TWM570387U - Micro-nano bubble generator - Google Patents

Abstract

The present invention provides a micro-nano bubble generator comprising a generator body, a micro-nano bubble generating device, a capping group and a faucet outlet, wherein the micro-nano bubble generating device is disposed inside the generator body, and the micro-nano bubble generating device One end is provided with a sealing ring connected to the main body of the generator, and the other end is provided with a fixing ring connected with the capping group, and the capping group is embedded in the inside of the main body of the generator, and the outlet of the faucet is set to occur. A portion of the body of the device, the micro-nano bubble generating device includes an inner core sleeve, a middle core sleeve and a mesh sleeve radially from the inside to the outside.

Description

Micro-nano bubble generator

The present invention relates to the field of micro-nano bubbles, and in particular to a micro-nano bubble generator.

The 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 have the advantages of effectively separating solid impurities in water, rapidly increasing the oxygen concentration of water, and killing harmful bacteria in water. Compared with other water treatment methods, micro-nano bubbles have the characteristics of simple operation, low power consumption and no secondary pollution.

However, the faucets currently used on the market use only a water flow to generate a negative pressure at the outlet end of the product, and the air is mixed into the water body to form a bubble water having a slightly higher gas content, and the mixing of the gas and the water body is not sufficient. Micro-nano bubbles cannot be produced, and the generated bubbles have no germicidal effect.

Therefore, the prior art faucet has the following problems: 1. Usually, the micro-nano bubble device is externally attached to the outer end of the faucet outlet, the overall aesthetics is not good, and the external elongation also affects the use parameters of the faucet outlet height, and the like. Caused some inconvenience in use; 2, because the external connection method is not effectively combined with the original design of the faucet, it will also cause some connection specifications to be inconvenient to install, or can not be effectively installed; 3, micro After the nanobubbles are only transmitted through the spray, the micro-nano bubbles are generated by the cyclotron shearing in the static flow guiding turbine and the filter combination mechanism, but the micro-nano bubble generating effect is easily affected by the water pressure, and the size of the bubbles is difficult to control, thereby The decontamination ability fluctuates greatly and cannot be widely promoted and used. Therefore, how to solve the above problems is the subject of research that the relevant industry players are eager to study.

In order to solve the above technical problems, the present invention provides a micro-nano bubble generator which can sufficiently mix water and gas and has the advantages of sterilization effect.

In order to achieve the above advantages, the present invention adopts the following technical solution: a micro-nano bubble generator, comprising: a generator body, a micro-nano bubble generating device, a capping group and a faucet outlet, wherein the micro-nano bubble generating device is disposed at Inside the main body of the generator, one end of the micro-nano bubble generating device is provided with a sealing ring connected to the main body of the generator, and the other end is provided with a fixing ring connected with the capping group, and the capping group is embedded in the micro-nano bubble generating device. Inside the generator body, the faucet outlet is set as part of the generator body, and the micro-nano bubble generating device includes an inner core sleeve, a middle core sleeve and a mesh sleeve radially from the inside to the outside.

As an improvement of the above solution, an impact zone is provided between the inner core sleeve and the inner core sleeve.

As an improvement of the above solution, the impact zone is set as an annular gap.

As an improvement of the above solution, the net sleeve is set as a mesh material having a plurality of micropores, and the micropores of the mesh sleeve are 500 mesh or more.

As an improvement of the above solution, the inner core sleeve is provided with a plurality of holes.

As a modification of the above aspect, the radial width of the annular gap is set to be smaller than the diameter of the hole.

As an improvement of the above solution, the core sleeve wall is provided with a plurality of flow guiding grooves.

As a modification of the above aspect, the plurality of flow guiding grooves are arranged to be circumferentially arranged.

As a modification of the above aspect, the cover set includes a seal ring and a cover.

As a modification of the above aspect, the generator body further includes a liquid processing portion including a contraction section, a mixing section, an expansion section, an air suction hole, a first groove, an annular groove, a second groove, and The third groove.

