CN207596534U - Air-bubble producing device - Google Patents

Abstract

The utility model discloses air-bubble producing devices, belong to gas-vapor mix engineering device technique field, including：First water butt；Refrigeration equipment, evaporator tube are looped around the outside of the first water butt；Second water butt is located in the first water butt；Capping seals the opening at the top of the first water butt and the second water butt；First water pipe, one end are connect with supply equipment, and the other end is connected with the first accommodating cavity；Second water pipe, one end are connected with the first accommodating cavity；Booster pump is arranged on the second water pipe；Ejector is arranged in the second accommodating cavity, and the water inlet of ejector is connected with the other end of the second water pipe；Air inlet pipe, one end are connected with the second accommodating cavity, and the other end is connected with low pressure CO 2 gas source；Third water pipe, one end are connected with the second accommodating cavity, and the other end is connect with tap, and second solenoid valve is provided on third water pipe.The utility model can realize the output of a variety of flows, and buy low with use cost.

Description

Air-bubble producing device

Technical field

The utility model is related to gas-vapor mix engineering device technique fields.More specifically, the utility model is related to a kind of bubbles Water producing device.

Background technology

Air-bubble have promote intestines peristalsis, accelerate metabolism, relieve summer heat quench one's thirst, dispelling fatigue, make one generate satiety And then the advantages that controlling appetite.

The control valve type of existing tap is various, for mixer tap battery mostly using water mixing valve, passes through machinery Handle regulates and controls supply water temperature, but when needing to supply a variety of flows, is only difficult to realize the defeated of a variety of flows using only certain valve Go out.If desired for ice water, ice water refrigeration machine need to be installed.If desired for drainage is crossed, drainage and corresponding tap need to be installed.If desired for ice gas It is soaked, bubble water machine need to be installed.If desired for tap water, water mixing valve need to be installed, cause to put multiple product in kitchen, occupy kitchen Space.

Existing microbubble water generation device generally comprises booster water pump, with the water inlet pipe that is connected of compression pump inlet and with The outlet water butt being connected of the compression pump and the air inlet pipe and outlet pipe that are connected with water butt.During work, compression pump It rises and draws water pressurization, high pressure gas enters water butt simultaneously with water, and the process that gas is dissolved in water occurs in water butt, when beating When outputing mouth of a river water outlet, gas decompression release soluble in water, gas will in water be released in the form of micro-bubble. Since molten gas process is only occurred in into water process.Booster pump pressurizes water, flooding time very it is short water can be stored up it is full, in order to The air-bubble of high concentration is obtained in short time, the pressure of carbon dioxide need to be adjusted to high pressure, carbon dioxide is dense when increasing molten gas Degree.The pressure born of such structural requirement container is very high, and general device is subjected to the pressure of more than 1MPa, on the one hand causes The machining accuracy and sealing requirements of device are very high, and of high cost, service life is short.Another aspect device bears high pressure always, makes Used time can bring some security risks.

Utility model content

The purpose of this utility model is to provide a kind of air-bubble producing device, can realize the output of a variety of flows, and It is made to occupy little space, purchase is low with use cost.

In order to realize these purposes and other advantages according to the present utility model, air-bubble producing device is provided, including：

First water butt is semi-surrounding structure；

Refrigeration equipment, evaporator tube are looped around the outside of the first water butt；

Second water butt is semi-surrounding structure, and in the first water butt, the outer wall of the second water butt and the first storage The inner wall of bucket does not contact；

Capping seals the opening at the top of first water butt and second water butt, by first water storage Bucket, second water butt and the capping surround the first accommodating cavity, and second is surrounded by second water butt and the capping Accommodating cavity；

First water pipe, one end are connect with supply equipment, and the other end is connected with first accommodating cavity, is set on the first water pipe It is equipped with the first solenoid valve；

Second water pipe, one end are connected with first accommodating cavity；

Booster pump is arranged on second water pipe；

Ejector, is arranged on interior second accommodating cavity or its water outlet and air inlet is respectively positioned in the second accommodating cavity, The water inlet of ejector is connected with the other end of the second water pipe；

Air inlet pipe, one end are connected with second accommodating cavity, and the other end is connected with a low pressure CO 2 gas source；

Third water pipe, one end are connected with second accommodating cavity, and the other end is connect with tap, is provided on third water pipe Second solenoid valve.

