CN220038662U - Double-spray type humidifying purifier - Google Patents

Abstract

The utility model discloses a double-spray type humidifying purifier, which comprises a machine main body, a probiotic spraying device and a humidifying sprayer, wherein the probiotic spraying device and the humidifying sprayer are arranged on the machine main body, a bacterial liquid atomizing outlet is arranged on the probiotic spraying device, the machine main body is provided with a probiotic outlet, the bacterial liquid atomizing outlet is communicated with the probiotic outlet through a vertical bacterial liquid atomizing pipeline, the upper part of the bacterial liquid atomizing pipeline is connected with a fan through an air duct, the air duct is obliquely arranged towards the front of the machine main body, the machine main body is provided with a humidifying mist outlet, and the humidifying mist outlet is connected with the spraying opening of the humidifying sprayer through a vertically arranged humidifying atomizing pipeline. The utility model can spray probiotics and spray water mist for humidification, and the sprayed probiotics can perform good purification effect on the environment; can simultaneously carry out atomization humidification and atomization probiotic liquid spraying, and the atomization humidification and the atomization probiotic liquid spraying are not mutually interfered.

Description

Double-spray type humidifying purifier

Technical Field

The utility model relates to the technical field of air purification treatment, in particular to a double-spray type humidifying purifier.

Background

Humidifiers have been widely used by many households as an important product in small household appliances. The existing humidifying and purifying device mainly filters and purifies liquid in the device, but the air contains a plurality of dust and bacteria, so that clean mist sprayed into the air is attracted to the dust and bacteria in the air, and finally the dust and bacteria are gathered together to form polluted water mist which is inhaled by people, and discomfort of the human body is caused.

In the conventional humidification purifier, although water is filtered, pollution exists in the environment, the water enters the air and is easy to combine with the pollutant in the environment, so that polluted water mist is formed, and after the polluted water mist is absorbed by a person, discomfort of a human body is caused.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a double-spray type humidifying purifier.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model provides a two humidification clarifier that spout, including the machine main part, still including setting up probiotic sprinkler and the humidification atomizer in the machine main part, be provided with fungus liquid atomizing export on the probiotic sprinkler, be provided with the probiotic export in the machine main part, fungus liquid atomizing export is through vertical fungus liquid atomizing pipeline and probiotic export intercommunication, fungus liquid atomizing pipeline upper portion is connected with the fan through the wind channel, the wind channel is provided with the humidification fog outlet towards the place ahead slope of machine main part, the machine main part is provided with the humidification fog outlet, the humidification fog outlet is connected with the atomizing mouth of humidification atomizer through the humidification atomizing pipeline of vertical setting.

As described above, the humidification mist outlet and the probiotic outlet are both provided at the top of the machine body, and the probiotic outlet is provided forward with respect to the humidification mist outlet in the front-rear direction of the machine body.

The probiotics spraying device comprises a spraying atomization device and a bacteria liquid box, wherein the spraying atomization device comprises a left shell, an upper shell, a lower shell, a cotton core sleeve, an atomizer, a cotton core, a spring and a PCB board,

the upper shell is buckled on the lower shell, the left shell is arranged on the whole left side of the upper shell and the lower shell, a cotton core sleeve is arranged on the lower shell, a PCB (printed circuit board) is arranged between the upper shell and the lower shell, an atomizer is connected with the PCB, a cotton core is arranged in the cotton core sleeve, a probiotic liquid inlet is formed in the lower side wall of the cotton core sleeve, a spring is arranged in the bottom of the cotton core sleeve, the bottom and the top of the spring are respectively propped against the bottom inner wall of the cotton core sleeve and the bottom elasticity of the cotton core, the top of the cotton core is connected with the atomizer, and a bacterial liquid atomization outlet is formed in the upper shell.

