CN215276678U - Micro-nano bubble water device and bubble water purger - Google Patents

Abstract

The utility model relates to a micro-nano bubble water preparation technical field, concretely relates to micro-nano bubble water installation and bubble water purger. The utility model provides a micro-nano bubble water device, which comprises an air inlet mechanism, a tank body, a gas-liquid mixer and a bubble releasing device, wherein the air inlet mechanism and the bubble releasing device are respectively connected with the tank body, and the gas-liquid mixer is arranged in the tank body and corresponds to the air inlet mechanism; air inlet mechanism includes efflux piece and drainage piece, be formed with the chamber of admitting air between efflux piece and the drainage piece, inlet and efflux mouth have been seted up to the efflux piece, the efflux mouth is located the intracavity of admitting air, the drainage mouth has been seted up to the drainage piece, the efflux mouth corresponds and sets up in the drainage mouth, and have the clearance between them, the air inlet has been seted up to the chamber wall in chamber of admitting air, the ejector is with higher speed with liquid, make clearance department pressure diminish, gas gets into the jar body along with the liquid stream to enter into the gas-liquid mixer and mix, enter into after the mixture and form a large amount of micro-nano bubble water in the bubble releasing ware.

Description

Micro-nano bubble water device and bubble water purger

Technical Field

The utility model relates to a micro-nano bubble water preparation technical field, concretely relates to micro-nano bubble water installation and bubble water purger.

Background

The micro-nano bubble technology is to dissolve air, oxygen, nitrogen, hydrogen or other gases into water in an ultrafine bubble mode, and different gases can be dissolved into water according to actual needs to achieve the required effect; generally, the smaller the particle size of the nano bubbles, the higher the concentration of the bubbles, the larger the effective contact area with the water body, which is more beneficial to the absorption of other substances or organisms in the water body, and the wide application in the aspects of aquaculture, plant root growth promotion, cleaning enhancement, wastewater treatment, beauty treatment, bath and the like.

The existing micro-nano bubble water preparation equipment is generally used for preparing micro-nano bubble water under the condition of electric pressurization, the booster pump is used for increasing the pressure of inlet water and inlet air, and the micro-nano bubble water is continuously provided under the condition of lower tap water pressure; there is also equipment of preparation micro-nano bubble water under the circumstances of no electric drive in the market, under the higher circumstances of running water pressure, utilizes structure own characteristic, realizes the preparation of micro-nano bubble water.

Under the condition of electric pressurization, the device consumes electricity and has high noise, the flow of micro-nano bubbles is small, and the device is large in size; under the condition of no electric drive, micro-nano bubble water can not be automatically and continuously provided, the micro-nano bubble water can be prepared again only by manual intervention after the micro-nano bubble water is prepared for a period of time, the use experience is poor under the long-time condition of the use demand of the micro-nano bubble water, and meanwhile, the preparation of the bubble water can not be realized under the lower tap water pressure.

SUMMERY OF THE UTILITY MODEL

The utility model discloses (one) the technical problem that solve is: under the condition of low pressure and no electricity, micro-nano bubble water cannot be prepared continuously in large quantity.

(II) technical scheme

In order to solve the technical problem, an embodiment of the utility model provides a micro-nano bubble water installation is provided to an aspect, include: the air inlet mechanism comprises a jet flow piece and a drainage piece, an air inlet cavity is formed between the jet flow piece and the drainage piece, the jet flow piece is provided with a jet flow channel, one end of the jet flow channel is a liquid inlet, the other end of the jet flow channel is a jet flow port, the jet flow channel is gradually reduced from the liquid inlet to the jet flow port, the drainage piece is provided with a drainage port, the jet flow port is correspondingly arranged at the drainage port, a gap is formed between the drainage port and the drainage port, and an air inlet is formed in the cavity wall of the air inlet cavity;

a gas-liquid mixing cavity is formed inside the tank body, the gas-liquid mixer is provided with an inlet and a third outlet and is arranged in the gas-liquid mixing cavity, the inlet is communicated with the drainage port, and the third outlet is communicated with the gas-liquid mixing cavity and is provided with a first outlet;

the bubble releasing device is provided with a bubble releasing port and is communicated with the gas-liquid mixing cavity through the first outlet.

