is an exploded view of an embodiment;
FIG. 4 is a second exploded view of the first embodiment (with the fuselage shell removed);
FIG. 5 is a schematic view of a structure implementing a fuselage (with the fuselage skin removed);
FIG. 6 is an exploded view of a fan assembly embodying one embodiment;
FIG. 7 is a schematic diagram of a humidifying assembly in an embodiment;
FIG. 8 is an exploded view of a humidifying assembly in one embodiment;
FIG. 9 is a schematic view of an embodiment of an absorbent cartridge;
FIG. 10 is an exploded view of an embodiment of an absorbent cartridge;
FIG. 11 is a schematic diagram of a water drawing structure;
FIG. 12 is an enlarged view of a portion of FIG. 11 at A;
FIG. 13 is a sectional view of the second embodiment;
FIG. 14 is an exploded view of the second embodiment;
FIG. 15 is a second exploded view (with the fuselage shell removed) of the second embodiment;
FIG. 16 is a schematic view of the structure of the second embodiment (with the fuselage shell removed);
FIG. 17 is a schematic view of a water tank assembly according to the second embodiment;
FIG. 18 is an exploded view of the water tank assembly embodying the second embodiment;
FIG. 19 is a sectional view of a water storage tank in the second embodiment.
Description of reference numerals:
the main body 100, the base 110, the first mist outlet 111, the upper support 120, the side support 130, the air inlet 131, the water storage seat 140, the water storage cavity 141, the flow guiding column 142, and the air outlet 1421;
the fan assembly 200, the mounting frame 210, the negative pressure motor 220 and the axial flow fan blade 230;
the humidifying device comprises a humidifying component 300, a water storage tank 310, a tank body 311, a tank cover 312, a water inlet valve 313, an air guide port 3121, a moisture absorption cylinder 320, a rotary drum 321, a filter element 322, a transmission part 323, a driving source 330, a mounting seat 331, a driving part 332, a transmission part 333, a water drawing structure 340, a water drawing part 341, a water containing cavity 3411, a water outlet 3412, a water drawing part 3413 and a ring body 342;
the water tank assembly 400, the water storage tank 410, the water outlet 411, the first drainage cavity 4121, the second drainage cavity 4122, the second mist outlet 4123, the third drainage cavity 4124, the atomizer 420 and the pneumatic element 430;
the purge assembly 500.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
In the present invention, it should be noted that the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are all based on the orientation or position relationship shown in the drawings, and are only for convenience of description and simplification of the present invention, but do not indicate or imply that the device or element of the present invention must have a specific orientation, and thus, should not be construed as limiting the present invention.
Example one
As shown in fig. 1 and 2, the present embodiment discloses an atomizing humidifier, which includes a body 100, a fan assembly 200, a humidifying assembly 300, a water tank assembly 400, and a purifying assembly 500.
As shown in fig. 2 to 6, the main body 100 has an air flow passage, and an air inlet 131 is disposed at a side of the main body 100. The body 100 includes a base 110, an upper support 120 and a side support 130, the top of the base 110 is provided with the upper support 120, two sides of the base are respectively provided with the side support 130 and a water storage seat 140, an air flow passage is provided in the upper support 120, an air inlet 131 is provided on the side support 130, a water storage cavity 141 with an upward opening is provided on the water storage seat 140, the water tank assembly 400 includes a water storage tank 410, and the water storage tank 410 is provided in the water storage cavity 141 and supplies water for the water storage seat 140 and the humidifying assembly 300.
Fan subassembly 200 sets up in airflow channel for produce the negative pressure, and make the air current humidification behind humidification subassembly 300, fan subassembly 200 includes mounting bracket 210, negative pressure motor 220 and axial compressor fan blade 230, and mounting bracket 210 sets firmly in the top of upper bracket 120, and negative pressure motor 220 sets firmly in the bottom of mounting bracket 210, and axial compressor fan blade 230 is arranged in airflow channel, and is driven by negative pressure motor 220.
As shown in fig. 2 to 5, 7 and 8, the humidifying assembly 300 includes a water storage tank 310 and a moisture absorption tube 320, the water storage tank 310 is disposed in the airflow channel of the body 100, the water storage tank 310 includes a tank 311 and a tank cover 312, the tank 311 is a hollow structure with an open top, a water inlet valve 313 is disposed on a side surface of the tank 311, water in the water storage base 140 can flow into the tank 311 by controlling opening and closing of the water inlet valve 313, the tank cover 312 is disposed on the top of the tank 311, the tank cover 312 is provided with an air guide port 3121, and the air guide port 3121 is communicated with the airflow channel.