As described above, the fungus liquid box comprises an upper cover and a lower cover, the upper cover is connected with the lower cover, the upper cover is provided with a fungus liquid box socket and a fungus liquid box fixing barb piece, the lower shell is provided with a fungus liquid box fixing port, an atomization assembly fixing hole and a cotton core pipe sleeve connecting port, the fungus liquid box fixing barb piece is connected with the fungus liquid box fixing port in an adapting mode, and the cotton core pipe sleeve is inserted into the fungus liquid box socket.

As described above, the cotton core pipe sleeve connecting port comprises a cotton core channel, a protruding clamping piece and an atomizer supporting end surface, the atomizer supporting end surface is arranged at the inner end of the cotton core channel, the atomizer is arranged on the atomizer supporting end surface, the protruding clamping piece is arranged on the inner wall of the outer end of the cotton core channel, and the top end of the cotton core pipe sleeve is connected with the protruding clamping piece in an adapting way.

As described above, the cotton core sleeve comprises the upper fixing seat of the cotton core sleeve and the cotton core placing pipe, the outer diameter of the upper fixing seat of the cotton core sleeve is matched with the inner diameter of the outer end of the cotton core channel, the side part of the upper fixing seat of the cotton core sleeve is provided with the longitudinal slide, one side of the bottom end of the longitudinal slide is provided with the limiting groove, the limiting protrusion is arranged between the longitudinal slide and the limiting groove, one side of the limiting protrusion, which faces the limiting groove, is a limiting cambered surface, and one side, which faces the longitudinal slide, of the limiting protrusion is a sliding cambered surface.

Compared with the prior art, the utility model has the following beneficial effects:

1. the utility model can spray probiotics and spray water mist for humidification, and the sprayed probiotics can perform good purification effect on the environment;

2. the spraying direction of the atomized probiotic liquid and the spraying direction of the humidified mist are distributed at a certain angle, and the probiotic spray nozzles are sprayed obliquely upwards, so that the humidification and the probiotic spraying are mutually separated, and the atomized probiotic liquid and the atomized probiotic spraying are sprayed well.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the probiotic spraying device.

Fig. 3 is a schematic view of the structure of the spray atomizer.

FIG. 4 is a schematic diagram of the structure of the bacterial liquid cartridge.

Fig. 5 is a schematic view of the bottom surface structure of the lower housing.

Fig. 6 is a schematic top view of the lower housing.

Fig. 7 is a top schematic view of the cotton core sleeve.

Fig. 8 is an overall schematic of the cotton core sleeve.

Fig. 9 is a partial enlarged view at a of fig. 8.

Figure 10 is a cross-sectional view of the probiotic spraying device.

Fig. 11 is a schematic distribution diagram of a probiotic spraying device and a humidification sprayer.

Fig. 12 is a schematic view of the bottom of the water tank of the humidification atomizer.

Fig. 13 is a schematic distribution diagram of the humidified mist outlet and the probiotic outlet.

Fig. 14 is a schematic view of an atomizing passage and air duct structure.

Reference numerals:

1-a probiotic spraying device; 2-a machine body; 3-a machine back cover; 4-humidifying sprayer; 5-fungus liquid atomization pipeline; 6, an air duct;

11-spraying atomization device; 12-a bacterial liquid box;

111-left housing; 112-an upper housing; 113-a lower housing; 114-cotton core sleeve; 115-atomizer; 116-cotton core; 117-a spring; 118-a PCB board;

1123-power contacts;

121-an upper cover; 122-a lower cover; 1211-a bacterial liquid cartridge receptacle; 1212-fixing a barb piece on the bacteria liquid box;

1131-a bacteria liquid box fixing port; 1132-atomizing assembly securing aperture; 1133-cotton core sleeve connection port;

11331-cotton core channel; 11332-raised clip; 11333-atomizer support end face;

1141-fixing seat on cotton core sleeve; 1142-cotton core placement tube;

11411-upper limit end face; 11412-longitudinal slide; 11413-slide into the arc; 11414-limiting cambered surface; 11415-limit grooves; 11416-limit bump;

11421-inner bottom wall of cotton core sleeve; 11422-probiotic liquid inlet;

31-humidifying the mist outlet; 32-probiotic outlet.