According to an embodiment of the present invention, the first outlet extends outward to form a vortex structure, a vortex cavity is formed in the vortex structure, and the vortex structure is provided with a second outlet;

the bubble releaser is connected to the vortex structure and communicated with the vortex cavity through the second outlet.

According to the utility model discloses an embodiment, the mechanism of admitting air includes a plurality ofly drainage piece and a plurality of efflux piece, drainage piece parallel connection, be provided with a plurality ofly in the gas-liquid mixing intracavity the gas-liquid mixer, drainage piece efflux piece with gas-liquid mixer one-to-one.

According to the utility model discloses an embodiment, micro-nano bubble water installation includes the drainage ware, the drainage ware is provided with the drainage piece, the drainage ware set up in admit air the mechanism with between the jar body, admit air in the mechanism the drainage piece with in the drainage ware the drainage piece is established ties in proper order, and adjacent be formed with between the drainage piece the chamber of admitting air.

According to the utility model discloses an embodiment, the water box subassembly still includes the scale removal box, jar internal impeller blade and the connecting rod of being provided with, the impeller blade passes through the connecting rod connect in the inner wall of jar body, the impeller blade set up in the drainage mouth with between the gas-liquid mixer, and with the drainage mouth is corresponding.

According to the utility model discloses an embodiment, the air inlet is provided with the check valve, the feed liquor volume of inlet is more than or equal to the play liquid volume of first export.

According to the utility model discloses an embodiment, micro-nano bubble water installation still includes the air pump, the lateral wall of the jar body or the lateral wall of air inlet mechanism inwards caves in and forms first holding tank, the air pump set up in the first holding tank and with the check valve intercommunication.

According to an embodiment of the utility model, the micro-nano bubble water device further comprises a water flow generator and an energy accumulator, the side wall of the tank body or the side wall of the air inlet mechanism is inwards sunken to form a second accommodating groove, the energy accumulator is arranged in the second accommodating groove, and the water outlet end of the water flow generator is communicated with the liquid inlet;

the energy storage device is respectively connected with the water flow generator and the air pump.

According to the utility model discloses an embodiment, the jar body is the tube-shape, air inlet mechanism can dismantle connect in the top of the jar body, release the bubble ware can dismantle connect in the bottom of the jar body.

An embodiment of the utility model provides a bubble water purger, include micro-nano bubble water installation.

The utility model has the advantages that: under the condition of low water pressure, water flow enters from a liquid inlet of the jet flow piece, and flows out from the jet flow port at an accelerated speed to enter a drainage port of the drainage piece, because the water flow speed is high, the pressure intensity is small, a gap is formed between the jet flow port and the drainage port, gas in the gas inlet cavity enters the drainage port from the gap and enters a gas-liquid mixer together with liquid from the drainage port along the flowing direction of the liquid, the gas and the liquid are preliminarily mixed and flow into a gas-liquid mixing cavity from a third outlet, and because the gas in the gas inlet cavity is reduced to be negative pressure, external gas can automatically enter the gas inlet cavity from the gas inlet, gas inlet can be realized without a gas pump, when the gas and the liquid initially enter the gas-liquid mixing cavity, because the pressure intensity in the gas-liquid mixing cavity is low, the liquid inlet amount of the liquid inlet is larger than the liquid outlet amount of the first outlet, the liquid can be stored in the gas-liquid mixing cavity to form a liquid level, and the liquid level is continuously raised, and the gas and the liquid continuously enters the gas-liquid in the gas-liquid mixing cavity, the pressure intensity of the tank body is gradually increased, the liquid outlet amount of the first outlet is also gradually increased, when the internal pressure intensity is increased to the extent that the liquid inlet amount of the liquid inlet is equal to the liquid outlet amount of the first outlet, dynamic balance is achieved, the liquid level keeps a certain height, the gas-liquid mixture flowing out of the third outlet generates disturbance and turbulence to the liquid in the gas-liquid mixing cavity, so that the gas and the liquid are uniformly and fully further mixed, due to the back pressure in the gas-liquid mixing cavity, the gas-liquid mixture is pressed into the bubble releasing device from the first outlet and is rapidly cut through the bubble releasing port of the bubble releasing device, in the pressure releasing process, the gas in the gas-liquid mixture overflows, a large amount of micro-nano bubble water is continuously formed, the preparation of the micro-nano bubble water is realized under the conditions of no booster pump and low water pressure, and meanwhile, the micro-nano bubble water device provided by the utility model integrates an air inlet mechanism, a tank body and a tank body, The gas-liquid mixer and the bubble releasing device have high integration level and small occupied space, do not relate to electronic components and reduce the cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of a micro-nano bubble water device according to an embodiment of the present invention;

