CN204134485U - Bathing nanometer microbubble generator and bathing system - Google Patents

Abstract

The utility model discloses a kind of bathing nanometer microbubble generator and bathing system, described bathing nanometer microbubble generator comprises gas generator, water-feed and blender, described blender at least comprises a static mixing element and a mixed pipe line, described static mixing element inside is formed with at least one mixing chamber, is filled with granule filler and/or loose structure thing in described mixing chamber.Described bathing system comprises bathing appts and described bathing nanometer microbubble generator, soluble gas and water are after described bubble generator carries out mixed dissolution, in water under output pressure state after dissolved gas to described bathing appts, water under described pressure state after dissolved gas is released to normal pressure after being transported to bathing appts, the gas be dissolved in water forms nano level gas micro-bubble and slow releasing due to hypotension, clean surface can be treated in microbubble ruptures process hit, remove dirt and can blood circulation be increased.

Description

Bathing nanometer microbubble generator and bathing system

Technical field

The utility model relates to nanoscale microbubble generation technique, is specially and relates to a kind of bathing nanometer microbubble generator and bathing system, is particularly useful for human body bath health-care field.

Background technology

People more and more recognize under current allegro modern society environment, keep healthy and the importance loosened.

Traditionally, use the harmless gas being dissolvable in water water, if dissolved carbon dioxide or drug ingedient are in water, for treating various diseases or health care in bathing process simultaneously, hot spring such as containing carbonic acid is medically being considered to increase blood circulation of human body, in Europe particularly in Germany, carbon dioxide or carry out bathing containing the hot spring of drug ingedient and be considered to increase blood circulation and be easy to be absorbed by the skin.Bathing in the hot spring containing 1000ppm dissolved carbon dioxide, is considered to a kind of effective Health restoration mode for a long time, and hospital also splits pharmaceutical formulation and coordinates hot spring bathing to reach result for the treatment of sometimes.

For many years, China's health care bathing process also may add the Chinese herbal medicine having treatment and health-care effect, as: mulberry leaf bath-can irascibility be removed; Chrysanthemum baths-can dispelling wind and heat from the body, and improving eyesight, clearing heat and detoxicating, flat liver-yang; Cassia twig baths-can inducing sweat and dispelling exogenous evils, and warming meridian, activating YANG and prormoting functioning of QI.By bathing, the Chinese herbal medicine exceeding hundreds of kind can promote that skin absorbs medicine.

Diabetic has blood circulation problems, and What is more may cause renal complications, and needs to carry out dialysis treatment, also likely causes pedal blood circulation not smooth, thus forms gangrene and amputation.

In Japan, someone uses the hydrogen be dissolved in water to keep healthy to human body, it is said that hydrogen enters human body by the capillary of human body skin, plays the object removing people's interior free yl.

In Europe, people use ozone dissolved in water, drink the water of dissolved ozone or use Ozone Water to carry out bathing and also play very large health-care efficacy.But because traditional technology limit, the ozone dissolved concentration in water is lower.

Nowadays, various hydrotherapy mode occurs in a variety of manners, and the hydrotherapy of traditional approach, have is much carry out bubble filling in conjunction with the form of micropore in bathtub to bathtub by air blast, by this kind of form because gas just defines bubble, gas produces bubble by gas to the impact of water in water, and when the size of bubble is decided by that gas contact with water, the size in the aperture of air release and gas enter the speed of bathtub, cannot form the gas after dissolving and to overflow the nanometer foam produced afterwards.

Some health-care method may use as carbon dioxide, hydrogen, oxygen, ozone etc. are to the medicative gas of human body, in this case, the form using air blast to add bubble wastes a large amount of gas, the gas overflowed from bathtub also may damage the respiratory system of human body, as carbon dioxide effusion too much, or oxygen overflows too much people and may cause and breathe the situation such as anoxic or oxygen poisoning.And these gases use traditional method cannot improve its solubility, especially at the temperature of applicable human body bathing, (30-42 degree) solubility is lower, the nanometer foam produced after the gas effusion after also cannot forming dissolving.

-U.S.Pat.No.5,930,851 issued on Aug.3, disclose the application of Hydro-massage spas and hydrotherapy in 1999 patents.In this patent, use the hot-blast spray nozzle being arranged on bathtub periphery, nozzle is connected with hot blast distribution duct by the aperture on bathtub wall, and hot blast produces pressure by air blast and is blown into bathtub.The pressure controlling wind during air blast also controls the temperature of wind simultaneously.Hot blast is discharged into by micropore to health turbulization in the bathtub that water is housed, thus produces massage effect.

The means using bubble mat to carry out bubble bath to the form forming microvesicle are disclosed in-patent US2002/0188237A1 and US PAT NO.5090403.Above two kinds of message bathtubs all employ air blast, but air blast can only use air, and carbon dioxide, oxygen, hydrogen, ozone etc. can not be used to absorb the useful but gas that can have an impact to the breathing of people to human body skin.Prevent from having an impact to the breathing of people if install lid additional at bathing appts and initiatively extract unnecessary gas when using this kind of mode, also can cause the waste of a large amount of valuable gas.

-patent US2009/0106889 A1 Therapeutic Bath Liner its use air blast enter bathtub and produce micro-bubble and carry out bathing, the pressure of its mode and gas and fluid exchange can not make gas be dissolved in the water in a large number, also cannot form small nanometer foam.