1‧‧‧Micro-nano bubble generator

11‧‧‧ Inlet

12‧‧‧ Generator body

121‧‧‧Shrinking section

122‧‧‧Mixed section

123‧‧‧ expansion section

124‧‧‧ suction holes

125‧‧‧First trench

126‧‧‧ annular groove

127‧‧‧second trench

128‧‧‧ third trench

129‧‧‧ venting holes

13‧‧‧Micro-nano bubble generator

131‧‧‧ sealing ring

132‧‧‧ inner core sleeve

133‧‧‧core set

134‧‧‧ net sets

135‧‧‧Fixed ring

136‧‧‧ cavity

137‧‧‧ hole

138‧‧‧ impact zone

139‧‧‧Drainage trough

14‧‧‧ Cover Group

141‧‧‧Seal ring

142‧‧‧ Cover

15‧‧‧Water tap export

25‧‧‧Water tap body

26‧‧‧ shower body

27‧‧‧ check valve

500‧‧‧ arrow

The advantages and features of the present invention will be more fully understood from the following detailed description of the embodiments of the invention. The structure of the micro-nano bubble generator; the second figure is a cross-sectional view of the micro-nano bubble generator of the present embodiment; the third figure is the micro-nano bubble generating device of the first embodiment of the present invention along the A~A section A cross-sectional view of the line; the fourth figure is a schematic view of the micro-nano bubble generator of the present embodiment, wherein the micro-nano bubble generator is installed at the end of the faucet; the fifth figure is a micro-nano bubble generator installed in the present embodiment. Structure of the shower It is intended that the micro-nano bubble generator is installed at the end of the shower head; the sixth figure is a structural sectional view of the shower head provided with the micro-nano bubble generator in the creation embodiment; An exploded view of the faucet of the nanobubble generator.

The concept, specific structure and technical effects of the present invention will be clearly and completely described in conjunction with the embodiments and the drawings to fully understand the purpose, the plan and the effect of the present invention. It should be noted that the embodiments and features of the present invention can be combined with each other without conflict.

It should be noted that, unless otherwise stated, when a feature is referred to as “fixed” or “connected” in another feature, it may be directly fixed, connected to another feature, or indirectly fixed and connected to another feature. A feature. In addition, the descriptions of the top, bottom, left, and right used in the present creation are only relative to the mutual positional relationship of the components of the present creation in the drawing. The singular forms "a", "the", and "the"

Moreover, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art, unless otherwise defined. The terminology used in the description herein is for the purpose of describing particular embodiments, The term "and/or" as used herein includes any combination of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used to describe various elements in the present teachings, these elements should not be limited to these terms. These terms are only used to distinguish elements of the same type from one another. For example, a first element could also be termed a second element without departing from the scope of the present application. Similarly, a second element could also be termed a first element.

As shown in the first to seventh figures, the present invention provides a micro-nano bubble generator 1 comprising: a generator body 12, a micro-nano bubble generating device 13, a cap group 14 and a faucet outlet 15, wherein The micro-nano bubble generating device 13 is disposed inside the generator body 12, and one end of the micro-nano bubble generating device 13 is provided with a sealing ring 131 connected to the generator body 12, and the other end thereof is provided with a fixing ring 135 and a cap group 14 In connection, the cap group 14 in-line seals the micro-nano bubble generating device 13 inside the generator body 12, the faucet outlet 15 is provided as part of the generator body 12, and the micro-nano bubble generating device 13 includes the inner portion radially from the inside to the outside. The core sleeve 132, the core sleeve 133 and the mesh sleeve 134.

In the first and second figures, the micro-nano bubble generator 1 of the present invention further includes a water inlet 11 which further includes a liquid processing portion including a contraction section 121, a mixing section 122, and an expansion section 123. The suction hole 124, the first groove 125, the annular groove 126, the second groove 127, and the third groove 128, the cover group 14 includes a seal ring 141 and a cover 142, and the arrow 500 is a water flow direction.

The third figure is a cross-sectional view along the line A~A of the micro-nano bubble generating device 13 according to the first embodiment of the present embodiment. As can be seen from the figure, the inner core sleeve 132 and the core sleeve 133 are provided. Impact zone 138, and inner core sleeve 132 is internally provided with a cavity 136.

In one embodiment of the present creation, preferably, wherein the impact zone 138 is configured as an annular gap.

In an embodiment of the present invention, preferably, the mesh sleeve 134 is formed as a mesh material having a plurality of micropores, and the micropores of the mesh sleeve 134 are 500 mesh or more.

In one embodiment of the present creation, preferably, wherein the inner core sleeve 132 is provided with a plurality of holes 137, a plurality of holes 137 are disposed around the cavity 136.

In an embodiment of the present invention, preferably, a plurality of flow guiding grooves 139 are disposed on the wall of the core sleeve 133.

In an embodiment of the present creation, preferably, a plurality of flow guiding grooves 139 are arranged to be circumferentially arranged.