Preferably, it in the air-bubble producing device, further includes：

First check valve is arranged in the air inlet pipe, and carbon dioxide gas physical efficiency enters second by the first check valve In accommodating cavity.

Preferably, it in the air-bubble producing device, further includes：

Second check valve is arranged on the second water pipe, and between one end of second water pipe and booster pump, the The water of one end of two water pipes can flow through the second check valve；

4th water pipe, one end is connected with the part on the second water pipe between the second check valve and booster pump, another End is connected with the second water butt, and third solenoid valve is provided on the 4th water pipe.

Preferably, it in the air-bubble producing device, further includes：

5th water pipe, one end are connected with the second accommodating cavity, and the other end is connected with the tap, is provided on the 5th water pipe 4th solenoid valve；

Third check valve is arranged on the 5th water pipe, and positioned at one end and the described 4th of the 5th water pipe Between solenoid valve, the water of one end of the 5th water pipe first flows through third check valve, passes through the 4th solenoid valve.

Preferably, described the is located in the air-bubble producing device, on the booster pump and the 5th water pipe Part connection between four solenoid valves and the third check valve；

The air-bubble producing device further includes：

4th check valve is arranged on the second water pipe, and between the booster pump and the ejector, booster pump The water pumped out can flow through the 4th check valve.

Preferably, it in the air-bubble producing device, further includes：

Upper water-level gauge is arranged in second accommodating cavity；

Lower water-level gauge is arranged in second accommodating cavity, and the bottom of lower water-level gauge is located at the lower section of upper water-level gauge, into One end of tracheae is located at the lower section of lower water-level gauge.

Preferably, it in the air-bubble producing device, further includes：

Lagging casing is semi-surrounding structure, and the first water butt is located in lagging casing, described to seal the heat preservation The opening at the top of shell, the inner wall of lagging casing are not contacted with the outer wall of the first water butt, by lagging casing, capping and first Water butt surrounds third accommodating cavity, and the evaporator tube is located in third accommodating cavity；

Support column, inner hollow, one end of support column are fixedly connected with the bottom of the lagging casing, and the other end passes through The bottom of first water butt, and fix and be seamlessly connected with the bottom of first water butt, it is spaced on the support column Multiple through-holes are provided with, the through-hole is connected with the third accommodating cavity；

First sheet body, inner hollow, and in first accommodating cavity, the first sheet body is connect with support column, and the The inside of one sheet body is connected with the inside of support column；

Electromagnetic coil is arranged on the lagging casing；

Impulse generator is connect with the electromagnetic coil；

Wherein, the third accommodating cavity, the support column and described first are provided with magnetic fluid and non-magnetic fluid in vivo, The proportion of magnetic fluid is small compared with non-magnetic fluid.

Preferably, in the air-bubble producing device, the other end of the support column sequentially passes through first storage The bottom of bucket and the bottom of second water butt, and the inside of second water butt is extended to, and store up with described second The bottom of bucket is fixed and is seamlessly connected；

The air-bubble producing device further includes：

Second sheet body, inner hollow, and in second accommodating cavity, the second sheet body is connect with support column, and the The inside of two sheet bodies is connected with the inside of support column, and described second is provided with magnetic fluid and non-magnetic fluid in vivo, magnetic fluid Proportion is small compared with non-magnetic fluid；

5th solenoid valve is set on the support columns, and between the first water butt and the second water butt.

Preferably, it in the air-bubble producing device, further includes：

Shell is shielded, is arranged on the outside of the lagging casing.

Preferably, it in the air-bubble producing device, is all provided in first water butt and second water butt Temperature sensor is equipped with, relief valve is provided on second water butt.

The utility model includes at least following advantageous effect：

The utility model can make ice water, and the ice air-bubble of high concentration can be made under low pressure CO 2, can It realizes the output of a variety of flows, and it is made to occupy little space, purchase is low with use cost, and service life is long.

