CN210753272U - Microbubble gondola water faucet - Google Patents

Abstract

The utility model provides a microbubble gondola water faucet belongs to kitchen guarding machinery technical field, include: the shell is internally provided with a gas transmission channel and a water transmission channel, a gas outlet of the gas transmission channel is connected to the water transmission channel, and a gas-water mixing cavity is formed in the water transmission channel, wherein a plurality of groups of filtering components are arranged along the water flow advancing direction of the water transmission channel, each group of filtering components is provided with a filtering hole, the aperture of the filtering holes in the filtering components is gradually decreased, and the gas-water mixing cavity is positioned between two adjacent filtering components. The utility model provides a pair of microbubble gondola water faucet combines together through gas transmission passageway and water delivery passageway for mixed air in the rivers forms the bubble, and then through the multichannel filtering component in the water delivery passageway, cuts apart the bubble in gas, the water mixture and forms the microbubble, improves the shower and experiences, reduces the use of bathing agent, improves the dirt-removing power, and can realize energy-conserving effect.

Description

Microbubble gondola water faucet

Technical Field

The utility model belongs to the technical field of kitchen guarding's machinery, a gondola water faucet, especially a microbubble gondola water faucet is related to.

Background

The spraying equipment generally refers to a shower head used for cleaning a human body, and when people take a bath at present, the common shower head is generally adopted to be matched with soap or other lotion, so that the following problems exist:

1) skin problems are induced by synthetic surfactants when using lotions such as soaps;

2) synthetic surfactants of soap and other lotions cause environmental pollution;

3) people with skin diseases or sensitive skin cannot use lotion cosmetics such as soap.

The micro bubbles are ultra-fine bubbles with the diameter less than 50 microns (mum) formed by air and water, are much finer than bubbles (2mm) seen in common water, have strong detergency, can easily enter pores due to negative charge, and can instantly eliminate body odor and take away dirt due to pressure and heat when the bubbles are broken, thereby achieving the effect of deep cleaning.

In summary, it is desirable to design a shower head that can generate microbubbles, improve bathing experience, reduce the use of a bathing agent, improve detergency, and realize energy saving effects.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provide one kind and can produce the microbubble, improve the shower and experience, reduce the use of bathing agent, improve the dirt-removing power to can realize the gondola water faucet of energy-conserving effect.

The purpose of the utility model can be realized by the following technical proposal: a micro-bubble showerhead, comprising: the shell is internally provided with a gas transmission channel and a water transmission channel, a gas outlet of the gas transmission channel is connected to the water transmission channel, and a gas-water mixing cavity is formed in the water transmission channel, wherein a plurality of groups of filtering assemblies are arranged along the water flow advancing direction of the water transmission channel, each group of filtering assemblies is provided with a filtering hole, the aperture of the filtering holes of the plurality of groups of filtering assemblies is gradually decreased, and the gas-water mixing cavity is positioned between two adjacent filtering assemblies.

In the microbubble gondola water faucet, the gas-water mixing chamber includes two cavities that communicate each other, is first cavity and second cavity respectively, wherein, first cavity and second cavity all are the setting of horn-shaped structure, and the less one end of first cavity bore and the less one end of second cavity bore butt joint intercommunication each other, and the gas outlet of gas transmission passageway is located the butt joint department of first cavity and second cavity.

In the microbubble gondola water faucet, the gas outlet of gas transmission channel is the horn structure setting.

In foretell microbubble gondola water faucet, the casing includes the handle and can dismantle the lid that sprays of being connected with the handle, and wherein, the one end of handle is connected with first connecting piece and second connecting piece, and gas, water mixing chamber are located between first connecting piece and the second connecting piece, and a play liquid structure is installed to the other end of handle, and links to each other through the pipe fitting between play liquid structure and the second connecting piece.

