CN217488284U - Bubble water machine - Google Patents

Abstract

The utility model provides a bubble water machine can realize that gas injection and one step of continuous completion of exhaust, and is easy and simple to handle swift, and the preparation of bubble water is efficient. The bubble water machine comprises a water bottle interface, a gas bottle assembly and a gas injection and exhaust assembly, wherein the water bottle interface is connected with an exhaust pipe, the gas bottle interface is communicated with the water bottle interface through a gas injection pipe, a check valve is arranged in the mouth of the gas bottle, and the gas injection and exhaust assembly comprises an exhaust valve, a rotating shaft and a driving part; a first linkage part and a second linkage part are formed on the rotating shaft; the first linkage part drives the one-way valve to switch between two states of switching on the gas injection pipe and switching off the gas injection pipe when rotating, the second linkage part drives the exhaust valve to switch between two states of switching on the exhaust pipe and switching off the exhaust pipe when rotating, the exhaust pipe is switched off when the gas injection pipe is switched on, and the exhaust pipe is switched on when the gas injection pipe is switched off. The gas injection and the gas exhaust of the bubble water machine can be continuously completed only by operating the driving part, so that the operation is simple, convenient and quick, and the bubble water production efficiency is improved.

Description

Bubble water machine

Technical Field

The utility model relates to a bubble water machine, concretely relates to bubble water machine that gas injection exhaust was accomplished in one step in succession.

Background

The bubble water is water in which carbon dioxide is dissolved in water to a saturation degree, and is also called bubble water because carbon dioxide bubbles exist. The bubble water is more and more pursued by people because of the health efficacy of helping to regulate the acid-base balance of the human body, enhancing the vitality of intestines and stomach and the like and good drinking taste. Natural gas bubble water is rare, the existing bubble water is basically artificial bubble water, and a machine for preparing the bubble water is a bubble water machine and belongs to the household appliance industry.

Among the prior art, the gas injection of bubble water machine (by gas cylinder gas injection in to the water-jug), two process part operations of exhausting (carry out the pressure release with unnecessary gas outgoing in the water-jug after the gas injection), the gas injection is accomplished and is closed gas cylinder back and operate discharge valve again and exhaust promptly, leads to the operation of bubble water machine comparatively loaded down with trivial details, the preparation inefficiency of bubble water.

Disclosure of Invention

The utility model provides a bubble water machine can realize gas injection and one step of continuous completion of exhaust, and is easy and simple to handle swift, the preparation of bubble water is efficient.

In order to solve the technical problem, the utility model adopts the following technical scheme to realize: a bubbling water machine comprising:

the water bottle connector is used for being matched with a bottle opening of a water bottle, and an exhaust pipe is connected to the water bottle connector;

the gas bottle assembly comprises a gas bottle and a gas bottle interface matched with the bottle opening of the gas bottle, the gas bottle interface is communicated with the water bottle interface through a gas injection pipe, and a one-way valve is arranged in the bottle opening of the gas bottle to control the on-off of the gas injection pipe;

the bubble water machine further comprises:

the gas injection and exhaust assembly comprises an exhaust valve, a rotating shaft and a driving part for driving the rotating shaft to rotate; the exhaust valve is connected with the exhaust pipe to control the on-off of the exhaust pipe; a first linkage part and a second linkage part which are linked with each other along with the rotation of the rotating shaft are formed on the rotating shaft; the first linkage part is followed the pivot drives when rotating the check valve switches on the gas injection pipe and breaks off the gas injection pipe switches between two kinds of states, the second linkage part is followed the pivot drives when rotating discharge valve switches on the blast pipe and breaks off switch between two kinds of states of blast pipe, just when the gas injection pipe switches on the blast pipe breaks off, when the gas injection pipe breaks off the blast pipe switches on.

The first linkage part is arranged on one side of the rotating shaft in a protruding mode, a thimble located right above the one-way valve is arranged in the air bottle connector, the first linkage part is located above the thimble, and the first linkage part presses the thimble and further presses the one-way valve to release air in the air bottle to enable the air injection pipe to be conducted when rotating along with the rotating shaft.

The gas cylinder connector is provided with a pressing part and an elastic part, the pressing part is located above the ejector pin and below the first linkage part, one end of the pressing part is hinged to the gas cylinder connector, the elastic part is located below the other end of the pressing part and abuts against the pressing part, and the ejector pin is pressed by the pressing part when the first linkage part rotates along with the rotating shaft.