The utility model is imported with magnetic fluid and non-in third accommodating cavity, support column, the first sheet body and the second sheet body Magnetic fluid, can be when refrigeration equipment works, by Conduction At Low Temperature to the first accommodating cavity and the second accommodating cavity, in refrigeration equipment not work Make, but when temperature in third accommodating cavity is still relatively low, the low temperature in third accommodating cavity is transmitted to the first water butt and the second storage In bucket.The utilization rate of refrigeration equipment is improved, reduces the working time of refrigeration equipment, cost can be greatlyd save.

Part is illustrated to embody by the further advantage, target and feature of the utility model by following, and part will also pass through Research and practice to the utility model and be understood by the person skilled in the art.

Description of the drawings

Fig. 1 is the structure diagram according to the air-bubble producing device of the utility model one embodiment；

Fig. 2 is the structure diagram according to the air-bubble producing device of the utility model another embodiment；

Fig. 3 is the structure diagram according to the air-bubble producing device of the utility model a still further embodiment；

Fig. 4 is the structure diagram according to the air-bubble producing device of the utility model others one embodiment；

Fig. 5 is the structure diagram according to the support column of the utility model one embodiment, the first sheet body and the second sheet body.

Specific embodiment

The following describes the utility model in further detail with reference to the accompanying drawings, to enable those skilled in the art with reference to explanation Book word can be implemented according to this.

It should be noted that in the description of the present invention, term " transverse direction ", " longitudinal direction ", " on ", " under ", " preceding ", The orientation or position relationship of the instructions such as " rear ", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer " be based on Orientation shown in the drawings or position relationship, are for only for ease of description the utility model and simplify and describe, and are not instruction or dark Show that signified device or element there must be specific orientation, with specific azimuth configuration and operation, therefore it is not intended that right The limitation of the utility model.

As shown in Figure 1, the utility model provides air-bubble producing device, including：

First water butt 100, is semi-surrounding structure, and opening up；

Refrigeration equipment 110, including compressor, evaporator, condenser and throttle valve etc., the evaporator tube 111 of evaporator It is looped around the outside of the first water butt 100；Other modes of the prior art can also be used to make the first water butt 100 It is cold.The effect of refrigeration equipment 110, i.e. refrigeration system or refrigeration machine, wherein compressor is into pressure the relatively low both vapor compression of pressure The higher steam of power reduces the volume of steam, pressure rise.The working medium of lower pressure that compressor sucking comes out from evaporator Steam is sent into condenser after being allowed to pressure rise, is condensed into the higher liquid of pressure within the condenser, after the throttle throttling, After the relatively low liquid of pressure, evaporator is sent into, absorbs heat and is evaporated as the relatively low steam of pressure in evaporator, is re-fed into The entrance of compressor, so as to complete refrigeration cycle.

Second water butt 120, is semi-surrounding structure, and opening up, and the second water butt 120 is located at the first water butt In 100, the outer wall of the second water butt 120 does not contact or separated by a distance with the inner wall of the first water butt 100, can also make second The bottom of water butt 120 does not contact or separated by a distance with the bottom of the first water butt 100, makes the outer of the second water butt 120 Wall is not contacted with the inner wall of the first water butt 100, but make between the two metastable realization method to be of the prior art any It is a kind of.For example, being arranged at intervals more connecting rods between the outer wall of the second water butt 120 and the inner wall of the first water butt 100, connect Inner wall of the both ends of bar respectively with the outer wall of the second water butt 120 and the first water butt 100 is connect, so that the first water butt 100 Inner wall and the second water butt 120 outer wall it is separated by a distance, and the water in the first accommodating cavity is enable to circulate；

Capping 130 seals the opening at the top of first water butt 100 and second water butt 120, capping 130 can be integrally formed, can also be divided into multiple portions, combined by multiple portions and seal first water butt 100 and the top of second water butt 120, by first water butt 100, second water butt 120 and the capping 130 surround the first accommodating cavity, and the second accommodating cavity is surrounded by second water butt 120 and the capping 130；In order to make ice During air-bubble, the first water butt 100 and the second water butt 120 and extraneous heat exchange are reduced, capping 130 can be arranged to have The lid of insulation effect, also can be in the external setting lagging casing 270 of the first water butt 100, and makes the evaporator tube of evaporator 111 between 270 and first water butt 100 of lagging casing.It, can be in capping 130 and its institute in order to which capping 130 is made to seal tightly It needs to set sealing ring between the object sealed.Capping 130 can be integrally formed with the object sealed required for it, be examined for convenience It repaiies, can also make capping 130 and the object that is sealed required for it detachably connected.