fig. 2 is a perspective view of another view angle of the micro-nano bubble water device according to an embodiment of the present invention;

fig. 3 is a cross-sectional view of a micro-nano bubble water device according to an embodiment of the present invention;

fig. 4 is an exploded view of a parallel drainage member of the micro-nano bubble water device according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a micro-nano bubble water device series-connection drainage piece according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a micro-nano bubble water device with an air pump, an energy storage device and a water flow generator according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a gas-liquid mixer according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of one form of the first water outlet according to an embodiment of the present invention;

fig. 9 is a schematic structural view of another form of the first water outlet according to an embodiment of the present invention.

Icon: 1-tank body; 11-a gas-liquid mixing chamber; 12-a first outlet; 13-a vortex structure; 131-a second outlet; 132-a connecting channel; 133-vortex chamber; 134-pressure relief cavity; 135-a housing;

2-a fluidic member; 21-jet orifice; 22-liquid inlet; 23-a liquid separator;

3-gas-liquid mixer; 31-gas mixing section; 311-a mixing chamber; 312-a third outlet; 313 — a first inlet; 32-a connecting portion; 321-a through hole;

4-releasing the bubble device; 41-a blister; 411-bubble releasing port; 42-a fourth outlet; 43-a body; 44-a second inlet;

5, a drainage device; 51-a drainage member; 52-a drainage port; 53-air inlet chamber; 54-an air inlet; 55-a one-way valve;

6-impeller blades; 61-a connecting rod;

7-an air pump; 71-a first accommodating groove;

8-a water current generator;

9-an energy storage device; 91-a first sensor; 92-a second sensor; 93-second receiving groove.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understandable, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description, and the embodiments and features of the embodiments of the present invention may be combined with each other without conflict. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 6, an embodiment of the utility model provides a micro-nano bubble water device, include: the gas-liquid separator comprises a gas inlet mechanism, a tank body 1, a gas-liquid mixer 3 and a bubble releasing device 4, wherein the gas inlet mechanism and the bubble releasing device 4 are respectively connected to the tank body 1, and the gas-liquid mixer 3 is arranged in the tank body 1 and corresponds to the gas inlet mechanism;

the air inlet mechanism comprises a jet flow part 2 and a drainage part 51, an air inlet cavity 53 is formed between the jet flow part 2 and the drainage part 51, the jet flow part 2 is provided with a liquid inlet 22 and a jet flow port 21, the jet flow port 21 is positioned in the air inlet cavity 53, the drainage part 51 is provided with a drainage port 52, the jet flow port 21 is correspondingly arranged at the drainage port 52, a gap is formed between the drainage port and the drainage port 52, and an air inlet 54 is formed in the cavity wall of the air inlet cavity 53;

a gas-liquid mixing cavity 11 is formed inside the tank body 1, the gas-liquid mixer 3 is provided with a first inlet 313 and a third outlet 312 and is arranged in the gas-liquid mixing cavity 11, the first inlet 313 corresponds to the drainage port 52, the gas-liquid mixing cavity 11 is communicated with the air inlet cavity 53 through the drainage port 52, and the tank body 1 is provided with a first outlet 12;

the foam releasing device 4 is provided with a foam releasing port 411 and is communicated with the gas-liquid mixing cavity 11 through a first outlet 12, and the liquid inlet amount of the liquid inlet 22 is larger than or equal to the liquid outlet amount of the first outlet 12.