In an embodiment of the present creation, preferably, wherein the radial width of the annular gap is set to be smaller than the diameter of the hole 137.

A micro-nano bubble generator 1 provided by the present invention passes water through a cavity 136 inside the inner core sleeve 132, and then passes through the holes 137 radially outward, and the impact region 138 of the core sleeve 133, the flow guiding groove 139 and The net sleeve 134 can make the water and gas mix well and has the advantage of sterilization effect.

The fourth figure is a schematic view of the micro-nano bubble generator 1 according to the present embodiment, and the seventh figure is an exploded perspective view of the faucet in which the micro-nano bubble generator 1 is mounted, and the micro-nano bubble generator 1 is installed. At the end of the faucet, the faucet includes a faucet body 25 and a micro-nano bubble generator 1. As can be seen from the fourth and seventh figures, the micro-nano bubble generator 1 of the present invention is combined with the faucet assembly. The end of the faucet. In this way, the generation of micro-nano bubbles can be easily and conveniently realized on the basis of the existing faucet.

Fig. 5 is a schematic view showing the structure of a shower head in which the micro/nano bubble generator 1 is mounted according to the present embodiment, in which the micro/nano bubble generator 1 is mounted at the end of the shower. As can be seen in the figures, the showerhead includes a shower body 26 and a micro-nano bubble generator 1. As can be seen, it can be easily seen that the micro-nano bubble generator 1 is directly mounted at the end of the shower while a check valve 27 is provided at the water inlet, so that the ordinary shower head has micro-nano bubbles. Function to further sterilize.

Figure 6 is a cross-sectional view showing the structure of the showerhead provided with the micro-nano bubble generator 1 according to the present embodiment. As can be seen from the figure, the micro-nano bubble generator 1 is integrated on the shower, that is, this The micro-nano bubble generator 1 is constructed integrally with a shower, wherein a venting opening 129 is also provided, and a check valve 27 is provided at the water inlet of the shower.

It is apparent that the above-described embodiments are merely illustrative of the examples, and are not intended to limit the embodiments. Other variations or modifications of the various forms may be made by those skilled in the art based on the above description, and it is not necessary or possible to exemplify all embodiments, and the obvious changes derived therefrom Or the change is still within the scope of the patent application for this creation.

Claims (10)

A micro-nano bubble generator, comprising: a generator body (12), a micro-nano bubble generating device (13), a capping group (14) and a faucet outlet (15), wherein the micro-nano bubble generating device (13) Provided inside the generator body (12), one end of the micro-nano bubble generating device (13) is provided with a sealing ring (131) connected to the generator body (12), and the other end thereof is provided with a fixing ring (135) and a sealing ring The cover group (14) is connected, and the cover group (14) in-linely seals the micro-nano bubble generating device (13) inside the generator body (12), and the faucet outlet (15) is set as the generator body (12) As part of the micro-nano bubble generating device (13), the inner core sleeve (132), the inner core sleeve (133) and the mesh sleeve (134) are radially included from the inside to the outside. The micro-nano bubble generator according to claim 1, wherein an impact zone (138) is disposed between the inner core sleeve (132) and the inner core sleeve (133). The micro-nano bubble generator of claim 2, wherein the impact zone (138) is an annular gap. The micro-nano bubble generator according to claim 1, wherein the mesh sleeve (134) is a mesh material having a plurality of micropores, and the micro-holes of the mesh sleeve (134) are 500 mesh or more. The micro-nano bubble generator of claim 1, wherein the inner core sleeve (132) is provided with a plurality of holes (137). The micro-nano bubble generator according to claim 5, wherein an impact zone (138) and an impact zone (138) are provided between the inner core sleeve (132) and the inner core sleeve (133). The annular gap is set to be smaller than the diameter of the hole (137). The micro-nano bubble generator according to claim 1, wherein the core sleeve (133) is provided with a plurality of flow guiding grooves (139) on the wall. The micro-nano bubble generator according to claim 7, wherein the plurality of flow guiding grooves (139) are arranged to be circumferentially arranged. The micro-nano bubble generator of claim 1, wherein the cover set (14) comprises a seal ring (141) and a cover (142). The micro-nano bubble generator according to claim 1, wherein the generator body (12) further comprises a liquid processing portion, the liquid processing portion comprising a contraction section (121), a mixing section (122), and an expansion section (123) ), a suction hole (124), a first groove (125), an annular groove (126), a second groove (127), and a third groove (128).