In foretell microbubble gondola water faucet, first connecting piece is the setting of rotor form structure, and wherein, first through-hole has been seted up along the axis direction of first connecting piece, as the water inlet of water delivery passageway, and this first through-hole is linked together with gas, water hybrid chamber, is provided with a first annular boss along the axis direction of first connecting piece, and this first annular boss installs on the lateral wall of first connecting piece to be provided with a plurality of first bar recess along the axis direction of first annular boss, this first bar recess is as the air inlet of gas delivery passageway.

In the microbubble sprinkler, a second annular boss is arranged along the axis direction of the first connecting piece, and a second strip-shaped groove is arranged along the axis direction of the second annular boss, wherein the first annular boss and the second annular boss are arranged side by side, and the first strip-shaped groove corresponds to the second strip-shaped groove in position.

In foretell microbubble gondola water faucet, first through-hole is the echelonment structure setting, is first hole section, second hole section and third hole section respectively, and wherein, the aperture size of first hole section, third hole section is greater than the aperture of second hole section, and the one end of gas, water mixing chamber is connected on the third hole section to for nested grafting between with the third hole section.

In the microbubble gondola water faucet, the second connecting piece is arranged in a rotary body-shaped structure, and a second through hole is arranged along the axis direction of the second connecting piece, wherein the second through hole is arranged in a step shape and is respectively a fourth hole section and a fifth hole section, the fourth hole section is connected with the other end of the gas-water mixing cavity in a nested and inserted manner, and the fifth hole section is connected with one end of the pipe fitting.

In foretell microbubble gondola water faucet, be provided with a gas-liquid mixture between first connecting piece and second connecting piece, and respectively install one at the both ends of gas-liquid mixture the filter assembly, wherein, gas, water mixing chamber are located gas-liquid mixture, and the gas outlet of gas transmission passageway is seted up on gas-liquid mixture's lateral wall, and with gas, water mixing chamber are linked together.

In the above-mentioned microbubble gondola water faucet, two ends of the gas-liquid mixing piece are respectively provided with a built-in step as two installation positioning parts of the filtering component.

In foretell microbubble gondola water faucet, the handle is the setting of "7" style of calligraphy structure that the digit is crouched, and wherein, first connecting piece, second connecting piece and gas-liquid mixture are located the horizontal position of handle, goes out the liquid structure and is located the vertical position of handle.

In foretell microbubble gondola water faucet, go out to be provided with in the liquid structure and hold the chamber, and should hold the inlet in chamber and link to each other with the pipe fitting, wherein, the liquid outlet department that should hold the chamber is provided with a mounting platform, and inlays on this mounting platform and be equipped with one filtering component.

In the microbubble gondola water faucet, the filter component is formed by overlapping a plurality of filter screens.

In the microbubble gondola water faucet, from top to bottom set gradually metal filter screen board and rubber pad between spraying lid and play liquid structure.

Compared with the prior art, the utility model provides a pair of microbubble gondola water faucet combines together through gas transmission passageway and water delivery passageway for the mixed air in the rivers forms the bubble, and then through the multichannel filtering component in the water delivery passageway, cuts apart the bubble in gas, the water mixture and forms the microbubble, improves the shower and experiences, reduces the use of bathing agent, improves the dirt-removing power, and can realize energy-conserving effect.

Drawings

Fig. 1 is a schematic structural diagram of a micro-bubble shower head of the present invention.

Fig. 2 is a sectional view of the microbubble sprinkler of the present invention.

Fig. 3 is a schematic structural diagram of a first connecting member according to a preferred embodiment of the present invention.

In the figure, 100, the housing; 110. a handle; 120. a spray cover; 130. a filter screen plate; 140. a rubber pad; 200. a filter assembly; 300. a first connecting member; 310. a first annular boss; 311. a first bar-shaped groove; 320. a second annular boss; 321. a second strip-shaped groove; 330. a first bore section; 340. a second bore section; 350. a third bore section; 400. a second connecting member; 410. a fourth bore section; 420. a fifth bore section; 500. a liquid outlet structure; 510. an accommodating chamber; 511. a liquid inlet; 520. mounting a platform; 600. a pipe fitting; 700. a gas-liquid mixing member; 710. an air outlet; 720. a first cavity; 730. a second cavity.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to fig. 3, the utility model provides a micro bubble shower head, include: the casing 100 is internally provided with a gas transmission channel and a water transmission channel, an air outlet 710 of the gas transmission channel is connected to the water transmission channel, and a gas-water mixing cavity is formed on the water transmission channel, wherein a plurality of groups of filtering assemblies 200 are arranged along the water flow advancing direction of the water transmission channel, each group of filtering assemblies 200 is provided with a filtering hole, the aperture of the filtering holes of the groups of filtering assemblies 200 is gradually decreased, and the gas-water mixing cavity is positioned between two adjacent filtering assemblies 200.