Under the condition of low water pressure, water flow enters from the liquid inlet 22 of the jet part 2, and flows out from the jet port 21 at an accelerated speed to enter the drainage port 52 of the drainage part 51, because the water flow speed is high, the pressure intensity is small, a gap is formed between the jet port 21 and the drainage port 52, gas in the gas inlet cavity 53 enters the drainage port 52 from the gap, and enters the gas-liquid mixer 3 together with liquid from the drainage port 52 along the liquid flowing direction, gas and liquid are primarily mixed and flow into the gas-liquid mixing cavity 11 from the third outlet 312, meanwhile, because the gas in the gas inlet cavity 53 is reduced to be negative pressure, outside gas can automatically enter the gas inlet cavity 53 from the gas inlet 54, so that gas inlet can be realized without using the gas pump 7, when the gas and the liquid initially enter the gas mixing cavity 11, because the pressure intensity in the gas-liquid inlet 11 is low, the amount of the liquid inlet 22 is larger than the liquid outlet amount of the first outlet 12, and the gas-liquid in the gas-liquid mixing cavity 11 can form a liquid level, and the liquid level rises continuously, gas and liquid enter the gas-liquid mixing cavity 11 continuously, the pressure inside the tank body 1 rises gradually, the liquid output of the first outlet 12 also increases gradually, when the internal pressure rises to enable the liquid inlet amount of the liquid inlet 22 to be equal to the liquid output amount of the first outlet 12, dynamic balance is achieved, the liquid level keeps a certain height, the gas-liquid mixture flowing out of the third outlet 312 generates disturbance and turbulence on the liquid inside the gas-liquid mixing cavity 11, so that the gas and the liquid are mixed uniformly and fully, because of the back pressure inside the gas-liquid mixing cavity 11, the gas-liquid mixture is pressed into the foam releaser 4 from the first outlet 12 and is cut quickly through the foam releasing port 411 of the foam releaser 4, in the pressure releasing process, the gas in the gas-liquid mixture overflows, a large amount of micro-nano bubble water is formed continuously, and the preparation of the micro-nano bubble water is realized under the condition of no booster pump and low water pressure, simultaneously the utility model provides a micro-nano bubble water installation, the integration has mechanism, jar body 1, gas-liquid mixer 3 and the bubble releasing device 4 of admitting air, and the integrated level is high, and occupation space is little, and does not relate to electronic components, the cost is reduced.

In this embodiment, air intake mechanism has the shell, both ends opening about the shell, and inside formation runs through the chamber, the lower extreme and the jar body 1 of shell are connected, the upper end is connected with efflux piece 2, drainage piece 51 sets up in running through the intracavity, and will link up two upper and lower cavitys of separating into in the chamber, drainage piece 51 is leaks hopper-shaped, drainage mouth 52 is seted up to the bottom, drainage mouth 52 extends to the outside and forms cylinder drainage channel, drainage piece 51 and air intake mechanism's shell integrated into one piece, efflux piece 2 sealing connection is in the top of shell, efflux piece 2 realizes the venturi principle of admitting air with drainage piece 51 this moment.

In this embodiment, the foam releasing device 4 includes a body 43, a foaming member 41, a fourth outlet 42 and a second inlet 44, the second inlet 44 is communicated with the second outlet 131, the fourth outlet 42 is connected with a water using device, the foam releasing port 411 is opened on the foam releasing member 41, and the liquid level in the gas-liquid mixing chamber 11 is controlled by setting the number and size of the foam releasing ports 411 in the foam releasing device 4.

As shown in fig. 7, in the present embodiment, the gas-liquid mixer 3 includes a gas mixing portion 31, the gas mixing portion 31 is provided with a first inlet 313 and a third outlet 312, the first inlet 313 is communicated with the drainage port 52, a mixing cavity 311 is formed inside the gas mixing portion 31, and the bottom of the gas mixing portion 31 is located below the liquid level.