-patent US20080243094A1 Bathtub Apparatus, Therapeutic BathtubApparatus, Bathing Water and Therapeutic Bathing Water, it can not make gas in the process of dissolving, gas and liquid is made fully to carry out mass transfer exchange under pressure state, the a large amount of dissolvings of gas in water cannot be formed, water circulation in its bathtub used the mode exchanged with the continuous mass transfer of gas, if use valuable gas as oxygen, hydrogen etc. can cause a large amount of wastes, and the breathing of bathing person in bathing process is affected and produces discomfort.Because its mass transfer exchange efficiency is low, the gas that solubility is larger can only be applied to, as carbon dioxide.

Following patent all relates to exchange formation foam between gas and liquid and keeps healthy to human body or medical treatment, but all cannot realize forming nanometer foam by improving the solubility of gas in water.

-CN201320280975 bathtub formula hydrotherapeutics machines,

-US6499154B1 Bubble Jetting Apparatus,

-US 6317903B1 Bathtub Design With Therapeutical Treatment Devices,

-US2011/0220229 Water Supply Apparatus of Hydrotherapy System,

-US8205277B2 and US2008/0206362, US8136800B2 Device and Method forIncreasing Blood Flow and Insulin-like Growth Factor,

-US2008/0189847 A1 Manufacturing Method for Micro-nano BubbleBathtubwater and Mocro-nano Bubble Bathtub。

Because the fineness of bubble is thinner, more remarkable to micro-massage effect of human body, more obvious to the effect that stimulates circulation.

What listed patent all disclosed above is make air as the means forming microvesicle, because the solubility of air is extremely low, is difficult to form nanometer microvesicle.Some medicative gas, the solubility as hydrogen, oxygen, ozone etc. is extremely low, be difficult to use the listed mode of traditional approach or more to increase its solubility and safety be applied to bathing.

In order to solve the problem, need that invention is a kind of to be realized by the soluble gas such as carbon dioxide, air, oxygen, hydrogen, ozone or its gas dissolution mutually mixed in water badly, and produce bathing nanometer microbubble generator and the bathing system of nanoscale microbubble.

Utility model content

In view of the above-mentioned deficiency of prior art, the utility model proposes a kind of realization by the soluble gas such as carbon dioxide, air, oxygen, hydrogen, ozone or its gas dissolution mutually mixed in water, and produce bathing nanometer microbubble generator and the bathing system of nanoscale microbubble.

For achieving the above object, the utility model provides a kind of bathing nanometer microbubble generator, comprise: for providing the gas generator of soluble gas, for providing the water-feed of water, and for described soluble gas and described water are carried out dissolving the blender mixed, described gas generator and described water-feed are distinguished in conducting to described blender, export after described soluble gas and described water carry out mixed dissolution in described blender.

Wherein, described blender at least comprises a static mixing element and a mixed pipe line, and described gas generator and described water-feed conducting are on described mixed pipe line one end, and the other end conducting of described mixed pipe line is connected on described static mixing element.

Described static mixing element inside is formed with at least one mixing chamber, is filled with granule filler and/or loose structure thing in described mixing chamber.

As further improvement of the utility model, described mixing chamber is multiple, and multiple described mixing chamber series connection and/or parallel combination, the internal diameter of described mixing chamber is greater than the connection bore between adjacent described mixing chamber.The combination of the combination that the utility model selects multiple described mixing chamber to connect successively according to actual needs or multiple described mixing chamber parallel connection or multiple described mixing chamber is carried out the mode of connection in series-parallel alternate combinations, the mixing chamber combination of series connection can make soluble gas and water repeatedly exchange fusion, mixing chamber combination in parallel can make soluble gas and water shunt when flow is larger, keep same pressure to carry out exchange to merge, and improve treatment effeciency, in addition, the utility model also requires that the internal diameter of described mixing chamber is greater than the connection bore between adjacent described mixing chamber, the exchange frequency that soluble gas and water increase soluble gas and water while by build-up pressure inner during mixing chamber can be improved further.

As further improvement of the utility model, arbitrary described mixing chamber vertically cross section is rectangle, rhombus or shuttle shape.

As further improvement of the utility model, the grain shape of described granule filler is ball-point pen type or irregularly shaped, and average diameter of particles is 0.5 millimeter to 10 millimeters.

As further improvement of the utility model, described blender also comprises a dynamic hybrid element, described dynamic hybrid element is a dynamic mixers, described dynamic mixers includes stator, rotor and housing, described stator and described rotor are arranged in described housing, one end of described housing is provided with the input for importing described soluble gas and described water, the other end of described housing is provided with the output for exporting air-water mixture, described output connects in conducting to described mixed pipe line, described gas generator and described water-feed are connected on described mixed pipe line one end by the input of described housing and output conducting successively.

As further improvement of the utility model, pressure in described blender is minimum is 1bar, the pressure of the water that described water-feed provides is greater than the pressure in described blender, and the pressure of the soluble gas that described gas generator provides is greater than the pressure in described blender.

As further improvement of the utility model, the soluble gas that described gas generator exports is carbon dioxide, oxygen, hydrogen and/or ozone.

