CN212246363U - Nano carbonic acid spring generating device - Google Patents
Nano carbonic acid spring generating device Download PDFInfo
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- CN212246363U CN212246363U CN202020413612.4U CN202020413612U CN212246363U CN 212246363 U CN212246363 U CN 212246363U CN 202020413612 U CN202020413612 U CN 202020413612U CN 212246363 U CN212246363 U CN 212246363U
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- inlet pipeline
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- carbonic acid
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Abstract
The utility model provides a nanometer carbonic acid spring generating device, which comprises a water inlet pipeline and an air inlet pipeline, output pipeline and gas water dissolve the chamber, the input intercommunication water source of inlet pipe, the input intercommunication carbon dioxide gas cylinder of inlet pipe, the output of inlet pipe and the output of inlet pipe pass through three-way pipe and gas water dissolve the chamber intercommunication, the gas water dissolve the chamber includes first gas water dissolve the chamber, second gas water dissolve chamber and third gas water dissolve the chamber, first gas water dissolve the chamber and be equipped with first liquid outlet, second gas water dissolve the chamber and be equipped with the second liquid outlet, first liquid outlet passes through connector and second liquid outlet intercommunication, first liquid outlet is equipped with first shower nozzle, the second liquid outlet is equipped with the second shower nozzle, the output and the third gas water dissolve the chamber intercommunication of connector, the output of connector is equipped with the pressure boost board, the third liquid outlet and the output pipeline intercommunication in third gas water dissolve chamber. The utility model discloses can prepare high concentration, nanometer carbonic acid spring, and need not the power, improve the security that carbonic acid spring used.
Description
Technical Field
The utility model relates to a carbonic acid spring generates equipment technical field, in particular to nanometer carbonic acid spring generates device.
Background
The carbonic acid hot spring is a hot spring containing more than 0.25 g of carbon dioxide gas in 1 liter of water, has the functions of stimulating blood vessels to cause capillary vessel expansion to cause skin flushing, improving skin blood circulation and enhancing resistance, is almost a cold spring, can be manually realized due to high water temperature and high carbon dioxide concentration, needs to be driven by a power supply when being generated by the traditional carbonic acid spring, has large volume, is relatively humid in the bathing environment of the carbonic acid spring, is easy to generate electric leakage and electric shock, has unsafe factors, and has lower carbon dioxide concentration and cannot play a good physical therapy role.
SUMMERY OF THE UTILITY MODEL
Therefore, the utility model provides a nanometer carbonic acid spring generates device, accessible air water dissolves the chamber and prepares out high concentration, nanometer carbonic acid spring, and need not the power, improves the security that carbonic acid spring used.
The technical scheme of the utility model is realized like this:
a nanometer carbonated spring generating device comprises a water inlet pipeline, an air inlet pipeline, an output pipeline and an air water dissolving cavity, wherein the input end of the water inlet pipeline is communicated with a water source, the input end of the air inlet pipeline is communicated with a carbon dioxide gas bottle, the output end of the water inlet pipeline and the output end of the air inlet pipeline are communicated with the air water dissolving cavity through a three-way pipe, the air water dissolving cavity comprises a first air water dissolving cavity, a second air water dissolving cavity and a third air water dissolving cavity, the first air water dissolving cavity is provided with a first liquid outlet, the second air water dissolving cavity is provided with a second liquid outlet, the first liquid outlet is communicated with the second liquid outlet through a connector, a first spray head is arranged at the first liquid outlet, a second spray head is arranged at the second liquid outlet, the output end of the connector is communicated with the third air water dissolving cavity, and a pressurizing plate is arranged, the pressure increasing plate is provided with a plurality of liquid outlet holes, the third gas-water dissolving cavity is provided with a third liquid outlet, and the third liquid outlet is communicated with the output pipeline.
Furthermore, a booster pump, a first ball valve, a first pressure reducing valve and a first check valve are sequentially connected to the water inlet pipeline.
Furthermore, a stop valve, a second pressure reducing valve, a second ball valve and a second check valve are sequentially connected to the air inlet pipeline.
Furthermore, a water pressure gauge is connected to the water inlet pipeline.
Furthermore, the air inlet pipeline is also connected with a barometer.
Furthermore, the inside of output pipeline is equipped with the reposition of redundant personnel piece, the reposition of redundant personnel piece with connect through a plurality of reposition of redundant personnel poles between the inner wall of output pipeline.
Further, the shunting block can be a conical shunting block.