Detailed Description

The utility model will now be described in further detail with reference to the following examples, which are given by way of illustration and explanation only, and are not intended to be limiting, for the understanding and practice of the utility model by those of ordinary skill in the art.

As shown in fig. 1, a double spray type humidification purifier includes a probiotic spraying device 1, a machine body 2, and a machine rear cover 3. Wherein the probiotic spraying device 1 is a single spraying function, and can be sprayed independently or put into the machine body 2 for use together. When in use, the probiotic spraying device 1 can be inserted into the machine main body 2, and then the machine rear cover 3 is covered, so that the probiotic spraying device can be used as a probiotic purifier.

As shown in fig. 2, 3, 4, the probiotic spraying device 1 comprises a spraying atomizer 11 and a bacterial liquid cartridge 12, wherein the spraying atomizer 11 comprises a left housing 111, an upper housing 112, a lower housing 113, a cotton core sleeve 114, an atomizer 115, a cotton core 116, a spring 117, and a PCB board 118. Wherein, fungus liquid box 12 includes upper cover 121 and lower cover 122, and upper cover 121 and lower cover 122 pass through ultrasonic welding together.

The upper shell 112 is buckled on the lower shell 113, the left shell 111 is arranged on the left side of the whole of the upper shell 112 and the lower shell 113, the left shell 111, the upper shell 112 and the lower shell 113 are fastened together through screws, the lower shell 113 is provided with a cotton core sleeve 114, a PCB (printed circuit board) 118 is arranged between the upper shell 112 and the lower shell 113, an atomizer 115 is connected with the PCB 118, a cotton core 116 is arranged in the cotton core sleeve 114, a probiotic bacteria liquid inlet 11422 is formed in the side wall of the lower portion of the cotton core sleeve 114, a spring is arranged in the bottom end of the cotton core sleeve 114, the bottom end and the top end of the spring are respectively elastically propped against the inner wall of the bottom end of the cotton core sleeve 114 and the bottom end of the cotton core 116, the top end of the cotton core 116 is propped against the atomizer 115, the bacteria liquid box 12 and the spraying atomizer 11 are buckled together through the buckles, and the bacteria liquid box 12 is prevented from falling off from hands in the process of taking the bacteria liquid box 12. The upper shell 112 is provided with a bacteria liquid atomization outlet, the machine body 2 is provided with a probiotics outlet 32 corresponding to the bacteria liquid atomization outlet, the bacteria liquid atomization outlet is communicated with the probiotics outlet 32 through a vertical bacteria liquid atomization pipeline, the upper part of the bacteria liquid atomization pipeline is connected with a fan through an air duct, the air duct is obliquely arranged relative to the bacteria liquid atomization pipeline and is obliquely arranged towards the front of the machine body 2, the probiotics liquid enters the bacteria liquid atomization pipeline through the bacteria liquid atomization outlet after being atomized by the atomizer 115, finally comes out from the probiotics outlet 32, and the atomized probiotics liquid is obliquely sprayed out towards the front of the machine body 2 by the air outlet of the air duct.

As shown in fig. 5 and 6, the lower housing 113 is provided with a bacteria liquid box fixing port 1131, an atomization assembly fixing hole 1132, and a cotton core tube sleeve connection port 1133. The fungus liquid box fixed port 1131 can be buckled with the fungus liquid box 12, the fungus liquid box 12 and the spraying atomizing device 11 are fixed together, the fungus liquid box 12 is prevented from falling off, the atomizing assembly fixed hole 1132 is a screw hole, a fixed screw can penetrate through the atomizing assembly fixed hole 1132 to fix the upper shell 112 and the lower shell 113 together, a round hole is formed in the lower shell 113 and is a cotton core pipe sleeve connector 1133, the cotton core pipe sleeve connector 1133 is used for mounting the cotton core sleeve 114 on the lower shell 113, the cotton core is prevented from falling off, and the cotton core pipe sleeve connector 1133 comprises a cotton core channel 11331, a convex clamping piece 11332 and an atomizer supporting end face 11333. The atomizer support end surface 11333 is arranged at the inner end of the cotton core channel 11331, the atomizer 115 is arranged on the atomizer support end surface 11333, the convex clamping piece 11332 is arranged at the outer end of the cotton core channel 11331, and the top end of the cotton core sleeve 114 is connected with the convex clamping piece 11332 in an adapting way.