As further improvement of the utility model, described water-feed comprises: water source, heater and water delivery pump, connect described water source, described heater and described water delivery pump by water supply line successively conducting, externally exported the water of band certain process stage and temperature by described water delivery pump.

As further improvement of the utility model, described gas generator comprises: solubility source of the gas and gas pressurizing delivery pump, described solubility source of the gas connects gas boosting delivery pump by steam line, is externally exported the soluble gas of band certain process stage by gas boosting delivery pump.

As further improvement of the utility model, described gas boosting delivery pump is membrane pump or plunger displacement pump.

As further improvement of the utility model, described gas boosting conveying delivery side of pump is provided with when being greater than gas delivery pressure for anti-sealing discharge pressure and causes described gas boosting delivery pump to occur the check valve damaged.

As further improvement of the utility model, described gas boosting conveying delivery side of pump is also provided with gas flowmeter and pressure-reducing valve.

As further improvement of the utility model, described bathing nanometer microbubble generator also comprises the gas-liquid separation device for separating of the soluble gas be not dissolved in the water in device, described gas-liquid separation device is arranged on the gas-liquid mixed output of described static mixing element, carries out separation extract out the gas be not dissolved in water.

As further improvement of the utility model, described bathing nanometer microbubble generator also comprises the tail gas cancellation element being separated the soluble gas of extracting out for eliminating described gas-liquid separation device, the gas that described tail gas cancellation element is connected to described gas-liquid separation device is extracted out on end, and soluble gas separation being extracted out by the method for catalysis or heating turns to innocuous gas and drains into space outerpace.

As further improvement of the utility model, the gas of described gas-liquid separation device is extracted end out and is connected directly on described gas generator, carries out the circulation and stress recycling of soluble gas.

Main working process and the operation principle of the utility model bathing nanometer microbubble generator are as follows:

Bathing nanometer microbubble generator of the present utility model provides soluble gas by gas generator, water is provided by water-feed, by mixed pipe line, described soluble gas and water are carried out the special static mixing element of Mixed design, in the mixing chamber of static mixing element, carry out static mixing and fully contact lysis, and described soluble gas and water are by fully contacting when described granule filler and/or loose structure thing and forming certain pressure and make soluble gas and water merge fully.

From the fundamentum increasing gas solubility, bathing nanometer microbubble generator of the present utility model effectively can increase solution presasure during gas dissolution, and increases the contact area of soluble gas and water, thus greatly increases its solubility.

Therefore, water under the exportable pressure state of bathing nanometer microbubble generator of the present utility model after dissolved gas is to the outside of atmospheric pressure state, the gas be dissolved in water can form nano level gas micro-bubble and slow releasing due to hypotension, realize nanometer microvesicle to occur, treat clean surface in microbubble ruptures process to hit, dirt can be removed, and during for human epidermal clean, human body by epidermal absorption oxygen or ozone or hydrogen, can play remove human free radical or in and blood of human body acidity object and increase blood circulation.Wherein, the utility model is filled with granule filler and/or loose structure thing in the mixing chamber of static mixing element makes soluble gas and water exchanging dissolve by fully carrying out gas-liquid contact during static mixing element, its inner resistance produced can make soluble gas and water pressure before entering static mixing element raise, and makes soluble gas and water increase the exchange frequency of soluble gas and water while by build-up pressure inner during mixing chamber.

The utility model also proposed a kind of bathing system, comprise bathing appts and bubble generator, described bubble generator is above-mentioned bathing nanometer microbubble generator, soluble gas and water are after described bubble generator carries out mixed dissolution, in water under output pressure state after dissolved gas to described bathing appts, water under described pressure state after dissolved gas is released to normal pressure after being transported to bathing appts, the gas be dissolved in water forms nano level gas micro-bubble and slow releasing due to hypotension, clean surface can be treated in microbubble ruptures process hit, remove dirt, and during for human epidermal clean, human body is by epidermal absorption oxygen or ozone or hydrogen, can play remove human free radical or in and blood of human body acidity object and increase blood circulation.

As further improvement of the utility model, described bathing appts is spray thrower, foot-bathing bucket, sauna box, bathtub or bath bucket.

As further improvement of the utility model, described bathing appts is also provided with lid and negative pressure exhaust mouth, described cover cap is combined on the uncovered end face of described bathing appts, described lid is reserved with the notch part stretched out for human body head, described notch part is extended internally by a side end face of described lid and is formed, the conducting of described negative pressure exhaust mouth is arranged on described bathing appts and/or described lid, discharges the gas discharged from nanometer microvesicle.

As further improvement of the utility model, described lid is by fixing lid and slip lid forms, and described slip lid can relative to described fixing lid and bathing appts horizontal slip, and described notch part is opened on described slip lid.

The specific works process of bathing system of the present utility model with reference to the course of work of above-mentioned bathing nanometer microbubble generator and operation principle, can repeat no more herein.

The main beneficial effect that bathing nanometer microbubble generator of the present utility model and bathing system have is as follows:

1, bathing nanometer microbubble generator of the present utility model can realize by the soluble gas such as carbon dioxide, air, oxygen, hydrogen, ozone or its gas dissolution mutually mixed in water, and efficiently produces nanoscale microbubble.