The air mixing part 31 is in a cylindrical shape with one end open, the bottom of the air mixing part 31 is a spherical surface, the opening of the air mixing part 31 is a first inlet 313, the first inlet 313 extends outwards to form a connecting part 32, and the connecting part 32 is provided with a through hole 321. Thus, the connecting portion 32 and the air mixing portion 31 are integrally formed, the manufacturing cost is reduced, and the through hole 321 on the connecting portion 32 can prevent liquid from being accumulated on the connecting portion 32 and the liquid from falling down from the through hole 321.

According to the utility model discloses an embodiment, first export 12 extends to the outside and forms vortex structure 13, vortex structure 13 includes casing 135, casing 135's bottom extends to the top and forms the bulge, form connecting channel 132 in the bulge, casing 135's bottom extends gradually to the top and forms the bulge, connecting channel 132 is kept away from top one side by being close to top one side and is expanded gradually, form the second export 131 of loudspeaker form, and the cover is located foaming piece 41, form pressure release chamber 134, the bulge encloses into vortex chamber 133 with casing 135's bottom and casing 135's lateral wall. So, make overall structure simple, the integrated level is high, and occupation space is little, and the vortex is effectual simultaneously.

As shown in fig. 9, according to an embodiment of the present invention, the tank body 1 is provided with a first outlet 12, and is disposed corresponding to the connecting channel 132, the sectional area of the first outlet 12 is larger than the sectional area of the connecting channel 132, so that the gas-liquid mixture can partially enter the vortex cavity 133 after entering from the first outlet 12, and the gas and the liquid entering the vortex cavity 133 can be fully and uniformly mixed.

As shown in fig. 8, according to the utility model discloses an embodiment, a plurality of first export 12 are seted up to jar body 1, and a plurality of first exports 12 correspond the setting with vortex chamber 133, and the sectional area of first export 12 is less than the sectional area of connecting channel 132, and during gas-liquid mixture can all directly enter into vortex chamber 133, first export 12 cross-section is less, and liquid speed when entering vortex chamber 133 is fast, and the vortex effect of production is strengthened, and consequently the mixed effect of gas and liquid is better than the effect of last embodiment.

According to an embodiment of the present invention, the bubble releasing opening 411 is formed by a water inlet side tapering to a water outlet side tapering to form a cutting channel. The flow velocity can promote after the gas-liquid mixture gets into the cutting passageway, cuts gas-liquid mixture with higher speed, and the in-process that the pressure was released fast overflows in the gas-liquid mixture, forms a large amount of micro-nano bubble water.

According to the utility model discloses an embodiment, air inlet mechanism includes a plurality of drainage pieces 51 and a plurality of efflux piece 2, drainage piece 51 is parallelly connected, and be connected in air inlet mechanism's the intracavity that link up, air inlet mechanism's shell top sets up the lid, a plurality of connectors are seted up to the lid, efflux piece 2 is connected in the connector, be provided with a plurality of gas-liquid mixers 3 in the gas-liquid mixing chamber 11, drainage piece 51, efflux piece 2 and gas-liquid mixer 3 one-to-one, form a plurality of independent air inlet chamber 53 between drainage piece 51 and the efflux piece 2, air inlet 54 has all been seted up to the chamber wall of every air inlet chamber 53, inlet 22 and knockout 23 intercommunication of a plurality of efflux piece 2, knockout 23 and inlet channel are connected, divide the liquid function through knockout 23, it is more convenient to make the feed liquor. Therefore, liquid and gas can enter at multiple points simultaneously, and the preparation efficiency of the micro-nano bubble water is improved.

As shown in fig. 5, including drainage ware 5, drainage ware 5 is provided with drainage piece 51, drainage ware 5 has the shell, be formed with the chamber that link up in the shell, drainage piece 51 sets up in the intracavity that links up, and with shell integrated into one piece, drainage piece 51 and drainage ware 5 set up between air intake mechanism and jar body 1, drainage piece 51 in the air intake mechanism and the drainage piece 51 in the drainage ware 5 establish ties in proper order, drainage mouth 52 one-to-one, and be formed with air inlet chamber 53 between the adjacent drainage piece 51, every air inlet chamber 53 all is provided with air inlet 54, the clearance has between last level drainage mouth 52 and the next stage drainage mouth 52, liquid is fast through every drainage mouth 52, gas in the air inlet chamber 53 can follow the liquid stream and enter into drainage mouth 52, the air input has been increased, the content of the gas in the gas-liquid mixture has been improved.