As shown in fig. 7, 8 and 9, the cotton core sleeve 114 includes a cotton core sleeve upper fixing seat 1141 and a cotton core placing tube 1142, wherein the top surface of the cotton core sleeve upper fixing seat 1141 is an upper limit end surface 11411, the outer diameter of the cotton core sleeve upper fixing seat 1141 is matched with the inner diameter of the outer end of the cotton core channel 11331, a longitudinal slide 11412 is provided on the side of the cotton core sleeve upper fixing seat 1141, a limit groove 11415 is provided on the bottom end side of the longitudinal slide 11412, a limit protrusion 11416 is provided between the longitudinal slide 11412 and the limit groove 11415, the limit protrusion 11416 faces the limit groove 11415 to form a limit arc surface 11414, the limit protrusion 11416 faces the longitudinal slide 11412 to form a slide-in arc surface 11413, the upper limit end surface 11411 is matched with the cotton core sleeve 1133, the protrusion clamp 11332 is firstly clamped in the longitudinal slide 11412, and then the protrusion clamp 11332 slides through the slide-in the limit protrusion 11416 and slides into the limit groove 11415 and is fixed in the limit groove 11415, when the cotton core is to be replaced, the cotton core sleeve 114 is required to be rotated reversely. Because the side of the limiting protrusion 11416 facing the limiting recess 11415 is a limiting arc surface 11414, the protruding clip 11332 can slide out of the limiting recess 11415 to the longitudinal slide 11412, which is convenient for a user to pull the cotton core sleeve 114 out of the cotton core sleeve connection port 1133. The lower part of the cotton core sleeve 114 is provided with three long openings which are distributed in a central symmetry way, namely a probiotic liquid inlet 11422, so that the probiotic liquid can enter the cotton core sleeve 114, then the probiotic liquid can be uniformly dispersed into the air through the atomizer 115, the cotton core 116 is arranged in the cotton core sleeve 114, the bottom end of the cotton core sleeve 114 is internally provided with a spring, the bottom end and the top end of the spring are respectively elastically propped against the inner wall of the bottom end of the cotton core sleeve 114 and the bottom end of the cotton core 116, in order to enable the spring to prop against the cotton core 116, and the cotton core 116 is placed in a non-tight contact with the atomizer 115 due to different lengths caused by processing errors, so that the cotton core 116 falls off.

As shown in fig. 10, when in use, the spraying and atomizing device 11 and the bacteria liquid box 12 are assembled together, the bacteria liquid box socket 1211 and the bacteria liquid box fixing barb piece 1212 are arranged on the upper cover 121 of the bacteria liquid box 12, the bacteria liquid box fixing port 1131 is distributed on the lower shell 113 of the spraying and atomizing device 11, the bacteria liquid box 12 can be inserted into the bacteria liquid box fixing port 1131 through the bacteria liquid box fixing barb piece 1212, when in insertion, the spraying and atomizing device 11 and the bacteria liquid box 12 are only required to be buckled, then the bacteria liquid box 12 is pushed forward, the bacteria liquid box fixing barb piece 1212 and the bacteria liquid box fixing port 1131 are buckled with each other, so that the bacteria liquid box is ensured to be hung on the spraying and atomizing device 11, and the bacteria liquid box 12 can be prevented from being pulled out from a machine in the process of replacing the bacteria liquid box, so that the bacteria liquid box 12 falls. Preferably, the bacteria liquid box fixing port 1131 is long, one end width is larger than the other end width, the bacteria liquid box fixing barb 1212 is inserted from one end with larger width of the bacteria liquid box fixing port 1131, in the process of installing the bacteria liquid box, the bacteria liquid box is pushed so that the bacteria liquid box fixing barb 1212 slides into one end with smaller width of the bacteria liquid box fixing port 1131, and accordingly the spraying atomization device 11 and the bacteria liquid box 12 are fixed. Meanwhile, the bacteria liquid box socket 1211 is oval, so that the cotton core sleeve 114 is conveniently inserted into and buckled with the bacteria liquid box 12. When the bacteria liquid is sprayed, the probiotic bacteria liquid in the bacteria liquid box 12 enters the spraying atomization device 11 through the probiotic bacteria liquid inlet 11422 of the cotton core sleeve 114, and is conveyed to the atomizer 115 through the cotton core, and then is uniformly sprayed into the air through the atomizer 115.