2, bathing nanometer microbubble generator of the present utility model significantly promotes that soluble gas is dissolved in water, greatly improves the meltage of per unit water dissolved gas, and improves mass transfer velocity and the mixing efficiency of soluble gas and water greatly further.Be specially: the static mixing element of built-in multiple described mixing chamber series connection and/or parallel combination type, and the internal diameter of described mixing chamber is greater than the connection bore between adjacent described mixing chamber, soluble gas and water is made to increase the exchange frequency of soluble gas and water while by build-up pressure inner during mixing chamber; Described blender adds dynamic hybrid element further, use of being association of activity and inertia, and dissolves more thorough.

By booster pump, first supercharging is carried out to soluble gas, and the dynamic mixers adopting rotor or rotor to combine with stator makes the soluble gas after supercharging and the water with certain pressure under stress abundant mass transfer, thus quickening soluble gas is dissolved into the speed in water, improve mixing efficiency, finally export and dissolve sufficient liquid.

3, bathing nanometer microbubble generator use procedure safety and environmental protection of the present utility model, carries out recycle and reuse or elimination to not consoluet soluble gas, can not work the mischief to peripheral space and user of service.

4, bathing system of the present utility model, except possessing the advantage of bathing nanometer microbubble generator of the present utility model, also by installing lid and negative pressure exhaust mouth additional further, further increases the security of bathing system and property easy to use.

5, bathing nanometer microbubble generator of the present utility model and bathing system applied widely, except applicable human body bathing and shower, be also applicable to the application as animal bathing, article cleaning, fruits and vegetables cleaning etc. need microvesicle to clean.Utilize the utility model that ozone gas can be used to be dissolved in the water, and use the water of dissolved ozone to carry out disinfection application or the application that carries out disinfection to water itself.Enlighten by the utility model or use method of the present utility model to be applied in other application in water of gas continuous-dissolution also within the utility model scope.

Be described further below with reference to the technique effect of accompanying drawing to design of the present utility model, concrete structure and generation, to understand the purpose of this utility model, characteristic sum effect fully.

Accompanying drawing explanation

Fig. 1 is the principle schematic of embodiment one bathing nanometer microbubble generator.

Fig. 2 is the structural representation of embodiment one bathing nanometer microbubble generator.

Fig. 3 is the structural representation of embodiment one static mixing element.

Fig. 4 is the structural representation of the granule filler of filling in embodiment one static mixing element.

Fig. 5 is the structural representation after embodiment one bathing nanometer microbubble generator improves further.

Fig. 6 is the structural representation of static mixing element in other embodiments.

Fig. 7 is the structural representation of static mixing element in other embodiments.

Fig. 8 is the structural representation of the granule filler of filling in static mixing element in other embodiments.

Fig. 9 is the structural representation of embodiment two bathing nanometer microbubble generator.

Figure 10 is the structural representation of the dynamic hybrid element of embodiment two.

Figure 11 is the embodiment two dynamically stator of hybrid element and the structural representation of housing.

Figure 12 is the structural representation of the rotor of the dynamic hybrid element of embodiment two.

Figure 13 is the structural representation of embodiment three bathing system.

Figure 14 is the structural representation of embodiment four bathing system.

Description of symbols in figure:

Gas generator 100, solubility source of the gas 110, gas boosting delivery pump 120, gas flowmeter 130, pressure-reducing valve 140, check valve 150, water-feed 200, water source 210, heater 220, water delivery pump 230, Pressure gauge 240, blender 300, static mixing element 310, mixing chamber 311, connecting portion 312, granule filler 313, mixed pipe line 320, dynamic hybrid element 330, stator 331, rotor 332, housing 333, output 334, water input 335, gas input 336, pressure monitoring table 337, gas-liquid separation device 400, tail gas cancellation element 500, bathing appts 600, lid 700, notch part 710, fixing lid 720, slip lid 730, negative pressure exhaust mouth 800.

Detailed description of the invention

Embodiment one:

Fig. 1 is the principle schematic of embodiment one bathing nanometer microbubble generator.As shown in Figure 1, the present embodiment proposes a kind of bathing nanometer microbubble generator, it comprises: for providing the gas generator 100 of the soluble gas under certain process stage, for providing the water-feed 200 of water under certain process stage, and dissolve for described soluble gas and described water being carried out the blender 300 mixed, gas generator 100 and water-feed 200 respectively conducting, in blender 300, export after described soluble gas and described water carry out mixed dissolution in blender 300.

Fig. 2 is the structural representation of embodiment one bathing nanometer microbubble generator.Exemplary, as shown in Figure 2, the blender 300 of the present embodiment comprises static mixing element 310 and a mixed pipe line 320, gas generator 100 and water-feed 200 are by the common conducting of three-way pipe on mixed pipe line 320 one end, and the other end conducting of mixed pipe line 320 is connected on static mixing element 310.

Exemplary, as shown in Figure 3 and Figure 4, static mixing element 310 inside of the present embodiment is formed with three mixing chambers 311, three mixing chambers 311 tandem compound successively as shown in Figure 3, arbitrary mixing chamber 311 vertically cross section is rectangle, be specially each mixing chamber 311 and be cylindrical cavity, and the internal diameter of mixing chamber 311 is greater than the connection bore (internal diameter) of the connecting portion 312 between adjacent described mixing chamber, and granule filler 313 is filled with in mixing chamber 311, as shown in Figure 4, the grain shape of granule filler 313 is ball-point pen type, average diameter of particles is 0.5 millimeter to 10 millimeters.