First water pipe 140, one end are connect with supply equipment 150, and the other end houses after passing through capping 130 with described first Chamber connects, and the first solenoid valve 141 is provided on the first water pipe 140；Supply equipment 150 be RO reverse osmosis water treatment facilities or its He is enough to handle equipment of the unboiled water to requirement is drunk.

Second water pipe 160, one end are connected with first accommodating cavity；

Booster pump 170 is arranged on second water pipe 160；

Ejector 180, is arranged on interior second accommodating cavity or its water outlet and air inlet is respectively positioned on the second accommodating cavity In, ejector 180 is fixed in capping 130, and the water inlet of ejector 180 is connected with the other end of the second water pipe 160；

Air inlet pipe 190, one end connect after passing through capping 130 with second accommodating cavity, the other end and a low pressure dioxy Change the connection of carbon gas source；Low pressure CO 2 gas source can be obtained after pressure reducing valve 210 depressurizes by dioxide bottle 200 or For in the prior art other obtain the mode of low pressure CO 2 gas.

Third water pipe 220, one end connect after passing through capping 130 with second accommodating cavity, and the other end is connect with tap, Second solenoid valve 221 is provided on third water pipe 220.

The air-bubble producing device that this programme provides, when in use, dioxide bottle is normally open, carbon dioxide gas Body is passed through after pressure reducing valve depressurizes, then through air inlet pipe 190 in the second accommodating cavity, when making ice air-bubble, opens the first electromagnetism Valve 141, and start booster pump 170 (because when the water in first installation or the second accommodating cavity reaches preset lower water level, dioxy It is normally open to change carbon gas cylinder, carbon dioxide gas is filled in the second accommodating cavity, gas pressure is in 0.2MPa or so, general family In hydraulic pressure it is relatively low, if will result in smaller than carbon dioxide gas pressure cannot intake, therefore in the second accommodating cavity in water inlet When start simultaneously booster pump pressurization.), the first water pipe of water source 140 of supply equipment 150 is imported in the first accommodating cavity, when the When water in one accommodating cavity reaches preset peak level, the first solenoid valve 141 is closed, water is made by refrigeration equipment 110 It is cold to be pressurized after a certain period of time by booster pump 170, it is then sprayed into the second accommodating cavity by ejector 180, ejector 180 uses Venturi principle, nozzle of the water through ejector 180 generate water jets under high pressure, and course of injection generates negative pressure and sucks in the second accommodating cavity Carbon dioxide forms gas-vapor mix jet stream at 180 trunnion of ejector, and carbon dioxide mixes rapidly and molten with water in jet process Solution forms ice air-bubble, enters in the second accommodating cavity through 180 water outlet of ejector, treats that the water in the first accommodating cavity is pumped into the After in two accommodating cavities, booster pump 170 is closed.

When that need to use ice air-bubble, tap and second solenoid valve 221 are opened, and ice air-bubble is come out by tap, is being gone out During ice air-bubble, the water level decreasing of the second water butt 120, the pressure of 120 epicoele of the second water butt reduces, at this time air inlet pipe Pressure is small in the second water butt of pressure ratio 120 at 190, and the second water butt 120 starts air inlet, stops air inlet after pressure balance, The pressure in the second water butt 120 can be made to be always held in setting range.

In one preferred embodiment, in the air-bubble producing device, further include：

First check valve 191 is arranged in the air inlet pipe 190, and carbon dioxide gas physical efficiency passes through the first check valve 191 Into in the second accommodating cavity.

In said program, by setting the first check valve 191, it can prevent when making air-bubble, air-bubble adverse current is extremely In gas cylinder.

In one preferred embodiment, as shown in Fig. 2, in the air-bubble producing device, further include：

Second check valve 161 is arranged on the second water pipe 160, and positioned at one end of second water pipe 160 and supercharging Between pump 170, the water of one end of the second water pipe 160 can flow through the second check valve 161；By setting the second check valve 161, can prevent Only when making air-bubble, in air-bubble adverse current to the first accommodating cavity.