The moisture absorption cylinder 320 is disposed in the water storage tank 310 for absorbing water in the water storage tank 310 to keep the water wet, and in this embodiment, the moisture absorption cylinder 320 is disposed along the length direction of the water storage tank 310, so that the contact surface between the moisture absorption cylinder 320 and the water in the water storage tank 310 is larger. The humidifying assembly 300 further comprises a driving source 330, wherein the driving source 330 is used for driving the moisture absorption cylinder 320 to rotate relative to the water storage tank 310, so that the moisture absorption cylinder 320 is uniformly contacted with the water in the water storage tank 310 to keep the moisture.
The moisture absorption barrel 320 comprises a rotating barrel 321, a filter element 322 and a transmission part 323, the rotating barrel 321 is transversely arranged in the water storage tank 310, the filter element 322 is cylindrical and is sleeved in the rotating barrel 321, the transmission part 323 is arranged at one end of the rotating barrel 321, the driving source 330 comprises a mounting seat 331, a driving part 332 and a transmission part 333, the mounting seat 331 is fixedly arranged on the side wall of the machine body 100, the driving part 332 is fixedly arranged in the mounting seat 331, the transmission part 333 is in transmission connection with the transmission part 323, and the driving part 332 drives the rotating barrel 321 to rotate through the transmission part 333. In this embodiment, the transmission part 323 and the transmission member 333 adopt mutually matched gear structures, and the driving member 332 adopts a motor, but of course, other transmission structures, such as belt transmission, may also be adopted between the transmission part 323 and the transmission member 333, as long as the transmission connection between the two can be realized, and the invention is not limited herein.
As shown in fig. 2, 8 to 12, the humidifying assembly 300 further includes a water drawing structure 340, the rotating drum 321 is provided with the water drawing structure 340 in the circumferential direction of the filter element 322, and the water drawing structure 340 draws water in the water storage tank 310 along with the rotation of the rotating drum 321 to humidify the filter element 322. The water drawing structure 340 includes a plurality of water drawing portions 341 distributed around the circumference of the rotary drum 321, the water drawing portion 341 has a water containing cavity 3411, an opening of the water containing cavity 3411 faces the rotation direction of the rotary drum 321, one side of the water containing cavity 3411 close to the filter element 322 is provided with a water outlet 3412, a water drawing portion 3413 arranged obliquely is formed in the water containing cavity 3411, an inclined surface of the water drawing portion 3413 faces the water outlet 3412, and after the water containing cavity 3411 draws water along with the rotation of the rotary drum 321, the water drawing portion 3413 draws the poured water from the water outlet 3412 to the filter element 322 for humidification.
The water drawing structure 340 further includes a ring body 342, the ring body 342 is sleeved on the side of the filter element 322 of the rotary drum 321, a plurality of water drawing portions 341 are arranged along the circumferential direction of the ring body 342, and the filter element 322 is humidified by the water drawing portions 341, so that the humidification uniformity of the filter element 322 is further improved.
In this embodiment, the sides of the rotary drum 321 at the two ends of the filter element 322 are respectively provided with a water drawing structure 340, the water drawing structure 340 further includes a ring body 342, the ring body 342 is sleeved on the side of the rotary drum 321 on the filter element 322, and the water drawing portions 341 of the two water drawing structures 340 are equiangularly distributed in the circumferential direction of the ring body 342. The water drawn by the water drawing structure 340 further humidifies the filter element 322, so that the filter element 322 can be more uniformly wetted, and the humidifying effect of the humidifier is improved.