The exhaust valve comprises a valve body, a valve cavity is formed in the valve body, an air inlet and a main exhaust port which are communicated with the valve cavity are formed in the valve body, the exhaust pipe is connected to the air inlet, an elastic valve core is assembled in the valve body and inserted into the valve body through the main exhaust port, two ends of the elastic valve core are respectively a sealing end and an operating end, the sealing end is located in the valve cavity, the operating end stretches out of the valve body and is movably connected with the second linkage part, the second linkage part pushes and pulls the elastic valve core to move axially when rotating along with the rotating shaft so that the sealing end seals the main exhaust port or is separated from the main exhaust port, and when the sealing end is separated from the main exhaust port, the air inlet is communicated with the main exhaust port through the valve cavity.

An auxiliary exhaust port communicated with the valve cavity is formed in the valve body, a safety valve is mounted in the auxiliary exhaust port along the axial direction of the auxiliary exhaust port, and the air inlet is located between the main exhaust port and the auxiliary exhaust port.

And the water bottle connector is provided with a pressure regulating valve.

The pressure regulating valve is connected with a water guide pipe, one end of the water guide pipe is a connecting end connected with the pressure regulating valve, and the other end of the water guide pipe is a free end.

The bubble water machine further comprises a machine shell, the water bottle connector and the gas bottle assembly are arranged in the machine shell, the gas injection and exhaust assembly except the driving part is located in the machine shell, the machine shell is provided with a base part, a water storage cavity is formed in the base part, and the free end of the water guide pipe extends into the water storage cavity.

The water storage cavity is arranged in the base part, the opening of the water storage cavity faces upwards and is located under the water bottle connector, the water storage cavity is provided with a cover body, and the cover body is provided with through holes.

The driving part is a rod-shaped handle.

Compared with the prior art, the utility model comprises a gas injection and exhaust assembly, wherein an exhaust valve in the gas injection and exhaust assembly is connected with an exhaust pipe on a water bottle interface to control the on-off of the exhaust pipe; a rotating shaft in the gas injection and exhaust assembly is provided with a first linkage part and a second linkage part which can rotate in a linkage manner along with the rotation of the rotating shaft; when the drive unit drive pivot rotates, first linkage part and second linkage part rotate along with the pivot, drive check valve switches between two kinds of states of switching on the gas injection pipe and breaking off the gas injection pipe when first linkage part rotates, drive discharge valve switches between two kinds of states of switching on the blast pipe and breaking off the blast pipe when second linkage part rotates, and the blast pipe disconnection when the gas injection pipe switches on, the blast pipe switches on when the gas injection pipe disconnects, then only need can realize the continuous completion of gas injection and exhaust of bubble water machine through operating drive unit, simple and fast, be favorable to improving bubble water preparation efficiency.

Drawings

FIG. 1 is a perspective view of the bubbling water machine of the present invention;

FIG. 2 is a perspective view of the bubbling water machine of the present invention with a water bottle;

FIG. 3 is a perspective view of the bubbling water machine with a rear view angle of the top part of the casing omitted;

FIG. 4 is an enlarged top view of FIG. 3;

FIG. 5 is a perspective view of the bubbling water machine with the top part of the casing omitted and another viewing angle;

FIG. 6 is a top, partially enlarged view of FIG. 5;

FIG. 7 is a right side view of FIG. 5;

FIG. 8 is a cross-sectional view A-A of FIG. 7;

FIG. 9 is an enlarged view of portion B of FIG. 8;

FIG. 10 is a perspective view of the bubble water machine of the present invention;

fig. 11 is a sectional view of the exhaust valve of the bubbling water machine of the present invention.

Reference numerals:

1. a bubble water machine; 100. a water bottle interface; 110. a pressure regulating exhaust port; 200. a gas cylinder assembly; 210. a gas cylinder; 220. a gas cylinder interface; 230. a one-way valve; 240. a thimble; 300. a gas injection and exhaust assembly; 310. an exhaust valve; 311. a valve body; 312. a valve cavity; 313. an air inlet; 314. a main exhaust port; 315. an elastic valve core; 316. sealing the end; 317. a connecting end; 318. an auxiliary exhaust port; 320. a rotating shaft; 330. a drive member; 340. a first linkage member; 350. a second linkage member; 360. a safety valve; 361. a valve core; 362. a spring; 370. a pressing member; 380. an elastic member; 390. fixing the buckle; 400. an exhaust pipe; 500. a gas injection pipe; 600. a pressure regulating valve; 700. a water conduit; 710. a connecting end; 720. a free end; 800. a housing; 810. a base part; 820. a water storage cavity; 830. a gas cylinder housing portion; 840. a top housing portion; 850. a cover body; 851. a through hole;

2. a water bottle.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 to 11, the bubbling water machine 1 of the present embodiment includes a water bottle interface 100, a gas cylinder assembly 200, and a gas injection and exhaust assembly 300.

Wherein, the water bottle interface 100 is used for matching with the bottle mouth of the water bottle 2 filled with bubble water to be made, and the air exhaust pipe 400 is connected on the water bottle interface 100.

