TWM560470U - Micro-nanometer bubble water faucet - Google Patents

Abstract

A micro-nano bubble faucet comprising a body with a water inlet section, a mixing section and a water outlet end arranged from left to right, wherein: the right end of the water inlet section is provided with an air inlet hole, and the air inlet hole is located at the water inlet section The micro-nano bubble generating device is disposed in the main body between the throats where the taper is shrunk, so that the water and gas can be sufficiently mixed and has the advantage of sterilizing effect.

Description

Micro-nano bubble faucet

The present invention relates to a bubble faucet, and more particularly to a micro-nano bubble faucet suitable for use in the sanitary field.

Micro-nano bubbles have the characteristics of small bubble size, large specific surface area, high adsorption efficiency, slow rising speed and strong oxidizing property. Micro-nano bubbles are introduced into the water, which can effectively separate solid impurities in water, rapidly increase oxygen concentration in water, and kill Compared with other water treatment methods, micro-nano bubbles have the characteristics of simple operation, low power consumption and no secondary pollution.

However, at present, the faucets used in the market only have a micro-nano bubble generating device in a transfer mode, or a negative pressure is generated by using a water flow only at the water outlet end of the product to mix the air into the water to form a slightly higher gas content. Water, but the mixing of gas and water is not sufficient, and micro-nano bubbles cannot be produced, and the generated bubbles have no germicidal effect.

The micro-nano bubble faucet provided by this creation can make the water and gas mix well and has the advantage of sterilization effect.

In order to achieve the above advantages, the creation provides the following technical solutions: A micro-nano bubble faucet comprising a body with a water inlet section, a mixing section and a water outlet end arranged from left to right, wherein: the right end of the water inlet section is provided with an air inlet hole, and the air inlet hole is located at the water inlet section A micro-nano bubble generating device is disposed in the body between the throats at which the taper contracts.

As a modification of the above aspect, the micro-nano bubble generating device comprises a first micro-nano bubble generating device and a second micro-nano bubble generating device, the first micro-nano bubble generating device comprising a first mixing device installed inside the mixing section And a first shearing device to generate micro-nano bubbles, the second micro-nano bubble generating device comprising a second mixing device and a second shearing device disposed above the outlet of the water outlet end to generate micro-nano bubbles, the first shearing The apparatus includes at least one piece of a first shearing device metal mesh, the second shearing device comprising at least one piece of a second shearing device metal mesh, the first mixing device comprising at least one piece of the first mixing device metal mesh, the second mixing device comprising At least one piece of the second mixing device metal mesh, the first micro-nano bubble generating device comprises a first metal mesh group, the first metal mesh group comprising the first shearing device metal mesh and the first mixing device metal mesh, the second micro-nano bubble The generating device includes a second metal mesh group, and the second metal mesh group includes a second shearing device metal mesh and a second hybrid device metal mesh.

As an improvement of the above aspect, wherein the micro-nano bubble generating device comprises a first micro-nano bubble generating device, the first micro-nano bubble generating device comprises a first mixing device and a first shearing device installed inside the mixing section, Generating micro-nano bubbles, the first shearing device comprising at least one piece of the first shearing device metal mesh, the first mixing device comprising at least one piece of the first mixing device metal mesh, the first micro-nano bubble generating device comprising the first metal mesh group The first metal mesh group includes the first shearing device metal Net and first mixing device metal mesh.

As a modification of the above aspect, wherein the micro-nano bubble generating device comprises a second micro-nano bubble generating device, the second micro-nano bubble generating device comprises a second mixing device and a second shearing device disposed above the outlet of the water outlet end To produce micro-nano bubbles, the second shearing device comprises at least one piece of the second shearing device metal mesh, the second mixing device comprises at least one piece of the second mixing device metal mesh, and the second micro-nano bubble generating device comprises the second metal The net group, the second metal mesh group includes a second shearing device metal mesh and a second mixing device metal mesh.

As a modification of the above aspect, the micropores of the first shearing device metal mesh are 1000 mesh or more.

As a modification of the above aspect, the second shearing device metal mesh has a micropore of 1000 mesh or more.

As a modification of the above aspect, the micropores of the metal mesh of the first mixing device are 1000 mesh or less.

As a modification of the above aspect, the micropores of the metal mesh of the second mixing device are 1000 mesh or less.

As a modification of the above aspect, the water inlet section has a constriction taper for water supply to enter the mixing section via the throat having the intake port.

As a modification of the above aspect, the outer circumferential surface of the main body is provided with an air inlet which communicates with the air inlet for conveying air to the mixing section.

