CN201212025Y - Gas-liquid mixing unit of micro bubbles - Google Patents

Abstract

The utility model relates to an air-and-liquid mixer with microbubbles, which is matched with and is arranged on sanitary bath equipment. The sanitary bath equipment is provided with at least one tap, and a water source after being treated by the air-and-liquid mixer is guided in the tap. The air-and-liquid mixer comprises at least one pump and a spiral tube, wherein the pump is provided with a water inlet end and a water outlet end which are communicated, and at least one first air inlet valve is arranged at the water inlet end; the water outlet end is communicated with a water supply channel and guides air into the pump through the first air inlet valve so that when being pressured, the pump carries out air-and-liquid mixing of the air and the water source, and a mixture is conveyed from the water outlet end to the water supply channel; the spiral tube is communicated with the water supply channel so that the water source containing the air-and-liquid mixture flows into the spiral tube for air-and-liquid mixing once more. The utility model enables the cross rotary mixing of the air and the water source to be carried out in the spiral tube which conveys out the water source rich in oxygen so as to achieve the effect of improving the oxygen content in water.

Description

The Liqiud-gas mixing device of microbubble

Technical field

The utility model relates to a kind of water treatment device, and relate in particular to a kind ofly to have the raising water oxygen level, and make the air in the water form micro bubble, and with the Liqiud-gas mixing device of the microbubble of water source output.

Background technology

Existing a kind of microbubble water treatment device 9, as shown in Figure 6, its mainly by a motor 91, a pressure pot 92 and a high dissolved oxygen mechanism 93 form.This motor 91 is to make current be delivered to this pressure pot 92 through a first flow 94 with pressuring method, this first flow 94 is provided with a pressure lock 95, flow in this pressure pot 92 with current for this first flow 94 of air admission, at this moment, be stored in air and water in this pressure pot 92, can be subjected to the highly compressed influence, make the soluble in water and generation bubble of air.

Aforesaid high dissolved oxygen mechanism 93 is to be communicated in this pressure pot 92 with one second runner 96, and with the design of these high dissolved oxygen mechanism 93 inner flow passages, makes it have the change flow rate of water flow, and the effect that bubble soluble in water is diminished.

Yet, though aforesaid microbubble water treatment device 9 can improve the dissolved oxygen amount in the water, but member complexity for fear of this microbubble water treatment device 9, must and cooperate this high dissolved oxygen mechanism 93 can reach the effect of high dissolved oxygen by this pressure pot 92, and only with an air inlet and high pressure mode dissolved oxygen, effect is quite limited, therefore real necessity that improvement is arranged.

The utility model content

Technical problem underlying to be solved in the utility model is, overcome the above-mentioned defective that prior art exists, and provide a kind of Liqiud-gas mixing device of microbubble, setting by this spiral tube, and the pressurization of the air inlet of intake valve and pump, make air soluble in water and produce a large amount of micro bubbles, have the raising water oxygen level.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of Liqiud-gas mixing device of microbubble, it is to cooperate to be located at a sanitary bath equipment, this sanitary bath equipment has at least one water tap, and the water source after the processing of the Liqiud-gas mixing device of this microbubble is to import this water tap, it is characterized in that: this Liqiud-gas mixing device comprises at least one pump, this pump has a feed-water end and a water side, this feed-water end is to be connected with this water side, and be provided with at least one first intake valve in this feed-water end, and this water side is to be communicated in a water supply runner, and imports this pump of air admission with this first intake valve, when this pump is pressurizeed, air and water source are carried out gas-liquid mixed, be delivered to this water supply runner by this water side again; One spiral tube, it is to be connected with this water supply runner, and the water source that contains gas-liquid mixed in this water supply runner is flowed in this spiral tube, to carry out gas-liquid mixed once more, it is to make air and water source can intersect turn in this spiral tube to mix, and is transferred out the water source of rich oxygen level by this spiral tube.

The Liqiud-gas mixing device of aforesaid microbubble, wherein pump is a high-pressure pump.

The Liqiud-gas mixing device of aforesaid microbubble, wherein first intake valve is a non-return valve.

The Liqiud-gas mixing device of aforesaid microbubble is set up a variable valve in the runner that wherein supplies water, and supplies

Regulate this water supply runner and flow into water flow in this spiral tube, and regulate this water supply runner simultaneously and flow into discharge pressure in this spiral tube.