Compared with the prior art, the beneficial effects of the utility model are that:
the nanometer carbonic acid spring generating device provided by the utility model can prepare high-concentration nanometer carbonic acid spring through the air water dissolving cavity, and does not need a power supply in the preparation process of the carbonic acid spring, so that the use safety of the carbonic acid spring can be improved; the carbonic acid spring in the first gas water dissolving cavity can be pressurized through the first liquid outlet and then atomized through the first nozzle, the carbonic acid spring in the second gas water dissolving cavity can be pressurized through the second liquid outlet and then atomized through the second nozzle, the carbonic acid spring atomized by the first nozzle and the carbonic acid spring atomized by the second nozzle are flushed with each other, so that gas and water are fully mixed to form the nano carbonic acid spring, and the carbonic acid spring is pressurized through the pressurizing plate at the output end of the connector and then refined, so that the carbon dioxide content of the carbonic acid spring can be further improved; the utility model has the characteristics of simple structure and security are high.
Drawings
Fig. 1 is a schematic view of a connection structure of a nano carbonated spring generating device according to the present invention;
FIG. 2 is a schematic view of the cross-sectional structure of the gas-water dissolution chamber of the present invention;
FIG. 3 is a schematic view of the output pipeline of the present invention;
in the figure, a water inlet pipeline 1, a gas inlet pipeline 2, an output pipeline 3, a gas-water dissolving cavity 4, a first gas-water dissolving cavity 41, a first spray head 42, a first liquid outlet 43, a second gas-water dissolving cavity 44, a second spray head 45, a second liquid outlet 46, a third gas-water dissolving cavity 47, a third liquid outlet 48, a carbon dioxide gas cylinder 6, a three-way pipe 7, a connector 8, a pressure increasing plate 9, a pressure increasing pump 10, a first ball valve 11, a first pressure reducing valve 12, a first check valve 13, a stop valve 14, a second pressure reducing valve 15, a second ball valve 16, a second check valve 17, a water pressure gauge 18, a pressure gauge 19, a flow dividing block 20 and a flow dividing rod 21.
Detailed Description
In order to better understand the technical content of the present invention, the following embodiments are provided, and the present invention is further described with reference to the accompanying drawings.
Example 1
Referring to fig. 1 to 3, the nano carbonated spring generating device provided by the present invention comprises a water inlet pipeline 1, an air inlet pipeline 2, an output pipeline 3 and a gas water dissolving cavity 4, wherein an input end of the water inlet pipeline 1 is communicated with a water source to realize high temperature water input; the input end of the air inlet pipeline 2 is communicated with a carbon dioxide gas cylinder 6 to realize the input of carbon dioxide; the output end of the water inlet pipeline 1 and the output end of the air inlet pipeline 2 are communicated with the gas-water dissolution cavity 4 through a three-way pipe 7, carbon dioxide can be dissolved in high-temperature water in the three-way pipe 7, the gas-water dissolution cavity 4 comprises a first gas-water dissolution cavity 41, a second gas-water dissolution cavity 44 and a third gas-water dissolution cavity 47, the first gas-water dissolution cavity 41 is provided with a first liquid outlet 43, the pipe diameter of the first liquid outlet 43 changes from large to small to realize pressurization of carbonated spring, the second gas-water dissolution cavity 44 is provided with a second liquid outlet 46, the pipe diameter of the second liquid outlet 46 changes from large to small to realize pressurization of carbonated spring, the first liquid outlet 43 is communicated with the second liquid outlet 46 through a connector 8, a first spray head 42 is arranged at the first liquid outlet 43, a second spray head 45 is arranged at the second liquid outlet 46, and the first spray head 42 and the second spray head 45 are oppositely arranged, make the carbonic acid spring offset after the atomizing, make the air water fully contact, form nanometer carbonic acid spring, the output of connector 8 with third air water dissolution chamber 47 intercommunication, the output of connector 8 is equipped with pressure boost board 9, be equipped with a plurality of liquid holes on the pressure boost board 9, further to the carbonic acid spring pressure boost of output, improve the concentration of carbonic acid spring carbon dioxide, third air water dissolution chamber 47 is equipped with third liquid outlet 48, third liquid outlet 48 with output pipeline 3 intercommunication, the carbonic acid spring of output preparation completion.