Of course, in other embodiments, as shown in Figure 6 and Figure 7, the quantity of the mixing chamber 311 of the static mixing element 310 inside formation of the present embodiment also can be one or other quantity, its concrete shape vertically cross section can also be as Fig. 6 shuttle shape or as other shapes such as Fig. 7 rhombuses, mixing chamber 311 also combines by parallel or connection in series-parallel combination of interlocking, and the quantity of static mixing element 310 also can arrange multiple according to actual needs, repeatedly dissolves.As shown in Figure 8, the granule filler 313 of the present embodiment also can adopt other irregularly shaped and filler particles that is diameter, granule filler can also replace with loose structure thing, make gas and water increase the exchange frequency of gas and water while by build-up pressure inner during described loose structure thing, repeat no more herein.

Concrete, as shown in Figure 2, the water-feed 200 of the present embodiment comprises: water source 210, heater 220 and water delivery pump 230, connects water source 210, heater 220 and water delivery pump 230 by water supply line successively conducting, is externally exported the water of band certain process stage and temperature by water delivery pump 230.The gas generator 100 of the present embodiment comprises: solubility source of the gas 110 and gas pressurizing delivery pump 120, solubility source of the gas 110 connects gas boosting delivery pump 120 by steam line, is externally exported the soluble gas of band certain process stage by gas boosting delivery pump 120.The output of gas boosting delivery pump 120 is provided with gas flowmeter 130 and pressure-reducing valve 140, and when being greater than gas delivery pressure for anti-sealing discharge pressure, causes gas boosting delivery pump to occur the check valve 150 damaged.

Wherein, water delivery pump 230 and gas pressurizing delivery pump 120 all can choose corresponding outsourcing piece according to delivery requirements, as gas boosting delivery pump 120 can select the gas boosting delivery pump of the type such as membrane pump or plunger displacement pump.

In addition, the further embodiment of the present embodiment, as shown in Figure 5, the bathing nanometer microbubble generator of the present embodiment also comprises: for separating of the gas-liquid separation device 400 of the soluble gas be not dissolved in the water in device, and is separated the tail gas cancellation element 500 of the soluble gas of extracting out for eliminating described gas-liquid separation device.Gas-liquid separation device 400 is arranged on the gas-liquid mixed output of static mixing element 310, carries out separation extract out the gas be not dissolved in water; Tail gas cancellation element 500 turns to innocuous gas by the soluble gas that the method for catalysis or heating makes separation extract out and drains into space outerpace.

Concrete, the pressure in the blender 300 of the present embodiment is minimum is 1bar, and the pressure of the water that water-feed 200 provides is greater than the pressure in blender 300, and the pressure of the soluble gas that gas generator 100 provides is greater than the pressure in blender 300.Water under the described certain process stage that the water-feed 200 of the present embodiment provides, can be after normal temperature or heating or through purification, or containing there being the water for the treatment of, health-care effect medicine to human body, also can be the bath product or the essential oil that health are had to health-care effect.The soluble gas that gas generator 100 exports is selected as required as carbon dioxide, oxygen, hydrogen, ozone and/or other water-soluble gas harmless to human non-toxic, and one or more are used in combination.The pressure of water and soluble gas carries out adjustment according to actual needs and arranges.

Exemplary, the soluble gas that the gas generator 100 of the present embodiment exports is oxygen, and the water source of water-feed 200 is water source from the beginning, utilizes the generating process of the generation nanoscale bubbles of oxygen of the bathing nanometer microbubble generator of the present embodiment as follows:

The water source 210 of the present embodiment is the running water after purification, heat (heater 220 can be electric heater or gas water heater) through heater 220, then be transported on mixed pipe line 320 by water delivery pump 230 with the speed of 4 liters per minute, water delivery pump 230 output can detect the pressure of water by setting pressure table 240, the rotating speed that the flow-control of the water that water delivery pump 230 exports can control water delivery pump 230 by electric elements as PLC (not shown) controls flow, also whether can installing fluid flowmeter before water delivery pump 230 or after water delivery pump 230, to detect the flow of water accurate.Water delivery pump 230 makes water produce when centrifugal pump etc. can be selected to carry can more than the delivery pump of 1.5bar pressure.

Solubility source of the gas 110 uses oxygen purity 99.5% business gas cylinder, at the use initial stage, because the pressure of new gas cylinder is higher, controls air pressure be greater than 1.5bar and flow is 3 liters per minute by controlling pressure-reducing valve 140 and gas flowmeter 130.But when after solubility source of the gas 110 uses for a long time, storage pressure is lower than 1.5bar, when cannot reach transport condition, namely when lower than 1.5bar required by blender, for providing of the soluble gas under maintenance certain process stage, be that (rotating speed of the electronic signal adjustment gas boosting delivery pump sent by such as PLC is to control gas flow for 3 Liter Per Minutes by the speed of adjustment gas boosting delivery pump 120 to make gas enter pressure in blender 300 more than 1.5bar flow, also by PLC control mass-flow gas meter or adjustment gas pressure control gas flow in conjunction with ball float flowmeter).Start water-feed 200 simultaneously, regulate the temperature of water, flow and pressure as required, export and be less than the water under the certain process stage of output gas pressure with being greater than pressure in blender 300.Oxygen jointly imports in the mixing chamber 311 of static mixing element 310 by mixed pipe line 320 via three-way pipe together with water, by the mixing chamber 311 of section serial combination type of three as shown in Figure 4, oxygen and water by forming certain pressure in the granule filler 313 of ball-point pen type and the process of connecting portion 312, and make oxygen contact fusion more fully with water.