The gas cylinder assembly 200 comprises a gas cylinder 210 and a gas cylinder interface 220 which is matched with the mouth of the gas cylinder 210, the gas cylinder interface 220 is communicated with the water bottle interface 100 through a gas injection pipe 500 so as to inject gas into the water bottle 2 through the gas injection pipe 500, and a check valve 230 is arranged in the mouth of the gas cylinder 210 to control the opening and closing of the gas cylinder 210 and further control the on-off of the gas injection pipe 500. The check valve 230 enables the gas in the gas bottle 210 to be injected into the water bottle 2 only, but not to flow back to the gas bottle 210 from the water bottle 2, so that the gas injection efficiency and quality are ensured.

The gas injection and exhaust assembly 300 comprises an exhaust valve 310, a rotating shaft 320 and a driving part 330 for driving the rotating shaft 320 to rotate; the exhaust valve 310 is connected with the exhaust pipe 400 to control the on-off of the exhaust pipe 400; a first linkage part 340 and a second linkage part 350 which rotate in a linkage manner along with the rotation of the rotating shaft 320 are formed on the rotating shaft 320, namely, the rotating shaft 320 rotates to drive the first linkage part 340 and the second linkage part 350 to rotate; the first interlocking part 340 rotates with the rotating shaft 320 to drive the check valve 230 to switch between two states of turning on the gas injection pipe 500 and turning off the gas injection pipe 500, the second interlocking part 350 rotates with the rotating shaft 320 to drive the exhaust valve 310 to switch between two states of turning on the exhaust pipe 400 and turning off the exhaust pipe 400, and the exhaust pipe 400 is turned off when the gas injection pipe 500 is turned on and the exhaust pipe 400 is turned on when the gas injection pipe 500 is turned off. When gas needs to be injected into the water bottle 2, the driving part 330 is operated to rotate the rotating shaft 320, so that the first linkage part 340 and the second linkage part 350 rotate in a linkage manner, the gas injection pipe 500 is connected, and the gas exhaust pipe 400 is disconnected, so that gas is injected into the water bottle 2; after the gas injection is finished, the driving part 330 is operated to rotate the rotating shaft 320 in the opposite direction, so that the first linkage part 340 and the second linkage part 350 rotate in a linkage manner, the gas injection pipe 500 is disconnected, the gas exhaust pipe 400 is connected, and redundant gas in the water bottle 2 is exhausted, so that the gas injection and the exhaust of the bubble water machine can be continuously finished only by operating the driving part 330, and the method is simple, convenient and quick, and is beneficial to improving the bubble water manufacturing efficiency.

Specifically, in this embodiment, the rotating shaft 320 is rotatably disposed on the air bottle interface 220 through the fixing fasteners 390 at both ends, the driving member 330 is a rod-shaped handle, one end of the rod-shaped handle is fixedly connected to one end of the rotating shaft 320, and the rotating shaft is realized by pressing the driving member 330, which is convenient to use. Of course, the driving member 330 may also be a knob, and the rotating shaft 320 is rotated by rotating the knob.

Further, as shown in fig. 4, 6 and 10, in the present embodiment, the first linking member 340 is convexly disposed at one side of the rotating shaft 320, and may be integrally injection-molded with the rotating shaft 320, specifically, is in the form of a long strip extending from one end of the rotating shaft 320 to the other end; since the valve core of the check valve 230 is relatively thin, in order to effectively contact and press the check valve 230, a needle 240 located right above the check valve 230 is disposed in the cylinder port 220 in the embodiment, the first linkage part 340 is located above the needle 240, and when the first linkage part 340 rotates along with the rotating shaft 320, the needle 240 is pressed to further press the check valve 230 (specifically, to press the elastic valve core of the check valve 230) to release the gas in the cylinder 210, so that the gas can flow out of the cylinder 210 into the gas injection pipe 500, that is, the gas injection pipe 500 is conducted. When the first linkage part 340 rotates along with the rotating shaft 320 in the opposite direction, the first linkage part 340 does not apply pressure to the needle 240 and the check valve 230 any more, the check valve 230 and the needle 240 are reset, the check valve 230 closes the gas cylinder 210, and gas cannot flow out of the gas cylinder 210 into the gas injection pipe 500, i.e., the gas injection pipe 500 is disconnected.