Portion on 4th water pipe 230, one end and the second water pipe 160 between the second check valve 161 and booster pump 170 Connection, the other end is divided to be connected after passing through capping 130 with the second water butt 120, third solenoid valve is provided on the 4th water pipe 230 231。

In said program, when in use, dioxide bottle is normally open to air-bubble producing device, carbon dioxide gas Body is passed through after pressure reducing valve depressurizes, then through air inlet pipe 190 in the second accommodating cavity, when making ice air-bubble, opens the first electromagnetism Valve 141, and start booster pump 170, the first water pipe of water source 140 of supply equipment 150 is imported in the first accommodating cavity, when the first appearance When putting the water in chamber and reaching preset peak level, the first solenoid valve 141 is closed, after water is freezed by refrigeration equipment 110, It is pressurized by booster pump 170, is then sprayed into the second accommodating cavity by ejector 180, ejector 180 uses venturi principle, water Nozzle through ejector 180 generates water jets under high pressure, and course of injection generates the carbon dioxide that negative pressure is sucked in the second accommodating cavity, penetrating It flows and gas-vapor mix jet stream is formed at 180 trunnion of device, carbon dioxide is mixed and dissolved with water rapidly in jet process, through ejector 180 water outlets enter in the second accommodating cavity, after the water in the first accommodating cavity is pumped into the second accommodating cavity, third solenoid valve 231 open, and the air-bubble in the second water butt 120 sprays back the second accommodating cavity after the suction of booster pump 170 from ejector 180 In, course of injection is as molten gas principle during water inlet, using the molten gas of water jet is recycled, increases dissolved air time at low pressure to obtain Obtain high concentration air-bubble.After reaching setting time, third solenoid valve 231 and booster pump 170 are closed.

In one preferred embodiment, as shown in figure 3, in the air-bubble producing device, further include：

5th water pipe 240, one end are connected with the second accommodating cavity, specifically, can make one end and second of the 5th water pipe 240 Part connection on water pipe 160 between one end of second water pipe 160 and the second check valve 161, to realize itself and the Two accommodating cavities connect, and the other end is connected with the tap, and the 4th solenoid valve 241 is provided on the 5th water pipe 240；

Third check valve 242 is arranged on the 5th water pipe 240, and positioned at the 5th water pipe 240 one end and Between 4th solenoid valve 241, the water of one end of the 5th water pipe 240 first flows through third check valve 242, passes through the 4th Solenoid valve 241.It by setting third check valve 242, can prevent when going out air-bubble, in air-bubble adverse current to the first accommodating cavity.

In said program, when in use, dioxide bottle is normally open to air-bubble producing device, carbon dioxide gas Body is passed through through air inlet pipe 190 in the second accommodating cavity after pressure reducing valve depressurizes, and when making ice water, opens the first solenoid valve 141, And starting booster pump 170, the first water pipe of water source 140 of supply equipment 150 is imported in the first accommodating cavity, when in the first accommodating cavity Water when reaching preset peak level, the first solenoid valve 141 is closed, and after water is freezed by refrigeration equipment 110, opens the Four solenoid valves 241, ice water comes out from tap.

In one preferred embodiment, as shown in figure 4, in the air-bubble producing device, the booster pump 170 and described the Part connection on five water pipes 240 between the 4th solenoid valve 241 and the third check valve 242；

The air-bubble producing device further includes：

4th check valve 162 is arranged on the second water pipe 160, and positioned at the booster pump 170 and the ejector Between 180, the water that booster pump 170 pumps out can flow through the 4th check valve 162.By setting the 4th check valve 162 that can prevent tap When going out ice water, the 4th solenoid valve 241 is opened, and air-bubble is discharged due to the pressure upstream in the second accommodating cavity and ice water channelling.

In said program, touch tap and open respective switch, generate electric signal, second solenoid valve 221 is opened, air-bubble Through third water pipe 220 from tap water outlet.After stopping water, touch tap and close respective switch, control system sends out instruction and closes Close second solenoid valve 221.At this time due to there being air-bubble in third water pipe 220 after water outlet, and air-bubble has gas release, releases The gas put rises to faucet water outlet opening discharge, and gas pushes the water in outlet pipe to discharge together, causes while discharge Tap drips, for solve the problems, such as because, while second solenoid valve 221 is closed, the first solenoid valve 141, booster pump 170 and the 4th Solenoid valve 241 is opened 1-2 seconds, and ice water is passed through in outlet pipe, discharges the air-bubble in outlet pipe, and the first electricity is closed after 1-2 seconds Magnet valve 141,170 and the 4th solenoid valve 241 of booster pump.