The utility model provides a pair of microbubble gondola water faucet combines together through gas transmission passageway and water delivery passageway for mixed air in the rivers forms the bubble, and then multichannel filtering component 200 in the water delivery passageway is cut apart the bubble in gas, the water mixture and is formed the microbubble, improves the shower and experiences, reduces the use of bathing agent, improves the dirt-removing power, and can realize energy-conserving effect.

Preferably, as shown in fig. 1 to 3, the gas-water mixing chamber includes two mutually communicated chambers, namely a first chamber 720 and a second chamber 730, wherein the first chamber 720 and the second chamber 730 are both arranged in a horn-shaped structure, the end with the smaller caliber of the first chamber 720 and the end with the smaller caliber of the second chamber 730 are mutually connected and communicated, and the gas outlet 710 of the gas transmission channel is located at the joint of the first chamber 720 and the second chamber 730.

In this embodiment, through the tubaeform structure with first cavity 720 for the rivers increase the pressure of its rivers from the great one end of first cavity 720 bore to the less one end of bore, when rivers after the pressure boost meet with the air (from the air that gas transmission passageway entered into gas, water mixing chamber), realize the intensive mixing of gas, water, increase the bubble content in the rivers, and then guarantee to obtain more microbubble at the output of water transmission passageway. In addition, the end with the smaller caliber of the first cavity 720 and the end with the smaller caliber of the second cavity 730 are in butt joint communication with each other, and the air outlet 710 of the air transmission channel is located at the butt joint position, on one hand, water flow and air can be fully mixed, on the other hand, the pressure generated at the butt joint position ensures that when the water flow passes through the air outlet 710 of the air transmission channel, the water flow is prevented from entering the shell 100 through the air outlet 710 of the air transmission channel to cause water leakage, and therefore the reliability of the use of the shower head is improved.

It is further preferred that the gas outlet 710 of the gas delivery channel is arranged in a trumpet-shaped structure. In the embodiment, the air outlet 710 is set to be in a horn shape, so as to form a double-layer pressurization effect with the joint of the first cavity 720 and the second cavity 730, on one hand, the sufficient mixing between the water flow and the air is further improved, on the other hand, the water flow in the water delivery channel is further prevented from entering the housing 100 through the air outlet 710, and thus the reliability of the use of the shower head is ensured.

Preferably, as shown in fig. 1 to 3, the housing 100 includes a handle 110 and a spray cover 120 detachably connected to the handle 110, wherein one end of the handle 110 is connected to a first connector 300 and a second connector 400, the air-water mixing chamber is located between the first connector 300 and the second connector 400, the other end of the handle 110 is provided with a liquid outlet structure 500, and the liquid outlet structure 500 is connected to the second connector 400 through a pipe 600.

It is further preferred that the handle 110 and the spray cap 120 be threaded to facilitate replacement of the spray cap 120 and cleaning of the spray cap 120.

Further preferably, the first connecting member 300 is a rotating body-shaped structure, wherein a first through hole is formed along the axial direction of the first connecting member 300, the first through hole is communicated with the gas-water mixing cavity and serves as a water inlet of the water delivery channel, a first annular boss 310 is arranged along the axial direction of the first connecting member 300, the first annular boss 310 is mounted on the outer side wall of the first connecting member 300, a plurality of first strip-shaped grooves 311 are formed along the axial direction of the first annular boss 310, and the first strip-shaped grooves 311 serve as air inlets of the gas delivery channel.