Compared with the prior art, the present invention can realize the advantages of sufficiently mixing water and gas and having a sterilization effect. Moreover, it has the following advantages: 1. It can clean the deep skin of the skin. Hole, the water content in the water is high and long-lasting; 2, the manufacturing cost is low.

1‧‧‧Inlet section

2‧‧‧Mixed section

3‧‧‧ water outlet

4‧‧‧Air intake

5‧‧‧First shearing device

6‧‧‧Second shearing device

7‧‧‧First Mixer

8‧‧‧First Metal Network Group

9‧‧‧air inlet

10‧‧‧Second mixing device

11‧‧‧ Subject

12‧‧‧Second Metal Network Group

13‧‧‧Contraction cone

14‧‧‧ water pipes

The advantages and features of the present invention will be more fully understood from the following detailed description of the embodiments of the drawings, and the drawings must be considered in an illustrative and non-limiting manner. Schematic diagram of the structure of the micro-nano bubble faucet; the second figure is a schematic diagram of the structure of the micro-nano bubble faucet of the second embodiment of the present invention; the third figure is a schematic diagram of the structure of the micro-nano bubble faucet of the third embodiment of the present creation; The schematic diagram of the installation structure of the pull-type micro-nano bubble faucet of the embodiment; the fifth figure is the schematic diagram of the installation structure of the branch-type micro-nano bubble faucet of the fifth embodiment of the present invention.

The technical solutions of the present invention will be clearly and completely described in the following with reference to the drawings. It is obvious that the described embodiments are a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present creation, all other embodiments obtained by those skilled in the art without creative efforts are within the scope of the present invention.

In the description of this creation, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inside", "outside", etc. The indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, only for the convenience of describing the present creation and simplifying the description, and not indicating or implying The device or component must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third" 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 should be noted that the terms "installation", "connected", and "connected" are to be understood broadly, and may be fixed or detachable, unless otherwise explicitly stated and defined. Connected, or integrally connected; can be mechanical or electrical; can be directly connected, or indirectly connected through an intermediate medium, can be the internal communication of the two components. The specific meaning of the above terms in the present creation can be understood by a person of ordinary skill in the art.

Further, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not constitute a conflict with each other.

As shown in the first figure, the micro-nano bubble faucet provided by the present invention is internally packaged with a micro-nano bubble generating device, including a main body 11 which is provided with a water inlet section 1, a mixing section 2 and a water outlet end 3 from left to right. The right end of the water inlet section 1 is provided with an air intake device, and the water inlet section 1 ranges from the leftmost end to the front end of the throat of the inlet end of the air inlet hole 4, and the range of the mixing section 2 is from the air inlet hole 4. The water path between the throat waterway to the second shearing device 6 of the faucet, the water outlet end 3 is in the range of the water path between the second shearing device 6 and the water outlet end 3, which also includes the air inlet from the bottom of the faucet 9 to the air inlet of the air inlet 4, and the outer surface of the outer surface of the body 11 of the outer package, the water of the faucet hose is introduced into the micro-nano bubble generating device, and the water passes through the water inlet end The conical contraction hole flows to the throat of the waterway to generate a negative pressure, so that the intake hole 4 takes in air into the interior of the waterway, through the internal cavity of the waterway and the first mixing device 7, the first shearing device 5, the second mixing device 10, The second shearing device 6 generates micro-nano bubble water through the water outlet end 3.

The water inlet section 1 is for introducing water from a water pipe into a micro-nano bubble device, the mixing section 2 is a region for mixing air and water, and the water outlet end 3 is for mixing a mixture of air and water. Exhaust the micro-nano bubble faucet.

As shown in the first figure, in the first embodiment of the present invention, preferably, the micro-nano bubble generating device comprises a first micro-nano bubble generating device and a second micro-nano bubble generating device, the first micro-nano bubble generating device comprising a first mixing device 7 and a first shearing device 5 installed inside the mixing section 2 to generate micro-nano bubbles, the second micro-nano bubble generating device comprising a second mixing device 10 disposed above the outlet of the water outlet 3 and a second shearing device 6 to produce micro-nano bubbles, the first shearing device 5 comprising at least one piece of the first shearing device metal mesh, the second shearing device 6 comprising at least one piece of the second shearing device metal mesh, A mixing device 7 comprises at least one piece of a first mixing device metal mesh, the second mixing device 10 comprises at least one piece of a second mixing device metal mesh, the first micro-nano bubble generating device comprising a first metal mesh group 8, a first metal mesh Group 8 includes a first shearing device metal mesh and a first mixing device metal mesh, a second micro-nano bubble generating device includes a second metal mesh group 12, and a second metal mesh group 12 includes a second shearing device gold Mesh metal net and the second mixing means.