The working principle is as follows: use the utility model discloses the time, let in carbon dioxide through air inlet pipeline 2, let in high-temperature water through the inlet channel, carbon dioxide and high-temperature water contact in three-way pipe 7 and dissolve, generate low concentration carbonic acid spring, the carbonic acid spring of export from three-way pipe 7 output gets into first gas water respectively and dissolves chamber 41 and second gas water dissolution chamber 44, the carbonic acid spring in first gas water dissolution chamber 41 is atomized through first shower nozzle 42 after first liquid outlet 43 pressurizes, the carbonic acid spring in second gas water dissolution chamber 44 is atomized through second shower nozzle 45 after the pressurization of second liquid outlet 46, carbonic acid spring after the first shower nozzle 42 atomizes and the carbonic acid spring offset after the second shower nozzle 45 atomizes, make gas water intensive mixing form nanometer carbonic acid spring, carbonic acid spring connector 8 locates to continue the pressure boost and refines through pressure boost plate 9, further improve the carbon dioxide concentration of carbonic acid spring, the carbonic acid spring of formation can temporary storage in third gas water dissolution chamber 47.
Specifically, a booster pump 10, a first ball valve 11, a first pressure reducing valve 12 and a first check valve 13 are sequentially connected to the water inlet pipeline 1. Can realize adjusting and controlling the high-temperature water in the water inlet pipeline 1 according to the requirement.
Specifically, the air inlet pipeline 2 is sequentially connected with a stop valve 14, a second pressure reducing valve 15, a second ball valve 16 and a second check valve 17. The adjustment and control of the carbon dioxide gas in the air inlet pipeline 2 can be realized according to the requirement.
Specifically, the water inlet pipeline 1 is also connected with a water pressure gauge 18. The pressure of the water in the water inlet pipeline 1 is convenient to check.
Specifically, the air inlet pipeline 2 is also connected with a barometer 19. Pressure convenient for checking carbon dioxide in air inlet pipeline 2
Example 2
Referring to fig. 2 to 3, the present embodiment is different from embodiment 1 in that a flow dividing block 20 is disposed inside the output pipeline 3, and the flow dividing block 20 is connected to the inner wall of the output pipeline 3 through a plurality of flow dividing rods 21. The carbonic acid spring output by the third water dissolving cavity is divided and pressurized, and the concentration of carbon dioxide in the carbonic acid spring is improved.
In particular, the diverter block 20 may be a conical diverter block 20. The pressure of the carbonate spring water in the output pipeline 3 is increased.
The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (7)
1. A nanometer carbonic acid spring generating device is characterized in that: the device comprises a water inlet pipeline, an air inlet pipeline, an output pipeline and an air water dissolving cavity, wherein the input end of the water inlet pipeline is communicated with a water source, the input end of the air inlet pipeline is communicated with a carbon dioxide gas bottle, the output end of the water inlet pipeline and the output end of the air inlet pipeline are communicated with the air water dissolving cavity through a three-way pipe, the air water dissolving cavity comprises a first air water dissolving cavity, a second air water dissolving cavity and a third air water dissolving cavity, the first air water dissolving cavity is provided with a first liquid outlet, the second air water dissolving cavity is provided with a second liquid outlet, the first liquid outlet is communicated with the second liquid outlet through a connector, the first liquid outlet is provided with a first nozzle, the second liquid outlet is provided with a second nozzle, the output end of the connector is communicated with the third air water dissolving cavity, the output end of the connector is provided with a pressurizing plate, and the third gas-water dissolving cavity is provided with a third liquid outlet, and the third liquid outlet is communicated with the output pipeline.
2. The nano-carbonated spring generating apparatus according to claim 1, wherein: the water inlet pipeline is sequentially connected with a booster pump, a first ball valve, a first pressure reducing valve and a first check valve.
3. The nano-carbonated spring generating apparatus according to claim 1, wherein: the air inlet pipeline is sequentially connected with a stop valve, a second pressure reducing valve, a second ball valve and a second check valve.
4. The nano-carbonated spring generating apparatus according to claim 1, wherein: and the water inlet pipeline is also connected with a water pressure gauge.
5. The nano-carbonated spring generating apparatus according to claim 1, wherein: and the air inlet pipeline is also connected with a barometer.
6. The nano-carbonated spring generating apparatus according to claim 1, wherein: the inside of output pipeline is equipped with the reposition of redundant personnel piece, the reposition of redundant personnel piece with connect through a plurality of reposition of redundant personnel poles between the inner wall of output pipeline.
7. The nano-carbonated spring generating apparatus according to claim 6, wherein: the shunting block can be a conical shunting block.
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CN202020413612.4U CN212246363U (en) | 2020-03-26 | 2020-03-26 | Nano carbonic acid spring generating device |
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CN202020413612.4U CN212246363U (en) | 2020-03-26 | 2020-03-26 | Nano carbonic acid spring generating device |
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CN212246363U true CN212246363U (en) | 2020-12-29 |
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2020
- 2020-03-26 CN CN202020413612.4U patent/CN212246363U/en active Active
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