The Liqiud-gas mixing device of aforesaid microbubble, wherein variable valve is a flow-limiting valve.

The Liqiud-gas mixing device of aforesaid microbubble, wherein Liqiud-gas mixing device also is provided with a gas-liquid mixed bucket, this gas-liquid mixed bucket is provided with a sluice valve seat, make and form an enclosed space in this gas-liquid mixed bucket, and this spiral tube is to be arranged in this enclosed space, and this sluice valve seat has an entry portion and an outlet part, and this entry portion is connected with this water supply runner and this spiral tube.

The Liqiud-gas mixing device of aforesaid microbubble, wherein the sluice valve seat is located at described gas-liquid mixed bucket bottom.

The Liqiud-gas mixing device of aforesaid microbubble, wherein spiral tube wherein an end be to be located on the described sluice valve seat.

The Liqiud-gas mixing device of aforesaid microbubble, wherein the sluice valve seat has a pod apertures that is connected with the enclosed space of described gas-liquid mixed bucket.

The Liqiud-gas mixing device of aforesaid microbubble, wherein spiral tube also has a high-pressure outlet, and this high-pressure outlet has an opening end that is flats, and the water source can be sent by the opening end of the high-pressure outlet of this spiral tube.

The Liqiud-gas mixing device of aforesaid microbubble, wherein spiral tube also has a high-pressure outlet, and this high-pressure outlet has an opening end that is flats, and the water source can be sent by the opening end of the high-pressure outlet of this spiral tube.

The Liqiud-gas mixing device of aforesaid microbubble, wherein high-pressure outlet is apical margin one side of corresponding described gas-liquid mixed bucket.

The Liqiud-gas mixing device of aforesaid microbubble, wherein the gas-liquid mixed bucket more is provided with at least one second intake valve, and carries out the air importing second time with this second intake valve, and carries out gas-liquid mixed in this enclosed space.

The Liqiud-gas mixing device of aforesaid microbubble, wherein second intake valve is a non-return valve.

The Liqiud-gas mixing device of aforesaid microbubble, wherein place several granular filtering units in the gas-liquid mixed bucket, and the water source in this gas-liquid mixed bucket is filtered once more with these filtering units, and with these filtering unit mutual extrusion collisions, make gas-liquid mixed more even lasting, and then more improve the oxygen level in the water.

The beneficial effects of the utility model are, by the setting of this spiral tube, and the pressurization of the air inlet of intake valve and pump, make air soluble in water and produce a large amount of micro bubbles, have the raising water oxygen level.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the structural representation of the utility model first embodiment.

Fig. 2 is the structural representation of the utility model second embodiment.

Fig. 3 is the structural representation of the utility model the 3rd embodiment.

Fig. 4 is the structural representation of the utility model the 4th embodiment.

Fig. 5 is the user mode synoptic diagram of the utility model the 4th embodiment.

Fig. 6 is the synoptic diagram of existing microbubble water treatment device.

Embodiment

Seeing also Fig. 1 to Fig. 5, is the selected example structure of the utility model shown in the figure.

At first seeing also Fig. 1, is a kind of Liqiud-gas mixing device 1 of microbubble shown in the figure, and it is to cooperate to be located at a sanitary bath equipment 2, as shown in Figure 5, this sanitary bath equipment 2 has at least one water tap 21, and the water source after this Liqiud-gas mixing device 1 processing is to import this water tap 21, it is characterized in that:

This Liqiud-gas mixing device 1 comprises at least one pump 11, this pump 11 has a feed-water end 111 and a water side 112, this feed-water end 111 is connected with this water side 112, and be provided with at least one first intake valve 12 in this feed-water end 111, and this water side 112 is to be communicated in a water supply runner 14, and with these first intake valve, 12 these pumps 11 of importing air admission, and when this pump 11 pressurizes, make pump 11 that air and water source are carried out primary gas-liquid mixed action, produce many small oxygenous bubbles in the water source and make, and be delivered to this water supply runner 14 by this water side 112.Afterwards, make the water source with a plurality of micro-bubbles again, in present embodiment, this pump 11 is to be example with a high-pressure pump, and this first intake valve 12 is a non-return valve, and for preventing the water source adverse current and certainly this first intake valve 12 flows out.