In one preferred embodiment, in the air-bubble producing device, further include：

Upper water-level gauge 250 is arranged in second accommodating cavity, and is installed in capping 130；

Lower water-level gauge 260 is arranged in second accommodating cavity, and is installed in capping 130, lower water-level gauge 260 Bottom is located at the lower section of upper water-level gauge 250, and one end of air inlet pipe 190 is located at the lower section of lower water-level gauge 260.

In said program, the water level in the second accommodating cavity is detected by upper water-level gauge 250 and lower water-level gauge 260.It is existing The outlet side of air inlet pipe 190 in technology is arranged on the top of water-level gauge 250, and in air inlet, carbon dioxide seldom connects with water It touches, molten gas efficiency is low.This programme makes the outlet side of air inlet pipe 190 extend to the lower section of lower water-level gauge 260, the titanium dioxide in air inlet Carbon is injected directly into water, and gas is contributed to more easily to be dissolved in water, and then improves the concentration of air-bubble.

In one preferred embodiment, as shown in figure 5, in the air-bubble producing device, further include：

Lagging casing 270 is semi-surrounding structure, and the first water butt 100 is located in lagging casing 270, the capping 130 The opening at the top of the lagging casing 270 is sealed, the inner wall of lagging casing 270 is not contacted with the outer wall of the first water butt 100, The bottom of lagging casing 270 is not contacted with the bottom of the first water butt 100, makes the outer wall and lagging casing of the first water butt 100 270 inner wall does not contact, and the realization method for making distance between the two constant is any one of the prior art, for example, It is arranged at intervals more connecting rods between the two.Third accommodating cavity is surrounded by lagging casing 270,130 and first water butt 100 of capping, The evaporator tube 111 is located in third accommodating cavity；

Support column 280, inner hollow, one end of support column 280 are fixedly connected with the bottom of the lagging casing 270, The other end passes through the bottom of first water butt 100, and fixes and be seamlessly connected with the bottom of first water butt 100, Multiple through-holes 281 are arranged at intervals on the support column 280, the through-hole 281 is connected with the third accommodating cavity；

First sheet body 290, inner hollow, and in first accommodating cavity, the first sheet body 290 and support column 280 Connection, and the inside of the first sheet body 290 is connected with the inside of support column 280；First sheet body 290 is not interfered in the first accommodating cavity The circulation of water.The wall that first sheet body 290 is adjacent to the second water butt 120 is more preferable.

Electromagnetic coil 300 is arranged on the lagging casing 270；

Impulse generator is connect with the electromagnetic coil 300；

Wherein, magnetic fluid and non-is provided in the third accommodating cavity, the support column 280 and first sheet body 290 Magnetic fluid, the proportion of magnetic fluid are small compared with non-magnetic fluid.

In said program, magnetic fluid and non-is imported in third accommodating cavity, 280 and first sheet body 290 of support column The pulse power is conveyed to electromagnetic coil 300, generates electromagnetic coil 300 by magnetic fluid, controller control pulse power generator The magnetic field of alternation, when magnetic field become greater to peak value by zero, magnetic field magnetizes magnetic fluid, and the proportion of magnetic fluid is made constantly to increase, when When the proportion of magnetic fluid is more than the proportion of non-magnetic fluid, magnetic fluid declines, and non-magnetic fluid rises, magnetic fluid and non-magnetic fluid communication Position, the magnetic field that controller control electromagnetic coil 300 generates are varied down to zero by peak value, and the magnetic field of electromagnetic coil 300 disappears, magnetic current The proportion of body is restored to state originally smaller than non-magnetic specific gravity, and non-magnetic fluid drops to original position again after heat release, The magnetic fluid for absorbing heat rises to after origin-location is contacted with evaporator tube 111 and cools down；It so constantly recycles, in this process In, the low temperature that evaporator tube 111 generates can be transmitted to the bottom of the first water butt 100 by magnetic fluid and non-magnetic fluid, moreover it is possible into One step is transmitted to by the first sheet body 290 in the first accommodating cavity.It can make the utilization rate higher of evaporator in this way, especially in booster pump 170 and ejector 180 when generating high concentration ice air-bubble, the temperature of ice air-bubble, but the second water butt 120 and evaporation need to be maintained Device is not in direct contact, and low temperature can be transferred in the first accommodating cavity by the first sheet body 290, yet further pass through the second water butt 120 wall is transferred in the second accommodating cavity.When making high concentration ice air-bubble, refrigeration equipment 110 can close, and pass through magnetic fluid Low temperature remaining in accommodating cavity is further transmitted in the second water butt 120 with non-magnetic fluid.