In this embodiment, the water inlet of the water delivery channel and the air inlet of the air delivery channel are both disposed on the same component (the first connecting member 300), wherein the water flow in the water delivery channel enters the first through hole through the water pump, the air in the air delivery channel enters the first bar-shaped groove 311 through the natural air intake mode, then the water body enters the air-water mixing cavity through the first through hole, and the air enters the air-water mixing cavity through the first bar-shaped groove 311, so that the water body and the air are mixed. Rivers and air current are integrated respectively and are set up on first connecting piece 300 to inside and outside distribution realizes integrating of structure, and makes the structure of gondola water faucet become more compact.

Further preferably, a second annular boss 320 is disposed along the axial direction of the first connector 300, and a second strip-shaped groove 321 is disposed along the axial direction of the second annular boss 320, wherein the first annular boss 310 and the second annular boss 320 are disposed side by side, and the first strip-shaped groove 311 corresponds to the second strip-shaped groove 321 in position.

In this embodiment, the second strip-shaped groove 321 disposed on the second annular boss 320 is used as a guide for air flowing through the air transmission channel, so as to avoid turbulence of air in the housing 100 and improve reliable mixing of air and water. In addition, the second annular boss 320 is provided with threads on an outer surface thereof, so that the first connector 300 is screwed with the housing 100.

Further preferably, the first through hole is arranged in a step-like structure and is a first hole section 330, a second hole section 340 and a third hole section 350, wherein the aperture sizes of the first hole section 330 and the third hole section 350 are larger than the aperture size of the second hole section 340, and one end of the gas-water mixing cavity is connected to the third hole section 350 and is nested and inserted with the third hole section 350.

Further preferably, the second connecting member 400 is arranged in a revolving body-shaped structure, and a second through hole is arranged along the axial direction of the second connecting member 400, wherein the second through hole is arranged in a step shape and is respectively a fourth hole section 410 and a fifth hole section 420, the fourth hole section 410 is nested and inserted with the other end of the gas-water mixing cavity, and the fifth hole section 420 is connected with one end of the pipe 600.

In the present embodiment, the first through hole in the first connector 300 and the second through hole in the second connector 400 are respectively provided in a stepped structure because the stepped portion of the first through hole and the stepped portion of the second through hole are used as the abutting portions of the air-water mixing chamber, i.e., the mounting positions of the limiting air-water mixing chamber.

Preferably, as shown in fig. 1 to 3, an air-liquid mixing part 700 is disposed between the first connecting part 300 and the second connecting part 400, and two ends of the air-liquid mixing part 700 are respectively provided with one filter assembly 200, wherein the air-water mixing chamber is located in the air-liquid mixing part 700, and the air outlet 710 of the air delivery channel is opened on a side wall of the air-liquid mixing part 700 and is communicated with the air-water mixing chamber. In this embodiment, the filter assembly 200 in the first connector 300 is used to filter macromolecular particles in a water body, so as to realize purification treatment of the water body, and the filter assembly 200 in the second connector 400 is used as a filter part of a first air-water mixture, and cuts the air-water mixture.

Further preferably, a step is provided at each end of the gas-liquid mixing member 700 as a mounting position portion of the two filter modules 200.

Preferably, as shown in fig. 1 to 3, the handle 110 is configured in a 7-shaped structure with a digital lying, wherein the first connector 300, the second connector 400 and the gas-liquid mixing part 700 are located at the horizontal position of the handle 110, and the liquid outlet structure 500 is located at the vertical position of the handle 110. Because the two ends of the pipe fitting 600 are used for connecting the second connecting piece 400 and the liquid outlet structure 500, and the height difference exists between the second connecting piece 400 and the liquid outlet structure 500, the pipe fitting 600 is obliquely arranged during installation, and the structure enables the flow rate of the air-water mixture to be reduced when the air-water mixture enters the liquid outlet structure 500 through the second connecting piece 400 and the pipe fitting 600, so that more sufficient fusion of air and water is ensured.