According to the utility model discloses an embodiment, be provided with impeller blade 6 and connecting rod 61 in jar body 1, impeller blade 6 passes through connecting rod 61 to be connected in jar inner wall of body 1, impeller blade 6 sets up between drainage mouth 52 and first import 313, and the dislocation set, makes partly liquid stream and 6 collision dispersions of impeller blade, and another part liquid stream continues the whereabouts and dashes into first import 313 directly below, makes the liquid stream can disperse and gas mixture, can remain partly decurrent impulsive force again, makes the effect reinforcing of gas-liquid mixture.

According to the utility model discloses an embodiment, air inlet 54 department is connected with check valve 55, makes gaseous entering air intake chamber 53 by the outside, and the gas in the air intake chamber 53 can not flow to the outside, promotes the efficiency of admitting air.

As shown in fig. 6, the air pump 7 is further included, the side wall of the tank body 1 or the side wall of the air inlet mechanism is recessed inwards to form a first accommodating groove 71, the air pump 7 is arranged in the first accommodating groove 71 and communicated with the one-way valve 55, the air pump 7 is additionally arranged, the air inlet efficiency can be improved, and further the content of bubbles in bubble water is improved.

As shown in fig. 6, the water flow generator further comprises a water flow generator 8 and an energy storage device 9, a side wall of the tank body 1 or a side wall of the air inlet mechanism is recessed inwards to form a second accommodating groove 93, the energy storage device 9 is arranged in the second accommodating groove 93, and a water outlet end of the water flow generator 8 is communicated with the liquid inlet 22; the energy storage 9 is respectively connected with the water flow generator 8 and the air pump 7. So, rivers generator 8 can produce the electric energy, and the electric energy is carried and is stored in accumulator 9, and when air pump 7 opened, accumulator 9 provided the electric energy for air pump 7, made its work, has realized the function of independently supplying power.

According to an embodiment of the present invention, the side wall of the tank body 1 is recessed inward to form a first receiving groove 71 and a second receiving groove 93; or the side wall of the air inlet mechanism is inwards sunken to form a first accommodating groove 71 and a second accommodating groove 93; or the side wall of the tank body 1 is inwards sunken to form a first accommodating groove 71, and the side wall of the air inlet mechanism is inwards sunken to form a second accommodating groove 93; or the side wall of the can body 1 is recessed inwards to form the second receiving groove 93, and the side wall of the air inlet mechanism is recessed inwards to form the first receiving groove 71. The air pump 7 is integrated in the first receiving groove 71 and the accumulator 9 is integrated in the second receiving groove 93, improving space utilization.

According to the utility model discloses an embodiment, air inlet mechanism and jar body are connected through modes such as screw thread, buckle, magnetism are inhaled between 1, release bubble ware 4 and vortex structure 13 and inhale through modes such as screw thread, buckle, magnetism and be connected, so, convenient to detach has promoted fortune dimension efficiency.

In this embodiment, the side wall of the tank body 1 is provided with a first sensor 91 and a second sensor 92, and the first sensor 91 and the second sensor 92 are liquid level sensors for monitoring the liquid level in the gas-liquid mixing chamber 11.

An embodiment of the utility model provides a bubble water purger, including foretell micro-nano bubble water installation, wherein bubble water purger can be electrical apparatus such as purifier, dish washer, water heater, face washing appearance, also can be basin, tap etc. do not need power consumptive bubble water purger. Because this micro-nano bubble water installation's integrated level is high, and is small, can integrate with the bubble water purger very conveniently, make the bubble water purger possess the function of preparation micro-nano bubble water, promote the cleaning performance.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the communication may be direct, indirect via an intermediate medium, or internal to both elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The above description is only for the preferred embodiment of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a micro-nano bubble water installation which characterized in that includes: the air inlet mechanism comprises a jet flow part (2) and a drainage part (51), an air inlet cavity (53) is formed between the jet flow part (2) and the drainage part (51), the jet flow part (2) is provided with a jet flow channel, one end of the jet flow channel is a liquid inlet (22), the other end of the jet flow channel is a jet flow port (21), the jet flow channel is gradually reduced from the liquid inlet (22) to the jet flow port (21), the drainage part (51) is provided with a drainage port (52), the jet flow port (21) is correspondingly arranged on the drainage port (52) and a gap is formed between the jet flow port and the drainage port, and an air inlet (54) is formed in the cavity wall of the air inlet cavity (53);