In one preferred embodiment, in the air-bubble producing device, the other end of the support column 280 sequentially passes through institute The bottom of the first water butt 100 and the bottom of second water butt 120 are stated, and extends to the interior of second water butt 120 Portion, and fix and be seamlessly connected with the bottom of second water butt 120；

The air-bubble producing device further includes：

Second sheet body 310, inner hollow, and in second accommodating cavity, the second sheet body 310 and support column 280 Connection, and the inside of the second sheet body 310 is connected with the inside of support column 280, be provided in second sheet body 310 magnetic fluid with Non- magnetic fluid, the proportion of magnetic fluid are small compared with non-magnetic fluid；Second sheet body 310 and air inlet pipe 190, each water pipe, ejector 180, Upper and lower water-level gauge etc. is not interfered.

5th solenoid valve 282 is arranged on support column 280, and positioned at the first water butt 100 and the second water butt 120 Between.

In said program, it is only necessary to which when making ice water, the 5th solenoid valve 282 is closed, and magnetic fluid and non-magnetic fluid are in electricity Under the action of magnetic coil 300, flowed in third accommodating cavity and the first sheet body 290.When needing to make ice air-bubble, the 5th electricity Magnet valve 282 is opened, and magnetic fluid and non-magnetic fluid are under the action of electromagnetic coil 300, in third accommodating cavity and the first sheet body 290 and second flow in sheet body 310.Magnetic fluid, non-magnetic fluid, the first sheet body 290 and the second sheet body 310 are set, can freezed When equipment 110 works, by Conduction At Low Temperature to the first accommodating cavity and the second accommodating cavity, do not work in refrigeration equipment 110, but third When temperature in accommodating cavity is still relatively low, the low temperature in third accommodating cavity can be transmitted to the first water butt 100 and the second water butt In 120.

In one preferred embodiment, in the air-bubble producing device, further include：

Shell 320 is shielded, is arranged on the outside of the lagging casing 270.

In said program, shell 320 is shielded by setting and is avoided that electromagnetism generates radiation.

In one preferred embodiment, in the air-bubble producing device, first water butt 100 and second water storage Temperature sensor is both provided in bucket 120, relief valve 330 is provided on second water butt 120, when being avoided that equipment fault Hypertonia in second water butt 120.

In said program, by first water butt 100 and second water butt 120 set temperature sense Device can monitor the temperature in the first accommodating cavity and the second accommodating cavity in real time, and the operation of refrigeration equipment 110 is controlled by controller.

Although the embodiment of the utility model is disclosed as above, it is not restricted in specification and embodiment Listed utilization, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, Other modification is easily implemented, therefore without departing from the general concept defined in the claims and the equivalent scope, this reality Specific details and legend shown and described herein are not limited to novel.

Claims (10)

1. air-bubble producing device, which is characterized in that including：

First water butt is semi-surrounding structure；

Refrigeration equipment, evaporator tube are looped around the outside of the first water butt；

Second water butt is semi-surrounding structure, and in the first water butt, the outer wall of the second water butt and the first water butt Inner wall do not contact；

Capping seals the opening at the top of first water butt and second water butt, by first water butt, institute It states the second water butt and the capping surrounds the first accommodating cavity, surrounded second by second water butt and the capping and housed Chamber；

First water pipe, one end are connect with supply equipment, and the other end is connected with first accommodating cavity, is provided on the first water pipe First solenoid valve；

Second water pipe, one end are connected with first accommodating cavity；

Booster pump is arranged on second water pipe；

Ejector, is arranged on interior second accommodating cavity or its water outlet and air inlet is respectively positioned in the second accommodating cavity, jet stream The water inlet of device is connected with the other end of the second water pipe；

Air inlet pipe, one end are connected with second accommodating cavity, and the other end is connected with a low pressure CO 2 gas source；

Third water pipe, one end are connected with second accommodating cavity, and the other end is connect with tap, and second is provided on third water pipe Solenoid valve.