As shown in fig. 11 and 12, the probiotic spraying device 1 is arranged on one side of the front end face of the machine body 2 in a drawing manner, so that the probiotic spraying device 1 is conveniently taken out of the machine body 2, a humidifying sprayer is arranged on the other side of the front end face of the machine body 2, the humidifying sprayer adopts a split type water tank design, water is conveniently supplied to a water supply tank, a water supply port is also formed in the upper portion of the water tank, a user can conveniently take out water to be irrigated into the water supply tank, an ultraviolet sterilizer is arranged at the bottom of the water tank, ultraviolet rays can conveniently sterilize the water in the water tank, a humidifying mist outlet 31 is formed in the machine body 2, the humidifying mist outlet 31 is connected with the top end of a humidifying mist atomizing pipeline which is vertically arranged, and the bottom end of the humidifying mist atomizing pipeline is connected with the mist outlet of the humidifying sprayer.

As shown in fig. 13, the humidifying outlet 31 and the probiotic outlet 32 are arranged at different horizontal positions, that is, the humidifying outlet 31 and the probiotic outlet 32 are arranged at the top of the machine body 2, the probiotic outlet 32 is arranged at the front side and the rear side of the machine body 2 relative to the humidifying outlet 31, and a set interval is arranged between the probiotic outlet 32 and the humidifying outlet 31 in the left-right direction of the machine body 2, so as to avoid the effect of bernoulli principle, so that the bacterial liquid of the bacterial liquid nozzle is diluted to affect the use, and meanwhile, the influence of air flow is avoided, so that the spraying height of the bacterial liquid is not high to affect the use.

As shown in fig. 14, the probiotic outlet 32 is vertically upward, but the air duct communicating with the bacteria liquid atomization pipeline is inclined forward, when the probiotic is atomized by the atomizer 115, the atomized probiotic liquid passes through the atomization channel, and under the action of the forward inclined air outlet in the air duct, the atomized probiotic liquid is sprayed out toward the front of the machine body 2 through the bacteria liquid atomization pipeline and the probiotic outlet 32, and the humidified water vapor is sprayed out vertically upward through the humidifying mist outlet 31. The atomized probiotic liquid sprayed forward obliquely due to the wind pressure generated by upward spraying of the humidified water vapor is further sprayed forward, so that the influence of the humidified water vapor on the spraying of the atomized probiotic liquid is avoided.

It should be noted that the above embodiments are merely for illustrating the technical solution of the present utility model and not for limiting the scope of the present utility model, and that other various changes and modifications can be made by one skilled in the art based on the above description and the idea, and it is not necessary or exhaustive to all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (6)

1. The utility model provides a two humidification purifiers that spout, including machine main part (2), a serial communication port, still including setting up probiotic sprinkler (1) and humidification atomizer (4) on machine main part (2), be provided with fungus liquid atomizing export on probiotic sprinkler (1), be provided with probiotic export (32) on machine main part (2), fungus liquid atomizing export is through vertical fungus liquid atomizing pipeline (5) and probiotic export (32) intercommunication, fungus liquid atomizing pipeline (5) upper portion is connected with the fan through wind channel (6), wind channel (6) are towards machine main part (2) the place ahead slope setting, machine main part (2) are provided with humidification play fog mouth (31), humidification play fog mouth (31) are connected with the atomizing mouth of humidification atomizer through the humidification atomizing pipeline of vertical setting.