Water after the abundant fusion of static mixing element 310 under output pressure state after dissolved gas is to the outside of atmospheric pressure state, be exposed in the external environment condition under atmospheric pressure state, the gas be dissolved in water can form nano level gas micro-bubble and slow releasing due to hypotension, nanometer microvesicle can be realized occur, surface to be cleaned can be directly sprayed in, clean surface will be treated in microbubble ruptures process hit, and fully remove dirt and increase blood circulation.

Wherein, the present embodiment also can carry out gas-liquid separation before output uses and tail gas is eliminated, and that avoids remnants is not affected result of use by dissolved gases.Of course, in other specific embodiments also can directly by the gas discharging of gas-liquid separation gained in air, or by the gas of described gas-liquid separation device extract out end be connected directly on described gas generator, carry out soluble gas circulation and stress recycling.

Embodiment two:

Fig. 9 is the structural representation of embodiment two bathing nanometer microbubble generator.As shown in Figure 9, the present embodiment proposes again a kind of bathing nanometer microbubble generator, the present embodiment further improves on the basis of embodiment one, is with the main difference part of embodiment one: in blender 300, added dynamic hybrid element 330 further.

The blender 300 that the bathing nanometer microbubble generator of the present embodiment adopts is except comprising static mixing element 310 and mixed pipe line 320, also include a dynamic hybrid element 330, as shown in Figure 10 to Figure 12, the dynamic hybrid element 330 of the present embodiment be a dynamic mixers, described dynamic mixers includes stator 331, rotor 332 and housing 333, stator 331 and rotor 332 are arranged in housing 333, one end of housing 333 is provided with the input for importing described soluble gas and described water, the other end of housing 333 is provided with the output 334 for exporting air-water mixture, described output connects conducting on mixed pipe line 320, gas generator 100 and water-feed 200 are connected on mixed pipe line 320 one end by the input of housing 333 and output conducting successively, as shown in Figure 9, dynamic hybrid element 330 instead of the setting of the described three-way pipe on mixed pipe line 320 one end.

Concrete, as shown in Figure 10, the described input of the dynamic hybrid element 330 of the present embodiment is divided into the gentle input 336 of water input 335, water enters in the housing 333 of dynamic hybrid element 330 from water input 335, gas enters in the housing 333 of dynamic hybrid element 330 from gas input 336, and gas and water carry out mixed dissolution in enclosure interior.An input also can be set in other embodiments, after gas and water are merged by three-way pipe, unification enters in the housing of dynamic hybrid element by input, concrete magnitude setting and the setting position of dynamic hybrid element 330 also can adjust as required, repeat no more herein.

Exemplary, as shown in figure 12, the rotor 332 of the present embodiment is with circular or square tooth, by motor-driven axle driven rotary, rotor 332 leaks from static mixing element for the gentle body of anti-sealing in the process rotated, and the sealing of described axle and described housing uses single section mechanical seal or packing seal.As shown in figure 11, with circular or square tooth on the stator 331 of the present embodiment, inwardly extended to form by the inner circumferential sidewall of housing 333.It is inner that rotor 332 inserts housing 333, forms tooth and tooth is interlaced between rotor 332 and stator 331.Rotor 332 rotates in stator 331, gas and water are contacted with each other when housing 333 inner cavity chamber of the dynamic hybrid element 330 by being made up of rotor 332 and stator 331 mixed dissolution, and mixed gas and water flow out from the output 334 of the housing 333 of dynamic hybrid element.By the rotating speed of rotor 332, gas is fully contacted with water during mixing, increase the contact surface area of water and gas, increase the solubility of gas in water, more the solubility of atmospheric in water is larger for the rotating speed of rotor.Blend pressure in dynamic hybrid element 330 need more than 1.5bar, and during pressure larger mixing, the solubility of gas in water is larger.Pressure in housing 333 can be adjusted by the pipeline thickness of adjustment connection housing 333 output 334 or length, the output 334 of housing 333 is connected on static mixing element 310 by mixed pipe line 320, to reach the pressure that increases in dynamic hybrid element 330 and to promote the object of solute effect.In dynamic hybrid element 330 or on the output 334 of housing 333 or with mixed pipe line 320 on can detect pressure in dynamic hybrid element 330 by setting pressure monitoring form 337.

In the present embodiment, the setting of miscellaneous part and embody rule process with reference to the specific descriptions of embodiment one, can repeat no more herein.