Preferably, as shown in fig. 1 to 3, a containing cavity 510 is provided in the liquid outlet structure 500, and a liquid inlet 511 of the containing cavity 510 is connected to the pipe 600, wherein a mounting platform 520 is provided at a liquid outlet of the containing cavity 510, and a filter assembly 200 is embedded on the mounting platform 520, the filter assembly 200 forms a second filtering portion for the gas-water mixture, and the gas-water mixture is cut again.

Further preferably, the filter assembly 200 is formed by stacking a plurality of filter screens.

Further preferably, a metal filter screen plate 130 and a rubber pad 140 are sequentially arranged between the spray cover 120 and the liquid outlet structure 500 from top to bottom.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. A micro-bubble shower head, comprising: the shell is internally provided with a gas transmission channel and a water transmission channel, an air outlet of the gas transmission channel is connected to the water transmission channel, and a gas-water mixing cavity is formed in the water transmission channel, wherein a plurality of groups of filtering assemblies are arranged along the water flow advancing direction of the water transmission channel, each group of filtering assemblies is provided with a filtering hole, the aperture of the filtering holes in the plurality of groups of filtering assemblies is gradually reduced, and the gas-water mixing cavity is positioned between two adjacent filtering assemblies.

2. The showerhead of claim 1, wherein the mixing chamber comprises two communicating chambers, namely a first chamber and a second chamber, wherein the first chamber and the second chamber are both configured in a horn-shaped configuration, and the smaller end of the first chamber and the smaller end of the second chamber are in butt joint communication, and the gas outlet of the gas transmission channel is located at the butt joint of the first chamber and the second chamber.

3. The showerhead of claim 2, wherein the gas delivery channel has a flared outlet.

4. The microbubble sprinkler as claimed in claim 1, wherein the housing comprises a handle and a spray cover detachably connected with the handle, wherein one end of the handle is connected with a first connecting member and a second connecting member, the gas-water mixing chamber is located between the first connecting member and the second connecting member, the other end of the handle is provided with a liquid outlet structure, and the liquid outlet structure is connected with the second connecting member through a pipe.

5. The micro-bubble sprinkler as claimed in claim 4, wherein the first connecting member is a rotary structure, wherein a first through hole is formed along an axial direction of the first connecting member, the first through hole is communicated with the gas-water mixing chamber, a first annular boss is formed along the axial direction of the first connecting member, the first annular boss is mounted on an outer sidewall of the first connecting member, and a plurality of first bar-shaped grooves are formed along the axial direction of the first annular boss.

6. The micro-bubble showerhead of claim 4 or 5, wherein a second annular projection is provided along an axial direction of the first connecting member, and a second strip-shaped groove is provided along an axial direction of the second annular projection, wherein the first annular projection and the second annular projection are provided side by side, and the first strip-shaped groove and the second strip-shaped groove are provided at corresponding positions.

7. The micro-bubble sprinkler according to claim 4, wherein a gas-liquid mixing member is disposed between the first connecting member and the second connecting member, and one filtering assembly is disposed at each of two ends of the gas-liquid mixing member, wherein the gas-water mixing chamber is disposed in the gas-liquid mixing member, and the gas outlet of the gas delivery channel is opened on a sidewall of the gas-liquid mixing member and is communicated with the gas-water mixing chamber.

8. The micro bubble showerhead of claim 7, wherein the first through hole and the second through hole of the second connection member are each provided in a stepped configuration, wherein the stepped portion of the first through hole and the stepped portion of the second through hole serve as an abutting portion of the gas-liquid mixing member, respectively.

9. The showerhead of claim 7, wherein a step is provided at each end of the gas-liquid mixture member as a mounting position for the two filter modules.

10. The microbubble sprinkler as claimed in claim 4, wherein a receiving chamber is provided in the outlet structure, and the inlet of the receiving chamber is connected to the pipe, wherein a mounting platform is provided at the outlet of the receiving chamber, and the filtering assembly is mounted on the mounting platform.

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