2. The dual spray humidification purifier as claimed in claim 1, wherein the humidification outlet (31) and the probiotic outlet (32) are both provided at the top of the machine body (2), and the probiotic outlet (32) is provided forward of the humidification outlet (31) in the front-rear direction of the machine body (2).

3. The double spray humidification purifier according to claim 1, wherein the probiotic spraying device (1) comprises a spraying atomization device (11) and a bacterial liquid box (12), the spraying atomization device (11) comprises a left shell (111), an upper shell (112), a lower shell (113), a cotton core sleeve (114), an atomizer (115), a cotton core (116), a spring (117) and a PCB (118),

the upper shell (112) is buckled on the lower shell (113), the left shell (111) is arranged on the whole left side of the upper shell (112) and the lower shell (113), the cotton core sleeve (114) is arranged on the lower shell (113), a PCB (118) is arranged between the upper shell (112) and the lower shell (113), an atomizer (115) is connected with the PCB (118), a cotton core (116) is arranged in the cotton core sleeve (114), a probiotic liquid inlet (11422) is formed in the side wall of the lower part of the cotton core sleeve (114), a spring (117) is arranged in the bottom end of the cotton core sleeve (114), the bottom end and the top end of the spring (117) are respectively elastically propped against the bottom end inner wall of the cotton core sleeve (114) and the bottom end of the cotton core (116), the top end of the cotton core (116) is connected with the atomizer (115), and a bacterial liquid atomization outlet is formed in the upper shell (112).

4. A dual spray humidification purifier as claimed in claim 3, wherein the bacteria liquid box (12) comprises an upper cover (121) and a lower cover (122), the upper cover (121) is connected with the lower cover (122), a bacteria liquid box socket (1211) and a bacteria liquid box fixing barb member (1212) are arranged on the upper cover (121), a bacteria liquid box fixing port (1131), an atomization assembly fixing hole (1132) and a cotton core pipe sleeve connection port (1133) are arranged on the lower casing (113), the bacteria liquid box fixing barb member (1212) and the bacteria liquid box fixing port (1131) are connected in an adapting mode, and the cotton core sleeve (114) is inserted into the bacteria liquid box socket (1211).

5. The double-spray humidifying and purifying device according to claim 4, wherein the cotton core pipe sleeve connecting port (1133) comprises a cotton core channel (11331), a protruding clamping piece (11332) and an atomizer supporting end face (11333), the atomizer supporting end face (11333) is arranged at the inner end of the cotton core channel (11331), the atomizer (115) is arranged on the atomizer supporting end face (11333), the protruding clamping piece (11332) is arranged on the inner wall of the outer end of the cotton core channel (11331), and the top end of the cotton core sleeve (114) is connected with the protruding clamping piece (11332) in an adapting mode.

6. The double-spray humidifying and purifying device according to claim 5, wherein the cotton core sleeve (114) comprises a cotton core sleeve upper fixing seat (1141) and a cotton core placing tube (1142), the outer diameter of the cotton core sleeve upper fixing seat (1141) is matched with the inner diameter of the outer end of the cotton core channel (11331), a longitudinal slide way (11412) is arranged on the side portion of the cotton core sleeve upper fixing seat (1141), a limit groove (11415) is arranged on one side of the bottom end of the longitudinal slide way (11412), a limit protrusion (11416) is arranged between the longitudinal slide way (11412) and the limit groove (11415), the limit protrusion (11416) faces one side of the limit groove (11415) to form a limit arc surface (11414), and the limit protrusion (11416) faces one side of the longitudinal slide way (11412) to form a sliding-in arc surface (11413).