Embodiment three:

Figure 13 is the structural representation of embodiment three bathing system.As shown in figure 13, the present embodiment proposes a kind of bathing system, it comprises bathing appts and bubble generator, described bubble generator is the bathing nanometer microbubble generator (concrete structure is with reference to embodiment one) described in embodiment one, soluble gas and water are after described bubble generator carries out mixed dissolution, in water under output pressure state after dissolved gas to described bathing appts, water under described pressure state after dissolved gas is released to normal pressure after being transported to bathing appts, the gas be dissolved in water forms nano level gas micro-bubble and slow releasing due to hypotension, clean surface can be treated in microbubble ruptures process hit, remove dirt, meanwhile, human body is by the profound large-area contact of epidermis and absorb oxygen or ozone or hydrogen, can play remove human free radical or in and blood of human body acidity object and increase blood circulation.

Concrete, as shown in figure 13, the bathing appts 600 of the present embodiment is bathtub, in the output input bathing appts 600 of described bubble generator, and on bathing appts 600, be also provided with lid 700 and negative pressure exhaust mouth 800, lid 700 covers on the uncovered end face of bathing appts 600, lid 700 is reserved with the notch part 710 stretched out for human body head, notch part 710 is extended internally by a side end face of lid 700 and is formed, negative pressure exhaust mouth 800 conducting is arranged on bathing appts 600 and lid 700, discharges the gas discharged from nanometer microvesicle.

Exemplary, the lid 700 of the present embodiment is made up of fixing lid 720 and slip lid 730, slip lid 730 can relative to fixing lid 720 and bathing appts 600 horizontal slip, notch part 710 is opened on slip lid 730, fixing lid 720 solid covers on the side of the uncovered end face of bathing appts 600, slip lid 730 is slidably arranged on the opposite side of the uncovered end face of bathing appts 600, and correspondence arranges slide rail on the dual-side and the uncovered end face edge of bathing appts 600 of slip lid 730, make slip lid 730 can in the enterprising line slip of the uncovered end face of bathing appts 600, and slidably to fixing lid 720.The present embodiment negative pressure exhaust mouth 800 is the spaces utilizing external connection row blower fan to be placed by the gas discharged from nanometer microvesicle discharge bathing appts 600.

In other specific embodiments, the particular location that described negative pressure exhaust mouth conducting is arranged by reach gas in bathing appts discharge for the purpose of any part settle, bathing appts side wall upper part can be arranged on or described lid is first-class.Described lid can also adopt other modes to combinationally use, and if lid can be that an overall plate covers on the uncovered end face of bathing appts, also can be that polylith slides or is movably hinged setting.And all positions of electrical control that can use such as gas boosting delivery pump, water delivery pump, dynamically hybrid element, exhaust blower, heater can use Electronic Control, carry out control connection with PLC and realize automation, also magnetic valve or operated pneumatic valve can be installed to control the connecting and disconnecting on each road at each pipeline enclosure, repeat no more herein.

Exemplary, user is to utilize the bathing system of the present embodiment to carry out the concrete service condition of bathing as follows:

User pushes slip lid 730 open, lie in bathing appts 600, then close slip lid 730, the head of user stretches out bathing appts 600 by notch part 710, then described bubble generator and negative pressure exhaust mouth is started, soluble gas and water are after described bubble generator carries out mixed dissolution, water under output pressure state after dissolved gas is in bathing appts 600, water under described pressure state after dissolved gas is released to normal pressure after being transported to bathing appts, the gas be dissolved in water forms nano level gas micro-bubble and slow releasing due to hypotension, in microbubble ruptures process, human skin is hit, remove dirt, meanwhile, human body is by the profound large-area contact of epidermis and absorb oxygen or ozone or hydrogen, can play remove human free radical or in and blood of human body acidity object and increase blood circulation.

Embodiment four:

Figure 14 is the structural representation of embodiment four bathing system.As shown in figure 14, the present embodiment also been proposed a kind of bathing system, the main difference part of itself and embodiment three is, the described bubble generator that the present embodiment adopts is the bathing nanometer microbubble generator (concrete structure is with reference to embodiment two) described in embodiment two, other concrete structures and use operation can the descriptions of reference example three, repeat no more herein.

It should be noted that, in other specific embodiments, the bathing appts that bathing system of the present utility model adopts can also be bath bucket, spray thrower, foot-bathing bucket or sauna box etc., also can be that spray thrower uses together in conjunction with bathtub etc., only need the output of bubble generator be connected on spray thrower, people, in the process of bathing, can water pouring to whole body by hand-held shower simultaneously.Of course, based on bathing nanometer microbubble generator of the present utility model and bathing system, except being applied to human body bathing, can also be applied in as animal bathing, article clean, the application that fruits and vegetables cleaning etc. needs microvesicle to clean.As utilized the utility model that ozone gas can be used to be dissolved in the water, and the water of dissolved ozone is used to carry out disinfection application or the application that carries out disinfection to water itself.

More than describe preferred embodiment of the present utility model in detail.Should be appreciated that those of ordinary skill in the art just can make many modifications and variations according to design of the present utility model without the need to creative work.Therefore, all technical staff in the art according to design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should by the determined protection domain of claims.

Claims (19)

1. a bathing nanometer microbubble generator, comprise: for providing the gas generator of soluble gas, for providing the water-feed of water, and for described soluble gas and water are carried out dissolving the blender mixed, described gas generator and described water-feed are distinguished in conducting to described blender, export after described soluble gas and water carry out mixed dissolution in described blender; It is characterized in that:

Described blender at least comprises a static mixing element and a mixed pipe line, and described gas generator and described water-feed conducting are on described mixed pipe line one end, and the other end conducting of described mixed pipe line is connected on described static mixing element;

Described static mixing element inside is formed with at least one mixing chamber, is filled with granule filler and/or loose structure thing in described mixing chamber.