In a first embodiment, preferably, a partition may be disposed between the first shearing device metal mesh and the layers of the first mixing device metal mesh to cause vigorous turbulence of the water. The gas is sufficiently dissolved into the water, and the micro-nano bubbles are generated using the first shearing device metal mesh.

In a first embodiment, preferably, a partition may be disposed between the layers of the second shearing device metal mesh and the second mixing device metal mesh to cause vigorous turbulence of the water to sufficiently dissolve the gas into the water. And using the second shearing device metal mesh to generate micro-nano bubbles.

As shown in the second figure, in the second embodiment of the present invention, preferably, the micro-nano bubble generating device includes a first micro-nano bubble generating device, and the first micro-nano bubble generating device includes a first portion installed inside the mixing section 2 a mixing device 7 and a first shearing device 5 to produce micro-nano bubbles, the first shearing device 5 comprising at least one piece of the first shearing device metal mesh, the first mixing device 7 comprising at least one piece of the first mixing device metal The mesh, the first micro-nano bubble generating device comprises a first metal mesh group 8, the first metal mesh group 8 comprising a first shearing device metal mesh and a first hybrid device metal mesh.

In a second embodiment, preferably, a partition may be disposed between the first shearing device metal mesh and the layers of the first mixing device metal mesh to cause vigorous turbulence of the water to sufficiently dissolve the gas into the water. And generating micro-nano bubbles using the first shearing device metal mesh.

As shown in the third figure, in the third embodiment of the present creation, preferably, the micro-nano bubble generating device includes a second micro-nano bubble generating device, and the second micro-nano bubble generating device includes an outlet disposed at the outlet end 3 The second mixing device 10 and the second shearing device 6 above to generate micro-nano bubbles, wherein the second shearing device 6 comprises at least one piece of the second shearing device metal mesh, and the second mixing device 10 comprises at least one piece The second mixing device metal mesh, the second micro-nano bubble generating device includes a second metal mesh group 12, and the second metal mesh group 12 includes a second shearing device metal mesh and a second hybrid device metal mesh.

In a third embodiment, preferably, a partition may be disposed between the layers of the second shearing device metal mesh and the second mixing device metal mesh to cause vigorous turbulence of the water to sufficiently dissolve the gas into the water. And using the second shearing device metal mesh to generate micro-nano bubbles.

In the first, second and third embodiments of the present invention, preferably, the air intake means includes a tapered opening provided at a throat located at the left end of the mixing section 2 for conveying air to the mixing section 2. The air intake means introduces air into the water passage through the air inlet 9 at the bottom of the water faucet through the air intake opening 4 at the throat of the water passage. As shown, the waterway is initially mixed with gas and liquid via the cavity of the expansion section behind the throat. In other embodiments, the shape of the tapered opening may be any other shape as long as the same function can be achieved.

In the first and third embodiments of the present invention, preferably, a second shearing device 6 is disposed above the water outlet end 3, and a second mixing device 10 is disposed above the second shearing device 6, the purpose of which can compensate or adjust the cause The water pressure environment is adjusted and adjusted to make the gas and liquid more fully mixed, and then the micro-nano bubbles are generated by the second shearing device 6.

In the fourth embodiment shown in the fourth figure, the micro-nano bubble faucet is directly connected to the water pipe 14 and belongs to the structure of the pull-type micro-nano bubble faucet, which is both beautiful and convenient.

In the fifth embodiment shown in the fifth figure, the micro-nano bubble faucet can be installed through an opening in the water pipe, and is in the form of an ordinary household. In other words, this creation The micro-nano bubble faucet provided can be connected to the water pipe according to actual needs.

In each of the embodiments of the present invention, preferably, the micropores of the first shearing device metal mesh are 1000 mesh or more to achieve better shearing and filtering of the liquid after gas-liquid mixing.

In each of the embodiments of the present invention, preferably, the micropores of the second shearing device metal mesh are 1000 mesh or more to achieve better shearing and filtering of the liquid after gas-liquid mixing.

In various embodiments of the present invention, preferably, the micropores of the first mixing device metal mesh are 1000 mesh or less.

In each of the embodiments of the present invention, preferably, the micropores of the second mixing device metal mesh are 1000 mesh or less.

In various embodiments of the present creation, preferably, the left end of the water inlet section 1 has a constriction taper 13 to allow water to enter the mixing section 2 via the throat having the intake aperture 4.