2. air-bubble producing device as described in claim 1, which is characterized in that further include：

First check valve is arranged in the air inlet pipe, and carbon dioxide gas physical efficiency enters second by the first check valve and houses Intracavitary.

3. air-bubble producing device as described in claim 1, which is characterized in that further include：

Second check valve is arranged on the second water pipe, and between one end of second water pipe and booster pump, the second water The water of one end of pipe can flow through the second check valve；

4th water pipe, one end are connected with the part on the second water pipe between the second check valve and booster pump, the other end with Second water butt connects, and third solenoid valve is provided on the 4th water pipe.

4. air-bubble producing device as claimed in claim 3, which is characterized in that further include：

5th water pipe, one end are connected with the second accommodating cavity, and the other end is connected with the tap, and the 4th is provided on the 5th water pipe Solenoid valve；

Third check valve is arranged on the 5th water pipe, and positioned at one end of the 5th water pipe and the 4th electromagnetism Between valve, the water of one end of the 5th water pipe first flows through third check valve, passes through the 4th solenoid valve.

5. air-bubble producing device as claimed in claim 4, which is characterized in that the booster pump and the 5th water pipe are upper Part connection between the 4th solenoid valve and the third check valve；

The air-bubble producing device further includes：

4th check valve is arranged on the second water pipe, and between the booster pump and the ejector, booster pump pumps out Water can flow through the 4th check valve.

6. air-bubble producing device as described in claim 1, which is characterized in that further include：

Upper water-level gauge is arranged in second accommodating cavity；

Lower water-level gauge is arranged in second accommodating cavity, and the bottom of lower water-level gauge is located at the lower section of upper water-level gauge, air inlet pipe One end be located at the lower section of lower water-level gauge.

7. the air-bubble producing device as described in claim 1 or 5, which is characterized in that further include：

Lagging casing is semi-surrounding structure, and the first water butt is located in lagging casing, described to seal the lagging casing Top opening, the inner wall of lagging casing do not contact with the outer wall of the first water butt, by lagging casing, capping and the first water storage Bucket surrounds third accommodating cavity, and the evaporator tube is located in third accommodating cavity；

Support column, inner hollow, one end of support column are fixedly connected with the bottom of the lagging casing, and the other end passes through described The bottom of first water butt, and fix and be seamlessly connected with the bottom of first water butt, it is arranged at intervals on the support column There are multiple through-holes, the through-hole is connected with the third accommodating cavity；

First sheet body, inner hollow, and in first accommodating cavity, the first sheet body is connect with support column, and first The inside of body is connected with the inside of support column；

Electromagnetic coil is arranged on the lagging casing；

Impulse generator is connect with the electromagnetic coil；

Wherein, the third accommodating cavity, the support column and described first are provided with magnetic fluid and non-magnetic fluid, magnetic current in vivo The proportion of body is small compared with non-magnetic fluid.

8. air-bubble producing device as claimed in claim 7, which is characterized in that the other end of the support column sequentially passes through institute State the bottom of the first water butt and the bottom of second water butt, and extend to the inside of second water butt, and with institute The bottom for stating the second water butt is fixed and is seamlessly connected；

The air-bubble producing device further includes：

Second sheet body, inner hollow, and in second accommodating cavity, the second sheet body is connect with support column, and second The inside of body is connected with the inside of support column, and described second is provided with magnetic fluid and non-magnetic fluid, the proportion of magnetic fluid in vivo It is small compared with non-magnetic fluid；

5th solenoid valve is set on the support columns, and between the first water butt and the second water butt.

9. air-bubble producing device as claimed in claim 7, which is characterized in that further include：

Shell is shielded, is arranged on the outside of the lagging casing.

10. air-bubble producing device as described in claim 1, which is characterized in that first water butt and second storage Temperature sensor is both provided in bucket, relief valve is provided on second water butt.