One spiral tube 13, it is to be connected with this water supply runner 14, and owing to contain in this water supply runner 14 in the water source that carries out for the first time gas-liquid mixed, the water source that then flows in this spiral tube 13 can carry out secondary gas-liquid mixed action in this spiral tube 13, it is because air and water source can intersect turn and mix in this spiral tube 13, so that but air Yu Shuizhong mixing is more even, and can be by the water source that transfers out rich oxygen level in this spiral tube 13.

In sum, Liqiud-gas mixing device 1 in the present embodiment, it is by this spiral tube 13 and cooperates the setting of this pump 11 and this first intake valve 12, just can directly be arranged in this sanitary bath equipment 2, and outflow is full of the water source of micro bubble, reaching the effect that promotes water oxygen level, and this spiral tube 13 can directly be installed in the commercially available filtering element (cartridge) pipe (not shown) and used.

Certainly, the utility model still has other example, wherein only difference in variation partly.See also Fig. 2, it is second embodiment of the present utility model, wherein, in this water supply runner 14, can set up a variable valve 3, for regulating the water flow that this water supply runner 14 flows in this spiral tube 13, and regulate the discharge pressure that this water supply runner 14 flows in this spiral tube 13 simultaneously, and in present embodiment, this variable valve 3 is a flow-limiting valve.

See also Fig. 3, it is the 3rd embodiment of the present utility model, and wherein, this Liqiud-gas mixing device 1 more is provided with a gas-liquid mixed bucket 15.This gas-liquid mixed bucket 15 is provided with a sluice valve seat 16 in the bottom, for forming an enclosed space 17 in this gas-liquid mixed bucket 15, and this spiral tube 13 is to be arranged in this enclosed space 17, in the present embodiment, this spiral tube 13 a wherein end is to be located on this sluice valve seat 16, and this sluice valve seat 16 has an entry portion 161 and an outlet part 162, this entry portion 161 and this water supply runner 14 and the spiral tube of being located on this sluice valve seat 16 13 are connected, and this outlet part 162 has a pod apertures 163 that can be connected with the enclosed space 17 of this gas-liquid mixed bucket 15.

This spiral tube 13 also has a high-pressure outlet 18, and this high-pressure outlet 18 has an opening end 181 that is flats, and the described water source of the foregoing description, then in this spiral tube 13, carry out gas-liquid mixed after, send by the opening end 181 of this high-pressure outlet 18 again.

Opening end 181 by this high-pressure outlet 18 is to be flats, therefore, because runner convergent, make that pressure increased when the water source flow to this opening end 181, causing current is by these high-pressure outlet 18 ejections in the high pressure spraying mode, and a side of directly impacting these gas-liquid mixed bucket 15 enclosed spaces 17, in present embodiment, this high-pressure outlet 18 is to apical margin one side that should gas-liquid mixed bucket 15.

Moreover, because water molecules can change travel direction originally when this gas-liquid mixed bucket 15 of collision, even impacting the High-Pressure Water of this gas-liquid mixed bucket 15, this measure changes flow direction originally, and in this gas-liquid mixed bucket 15, produce turbulent, carrying out gas-liquid mixed for the third time smoothly, and the water source after the gas-liquid mixed more can produce many finer bubbles in water.

In addition, be the effect that promotes purifying water effect and increase gas-liquid mixed, the utility model can be put several granular filtering units 19 in this gas-liquid mixed bucket 15, and filter once more with the water sources in 19 pairs of gas-liquid mixed buckets of these filtering units 15, and with these filtering unit 19 mutual extrusion collisions, make gas-liquid mixed more even lasting, and then more improve the oxygen level in the water.

Aforementioned water source through three gas-liquid mixed is because of containing a large amount of micro bubbles, and promptly a large amount of air have been mixed in and the oxygen level at raising water source at the water source in, and pod apertures 163 that promptly can this sluice valve seat 16 is directed to this outlet part 162 with the water source and discharges.

See also Fig. 4 and Fig. 5 again, shown in the figure the 4th embodiment of the present utility model, the difference of itself and aforementioned the 3rd embodiment is, this high-pressure outlet 18A is set out in the scope by the winding of this spiral tube 13A institute, and this gas-liquid mixed bucket 15 more is provided with at least one second intake valve 151, this second intake valve 151 is to be example with a non-return valve in present embodiment, and carry out second time air with this second intake valve 151 and import, and carry out gas-liquid mixed the 4th time in this enclosed space 17, and by these second intake valve, 151 importing more air, in the hope of improving more oxygen level in the water.