Example two
As shown in fig. 1, 5, and 13 to 19, in the atomizing humidifier disclosed in this embodiment, the water tank assembly 400 further includes an atomizer 420 and an air-moving member 430, the water tank 410 supplies water to the water storage base 140 and the water storage tank 310, the side of the base 110 is provided with the first mist outlet 111, the air flow channel is communicated with the first mist outlet 111, the water storage tank 410 is provided with a mist outlet channel, the mist outlet channel is communicated with the first mist outlet 111, and the atomizer 420 is disposed in the water storage base 140 and is used for atomizing the water in the water storage base 140 into mist and then discharging the mist to the air flow channel through the mist outlet channel. The bottom of the water storage tank 410 is provided with a water outlet 411 and a mist outlet channel, the water outlet 411 is provided with a water outlet valve (not shown in the figure), and water in the water storage tank 410 can flow out to the water storage cavity 141 by controlling the water outlet valve. The atomizer 420 is disposed in the water storage cavity 141, the pneumatic member 430 is disposed at the bottom of the water storage base 140 and below the mist outlet channel, the pneumatic member 430 discharges the mist from the mist outlet channel to the airflow channel, in this embodiment, the atomizer 420 may be assembled by purchasing common components on the market, and the pneumatic member 430 is a centrifugal fan.
After the atomizer 420 atomizes water into mist, the air-operated part 430 discharges the mist to the air flow channel, and the fan assembly 200 positioned in the air flow channel generates negative pressure to discharge the mist.
The bottom of the water storage cavity 141 extends upward to form a hollow flow guiding column 142, an air outlet 1421 is disposed at the upper end of the flow guiding column 142, the flow guiding column 142 extends into the mist outlet channel, and the wind-driven member 430 is located below the flow guiding column 142 to blow the mist in the mist outlet channel to the first mist outlet 111.
The fog outlet channel comprises a first drainage cavity 4121, a second drainage cavity 4122, a second fog outlet 4123 and a third drainage cavity 4124, the first drainage cavity 4121 and the second drainage cavity 4122 are communicated with each other, the second drainage cavity 4122 is located right above the atomizer 420, the second fog outlet 4123 is arranged at the upper end of the second drainage cavity 4122, the second fog outlet 4123 is communicated with the first fog outlet 111, the flow guide column 142 extends into the first drainage cavity 4121, the third drainage cavity 4124 is arranged on the inner side of the second drainage cavity 4122, the third drainage cavity 4124 is communicated with the first drainage cavity 4121, and the first drainage cavity 4121, the second drainage cavity 4122 and the third drainage cavity 4124 are of a hollow structure with downward openings.
Wind power generated by the wind-driven piece 430 firstly enters the first drainage cavity 4121 and the third drainage cavity 4124 to the water storage cavity 141 through the diversion column 142, and then turns back to enter the second drainage cavity 4122, atomized water mist is blown to the second mist outlet 4123 from the second drainage cavity 4122 and is discharged to an air flow channel.
The purification assembly 500 is disposed at the air inlet 131 of the body 100, and the external air is filtered by the purification assembly 500 and then enters the water storage tank 310, in this embodiment, the purification assembly 500 employs a high-efficiency filter screen for filtering impurities from the external air entering the water storage tank 310.
As shown in fig. 1 to 19, the working principle of the present embodiment is as follows:
when the humidifying assembly 300 is in operation, the lower half portion of the filter element 322 is wetted by water in the water storage tank 310, and the rotary drum 321 is driven by the driving member 332 to rotate slowly, so that the whole humidifying surface of the filter element 322 can be in uniform contact with the water in the water storage tank 310, and the filter element 322 can fully absorb the water in the water storage tank 310 after rotating. Meanwhile, the water drawing structure 340 can draw a part of water after rotating with the drum 321 into the water in the water storage tank 310, and then the drawn water is guided to the filter element 322 to be humidified when the drum 321 gradually rotates and rises. Therefore, through the continuous rotation of the rotating cylinder 321, after the air filtered by the purifying assembly 500 enters the water storage tank 310, the water in the water storage tank 310 is continuously taken out by the filter element 322 and the water drawing structure 340, and thus, through the continuous rotation of the moisture absorbing cylinder 320, the water in the water storage tank 310 is continuously taken out, and the purpose of air humidification is achieved.
When the water tank assembly 400 is in operation, the water outlet valve of the water outlet 411 of the water storage tank 410 is opened to add water into the water storage seat 140, then the atomizer 420 is operated to atomize the water into mist, the mist enters the mist outlet channel, and the pneumatic element 430 discharges the mist from the mist outlet channel to the airflow channel.
When the fan assembly 200 works, negative pressure is formed in the air flow channel, air is humidified by the humidifying assembly 300 and then is discharged to the air flow channel, the atomizer 420 atomizes water into mist, the mist is discharged to the air flow channel by the pneumatic element 430, and the mist and the humidified air are discharged upwards together under the action of the negative pressure.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.