2. bathing nanometer microbubble generator as claimed in claim 1, it is characterized in that: described mixing chamber is multiple, multiple described mixing chamber series connection and/or parallel combination, the internal diameter of described mixing chamber is greater than the connection bore between adjacent described mixing chamber.

3. bathing nanometer microbubble generator as claimed in claim 1 or 2, is characterized in that: arbitrary described mixing chamber vertically cross section is rectangle, rhombus or shuttle shape.

4. bathing nanometer microbubble generator as claimed in claim 1 or 2, it is characterized in that: the grain shape of described granule filler is ball-point pen type, average diameter of particles is 0.5 millimeter to 10 millimeters.

5. bathing nanometer microbubble generator as claimed in claim 1, it is characterized in that: described blender also comprises a dynamic hybrid element, described dynamic hybrid element is a dynamic mixers, described dynamic mixers includes stator, rotor and housing, described stator and described rotor are arranged in described housing, one end of described housing is provided with the input for importing described soluble gas and described water, the other end of described housing is provided with the output for exporting air-water mixture, described output connects in conducting to described mixed pipe line, described gas generator and described water-feed are connected on described mixed pipe line one end by the input of described housing and output conducting successively.

6. bathing nanometer microbubble generator as claimed in claim 1, is characterized in that: the soluble gas that described gas generator exports is carbon dioxide, oxygen, hydrogen and/or ozone.

7. bathing nanometer microbubble generator as claimed in claim 1, it is characterized in that: described water-feed comprises: water source, heater and water delivery pump, connect described water source, described heater and described water delivery pump by water supply line successively conducting, externally exported the water of band certain process stage and temperature by described water delivery pump.

8. the bathing nanometer microbubble generator as described in claim 1 or 2 or 7, it is characterized in that: described gas generator comprises: solubility source of the gas and gas pressurizing delivery pump, described solubility source of the gas connects gas boosting delivery pump by steam line, is externally exported the soluble gas of band certain process stage by gas boosting delivery pump.

9. bathing nanometer microbubble generator as claimed in claim 8, is characterized in that: described gas boosting delivery pump is membrane pump or plunger displacement pump.

10. bathing nanometer microbubble generator as claimed in claim 8, is characterized in that: described gas boosting conveying delivery side of pump is provided with when being greater than gas delivery pressure for anti-sealing discharge pressure and causes described gas boosting delivery pump to occur the check valve damaged.

11. bathing nanometer microbubble generators as claimed in claim 8, is characterized in that: described gas boosting conveying delivery side of pump is also provided with gas flowmeter and pressure-reducing valve.

12. bathing nanometer microbubble generators as described in claim 1 or 2 or 5, it is characterized in that: described bathing nanometer microbubble generator also comprises the gas-liquid separation device for separating of the soluble gas be not dissolved in the water in device, described gas-liquid separation device is arranged on the gas-liquid mixed output of described static mixing element, carries out separation extract out the gas be not dissolved in water.

13. bathing nanometer microbubble generators as claimed in claim 12, it is characterized in that: described bathing nanometer microbubble generator also comprises the tail gas cancellation element being separated the soluble gas of extracting out for eliminating described gas-liquid separation device, the gas that described tail gas cancellation element is connected to described gas-liquid separation device is extracted out on end.

14. bathing nanometer microbubble generators as claimed in claim 12, is characterized in that: the gas of described gas-liquid separation device is extracted end out and is connected directly on described gas generator, carry out the circulation and stress recycling of soluble gas.

15. 1 kinds of bathing systems, comprise bathing appts and bubble generator, it is characterized in that: described bubble generator is the bathing nanometer microbubble generator described in any one of claim 1-14, soluble gas and water are after described bubble generator carries out mixed dissolution, in water under output pressure state after dissolved gas to described bathing appts, water under described pressure state after dissolved gas is released to normal pressure after being transported to bathing appts, the gas be dissolved in water forms nano level gas micro-bubble and slow releasing due to hypotension, clean surface can be treated in microbubble ruptures process hit, remove dirt and can blood circulation be increased.

16. bathing systems as claimed in claim 15, is characterized in that: described bathing appts is spray thrower, foot-bathing bucket or sauna box.

17. bathing systems as claimed in claim 15, is characterized in that: described bathing appts is bathtub or bath bucket.

18. bathing systems as claimed in claim 17, it is characterized in that: described bathing appts is also provided with lid and negative pressure exhaust mouth, described cover cap is combined on the uncovered end face of described bathing appts, described lid is reserved with the notch part stretched out for human body head, described notch part is extended internally by a side end face of described lid and is formed, the conducting of described negative pressure exhaust mouth is arranged on described bathing appts and/or described lid, discharges the gas discharged from nanometer microvesicle.

19. bathing systems as claimed in claim 18, is characterized in that: described lid is by fixing lid and slip lid forms, and described slip lid can relative to described fixing lid and bathing appts horizontal slip, and described notch part is opened on described slip lid.