Can learn by the above embodiments, advantage of the present utility model is: enter in the pump simultaneously by this air and water source, relending by the pump pressurization makes air mix with the water source, and make its gas-liquid after pressurization enter a spiral tube, to carry out gas-liquid mixed once more, again by a high-pressure outlet, and spray in the gas-liquid mixed bucket in the mode of High-Pressure Water, and cooperate first, the setting of second intake valve and filtering unit, but and impurity and make air more even in the filtered water with mixing of water source, not only promote the oxygen level in the water greatly, and in mixed water source, contain a large amount of micro bubbles.

Claims (15)

1. the Liqiud-gas mixing device of a microbubble, it is to cooperate to be located at a sanitary bath equipment, this sanitary bath equipment has at least one water tap, and the water source of the Liqiud-gas mixing device of this microbubble after handling is to import this water tap, it is characterized in that:

This Liqiud-gas mixing device comprises at least one pump, and this pump has a feed-water end and a water side, and this feed-water end is to be connected with this water side, and is provided with at least one first intake valve in this feed-water end, and this water side is to be communicated in a water supply runner;

One spiral tube, it is to be connected with this water supply runner.

2. the Liqiud-gas mixing device of microbubble according to claim 1, it is characterized in that: described pump is a high-pressure pump.

3. the Liqiud-gas mixing device of microbubble according to claim 1, it is characterized in that: described first intake valve is a non-return valve.

4. the Liqiud-gas mixing device of microbubble according to claim 1 is characterized in that: set up a variable valve in the described water supply runner.

5. the Liqiud-gas mixing device of microbubble according to claim 4, it is characterized in that: described variable valve is a flow-limiting valve.

6. the Liqiud-gas mixing device of microbubble according to claim 1, it is characterized in that: described Liqiud-gas mixing device also is provided with a gas-liquid mixed bucket, this gas-liquid mixed bucket is provided with a sluice valve seat, make and form an enclosed space in this gas-liquid mixed bucket, and this spiral tube is to be arranged in this enclosed space, and this sluice valve seat has an entry portion and an outlet part, and this entry portion is connected with this water supply runner and this spiral tube.

7. the Liqiud-gas mixing device of microbubble according to claim 6 is characterized in that: described sluice valve seat is located at described gas-liquid mixed bucket bottom.

8. the Liqiud-gas mixing device of microbubble according to claim 6, it is characterized in that: a described spiral tube wherein end is to be located on the described sluice valve seat.

9. the Liqiud-gas mixing device of microbubble according to claim 6, it is characterized in that: described sluice valve seat has a pod apertures that is connected with the enclosed space of described gas-liquid mixed bucket.

10. the Liqiud-gas mixing device of microbubble according to claim 1, it is characterized in that: described spiral tube also has a high-pressure outlet, this high-pressure outlet has an opening end that is flats, and the water source can be sent by the opening end of the high-pressure outlet of this spiral tube.

11. the Liqiud-gas mixing device of microbubble according to claim 6, it is characterized in that: described spiral tube also has a high-pressure outlet, and this high-pressure outlet has an opening end that is flats, and the water source can be sent by the opening end of the high-pressure outlet of this spiral tube.

12. the Liqiud-gas mixing device of microbubble according to claim 11 is characterized in that: described high-pressure outlet is apical margin one side of corresponding described gas-liquid mixed bucket.

13. the Liqiud-gas mixing device of microbubble according to claim 6 is characterized in that: described gas-liquid mixed bucket more is provided with at least one second intake valve, and carries out the air importing second time with this second intake valve, and carries out gas-liquid mixed in this enclosed space.

14. the Liqiud-gas mixing device of microbubble according to claim 13 is characterized in that: described second intake valve is a non-return valve.

15. the Liqiud-gas mixing device of microbubble according to claim 6, it is characterized in that: place several granular filtering units in the described gas-liquid mixed bucket, and the water source in this gas-liquid mixed bucket is filtered once more with these filtering units, and with these filtering unit mutual extrusion collisions, make gas-liquid mixed more even lasting, and then more improve the oxygen level in the water.

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