a gas-liquid mixing cavity (11) is formed in the tank body (1), the gas-liquid mixer (3) is provided with an inlet and a third outlet (312) and is arranged in the gas-liquid mixing cavity (11), the inlet is communicated with the drainage port (52), the third outlet (312) is communicated with the gas-liquid mixing cavity (11), and the tank body (1) is provided with a first outlet (12);

the bubble releasing device (4) is provided with a bubble releasing port (411) and is communicated with the gas-liquid mixing cavity (11) through the first outlet (12).

2. The micro-nano bubble water device according to claim 1, wherein the first outlet (12) extends outwards to form a vortex structure (13), a vortex cavity (133) is formed in the vortex structure (13), and a second outlet (131) is formed in the vortex structure (13);

the bubble releaser (4) is connected to the vortex structure (13) and communicates with the vortex chamber (133) through the second outlet (131).

3. The micro-nano bubble water device according to claim 1, wherein the air inlet mechanism comprises a plurality of the drainage pieces (51) and a plurality of the jet pieces (2), the drainage pieces (51) are connected in parallel, a plurality of the gas-liquid mixers (3) are arranged in the gas-liquid mixing chamber (11), and the drainage pieces (51), the jet pieces (2) and the gas-liquid mixers (3) are in one-to-one correspondence.

4. The micro-nano bubble water device according to claim 1, comprising a flow diverter (5), wherein the flow diverter (5) is provided with the flow diverting piece (51), the flow diverter (5) is arranged between the air inlet mechanism and the tank body (1), the flow diverting piece (51) in the air inlet mechanism and the flow diverting piece (51) in the flow diverter (5) are sequentially connected in series, and the air inlet cavity (53) is formed between the adjacent flow diverting pieces (51).

5. The micro-nano bubble water device according to claim 1, wherein an impeller blade (6) and a connecting rod (61) are arranged in the tank body (1), the impeller blade (6) is connected to the inner wall of the tank body (1) through the connecting rod (61), and the impeller blade (6) is arranged between the drainage port (52) and the gas-liquid mixer (3) and corresponds to the drainage port (52).

6. The micro-nano bubble water device according to any one of claims 1 to 5, wherein the air inlet (54) is provided with a one-way valve (55), and the liquid inlet amount of the liquid inlet (22) is greater than or equal to the liquid outlet amount of the first outlet (12).

7. The micro-nano bubble water device according to claim 6, further comprising an air pump (7), wherein a first accommodating groove (71) is formed by inward recessing of a side wall of the tank body (1) or a side wall of the air inlet mechanism, and the air pump (7) is disposed in the first accommodating groove (71) and is communicated with the one-way valve (55).

8. The micro-nano bubble water device according to claim 7, further comprising a water flow generator (8) and an energy storage device (9), wherein the side wall of the tank body (1) or the side wall of the air inlet mechanism is recessed inwards to form a second accommodating groove (93), the energy storage device (9) is arranged in the second accommodating groove (93), and the water outlet end of the water flow generator (8) is communicated with the liquid inlet (22);

the energy storage device (9) is respectively connected with the water flow generator (8) and the air pump (7).

9. The micro-nano bubble water device according to any one of claims 1 to 5, wherein the tank (1) is cylindrical, the air inlet mechanism is detachably connected to the top of the tank (1), and the bubble releaser (4) is detachably connected to the bottom of the tank (1).

10. A bubble water cleaner, characterized by comprising the micro-nano bubble water device of any one of claims 1 to 9.

Images