In various embodiments of the present creation, preferably, the air intake means includes an air inlet 9 disposed along a circumferential outer surface of the body 11, and an air inlet 4 at a throat of the left end of the mixing section 2, the air inlet 9 is connected to the intake hole 4 for conveying air to the mixing section 2.

The following is a correspondence table between the micropores and meshes of the metal mesh on the market to determine the comparison between the micropores and the mesh:

It should be noted that the various materials shown in the above table are only information showing partial combinations of various combinations used by the creator, and are not intended to limit the creation, and other combinations are not listed here. Referring to the above table, it can be concluded that the size of the micropores corresponding to the mesh mesh of different meshes is different, and the effect of the micro-nano bubbles generated is also different.

At the same time, when water passes through the metal mesh, the bubbles are instantaneously broken due to the existence of a pressure difference, and the bacteria can be killed. Therefore, the micro-nano bubble faucet of the present invention also has a sterilization function.

Compared with the prior art, the present invention can realize the advantages of sufficiently mixing water and gas and having a sterilization effect.

It is apparent that the above-described embodiments are merely illustrative of the examples, and are not intended to limit the embodiments. Variations or variations of the various forms may be made by those skilled in the art based on the above description, and all embodiments are not required and can not be exemplified, and the obvious changes derived therefrom Or the change is still in the scope of protection of this creation.

Claims (10)

A micro-nano bubble faucet comprising a body with a water inlet section, a mixing section and a water outlet end arranged from left to right, wherein: the right end of the water inlet section is provided with an air inlet hole, and the air inlet hole is located at the water inlet section A micro-nano bubble generating device is disposed in the body between the throats at which the taper is shrunk. The micro-nano bubble faucet of claim 1, wherein the micro-nano bubble generating device comprises a first micro-nano bubble generating device and a second micro-nano bubble generating device, the first micro-nano bubble generating device comprising a first mixing device and a first shearing device inside the mixing section to generate micro-nano bubbles, and the second micro-nano bubble generating device comprises a second mixing device and a second shearing device disposed above the outlet of the water outlet end to generate a micro-nano bubble, the first shearing device comprising at least one piece of the first shearing device metal mesh, the second shearing device comprising at least one piece of the second shearing device metal mesh, the first mixing device comprising at least one piece of the first mixing device a metal mesh, the second mixing device comprising at least one piece of the second mixing device metal mesh, the first micro-nano bubble generating device comprising a first metal mesh group, the first metal mesh group comprising the first shearing device metal mesh and the first mixing device a metal mesh, a second micro-nano bubble generating device comprising a second metal mesh group, the second metal mesh group comprising a second shearing device metal mesh and a Two mixing device metal mesh. The micro-nano bubble faucet according to claim 1, wherein the micro-nano bubble generating device comprises a first micro-nano bubble generating device, and the first micro-nano bubble generating device comprises a first mixing device installed inside the mixing section And a first shearing device to produce micro-nano bubbles, wherein the first shearing device comprises at least one piece of the first shear Cutting the metal mesh, the first mixing device comprising at least one piece of the first mixing device metal mesh, the first micro-nano bubble generating device comprising a first metal mesh group, the first metal mesh group comprising the first shearing device metal mesh and the first Mixing device metal mesh. The micro-nano bubble faucet of claim 1, wherein the micro-nano bubble generating device comprises a second micro-nano bubble generating device, and the second micro-nano bubble generating device comprises a second disposed above the outlet of the water outlet end a mixing device and a second shearing device to produce micro-nano bubbles, wherein the second shearing device comprises at least one piece of the second shearing device metal mesh, the second mixing device comprising at least one piece of the second mixing device metal mesh, the second The micro-nano bubble generating device includes a second metal mesh group including a second shearing device metal mesh and a second hybrid device metal mesh. The micro-nano bubble faucet according to claim 2, wherein the first shearing device metal mesh has a micropore of 1000 mesh or more. The micro-nano bubble faucet according to claim 2, wherein the second shearing device metal mesh has a micropore of 1000 mesh or more. The micro-nano bubble faucet of claim 2, wherein the first mixing device metal mesh has a micropore of 1000 mesh or less. The micro-nano bubble faucet according to claim 2, wherein the second mixing device metal mesh has a micropore of 1000 mesh or less. The micro-nano bubble faucet of claim 1, wherein the water inlet section has a shrinking cone for supplying water into the mixing section via a throat having an air inlet. The micro-nano bubble faucet according to claim 1, wherein the outer surface of the main body is provided with an air inlet, and the air inlet is connected to the air inlet for mixing The air is delivered in sections.