In order to effectively apply pressure to the thimble 240 and the check valve 230 so as to ensure that the check valve 230 moves reliably, in the embodiment, as shown in fig. 4, 6 and 9, a pressing member 370 and an elastic member 380 are arranged on the air bottle interface 220, the pressing member 370 is located above the thimble 240 and below the first linkage member 340, one end of the pressing member 370 is hinged to the air bottle interface 220, the other end is a free end, the elastic member 380 is located below the other end of the pressing member 370 and abuts against the pressing member 370, and the thimble 240 is pressed by the pressing member 370 when the first linkage member 340 rotates along with the rotating shaft 320. Specifically, when the first linkage member 340 rotates along with the rotating shaft 320, the pressing member 370 is moved first, and since one end of the pressing member 370 is hinged to the gas cylinder interface 220, the pressing member 370 rotates downward with the hinge shaft thereof as the rotating shaft under the pressing action of the first linkage member 340, so as to press the thimble 240 and the elastic member 380 downward, and the elastic member 380 provides an elastic restoring force for the pressing member 370 and the first linkage member 340. The pressing member 370 may have a large area to increase a contact area with the first interlocking member 340 and ensure effective contact with the first interlocking member 340 and the thimble 240 all the time during the rotation thereof to prevent separation.

Since the first interlocking member 340 and the pressing member 370 are both rotating members, in order to make the relative rotation smooth and avoid the clamping stagnation, as shown in fig. 9, a contact surface between the first interlocking member 340 and the pressing member 370 is a curved surface, and a contact surface between the pressing member 370 and the thimble 240 is a curved surface.

As shown in fig. 11, the exhaust valve 310 includes a valve body 311, a valve cavity 312 is formed in the valve body 311, an intake port 313 and a main exhaust port 314 which are communicated with the valve cavity 312 are formed on the valve body 311, and an exhaust pipe 400 is connected to the intake port 313; an elastic valve core 315 is assembled in the valve body 311, the elastic valve core 315 is inserted into the valve body 311 through the main exhaust port 314, two ends of the elastic valve core 315 are a sealing end 316 and an operating end 317 respectively, the sealing end 316 is positioned in the valve cavity 312, the operating end 317 extends out of the valve body 311 and is movably connected with the second linkage part 350, the second linkage part 350 pushes and pulls the elastic valve core 315 to axially move along with the rotation of the rotating shaft 320 so that the sealing end 316 seals the main exhaust port 314 or separates from the main exhaust port 314 (i.e. the main exhaust port 314 is not sealed), when the sealing end 316 separates from the main exhaust port 314, the air inlet 313 is communicated with the main exhaust port 314 through the valve cavity 312, and the exhaust pipe 400 is communicated with the main exhaust port 314 through the valve cavity 312, so that the exhaust pipe 400 is communicated with the exhaust port 314 to exhaust; when the sealing end 316 seals the main exhaust port 314, the exhaust valve 310 cannot exhaust, so that the exhaust pipe 400 is disconnected, i.e., cannot exhaust.

The movable connection between the second coupling member 350 and the operating end 317 of the resilient valve core 315 may be a hinge or a plug, as shown in fig. 4, 6, 9 and 10, the second coupling member 350 is a protrusion formed at one end of the rotating shaft 320, a free end of the protrusion is formed with an inverted U-shaped groove, the operating end 317 of the resilient valve core 315 is inserted into the inverted U-shaped groove, and an end of the operating end 317 has a large-diameter stopper to prevent the operating end 317 from being separated from the second coupling member 350 in the axial direction.

In order to prevent the valve core 315 from being damaged or stuck to prevent the air discharge valve 310 from being unable to normally discharge air and further prevent the air pressure in the water bottle 2 from being too high, it is preferable that an auxiliary air discharge port 318 communicated with the valve cavity 312 is further formed on the valve body 311, a safety valve 360 is installed in the auxiliary air discharge port 318 along the axial direction thereof, and the air inlet 313 is located between the main air discharge port 314 and the auxiliary air discharge port 318. When the exhaust valve 310 cannot normally exhaust the gas through the exhaust port 314, the gas pressure in the valve cavity 312 increases to open the valve core 361 of the safety valve 360, so that the gas inlet 313 and the auxiliary exhaust port 318 communicate with each other through the valve cavity 312, the gas is exhausted through the auxiliary exhaust port 318, and when the gas pressure in the valve cavity 312 decreases to be smaller than the elastic restoring force of the spring 362 on the valve core 361 to the valve core 361, the valve core 361 resets.

The water bottle interface 100 is provided with a pressure regulating valve 600 for regulating the amount of gas introduced into the water bottle 2. Specifically, the horizontal connector 100 is provided with the pressure-regulating exhaust port 110, the air inlet of the pressure-regulating valve 600 is connected to the pressure-regulating exhaust port 110, and the amount of gas introduced into the pressure-regulating valve 600 from the water bottle 2 through the pressure-regulating exhaust port 110 is adjusted by adjusting the position of the pressure-regulating valve 600 and discharged from the exhaust port of the pressure-regulating valve 600, so that the amount of gas in the water bottle 2 is adjusted to produce bubble water with different tastes.

Since water is mainly contained in the water bottle 2, when the pressure regulating valve 600 regulates the gas amount, water is inevitably discharged from the gas outlet of the pressure regulating valve 600 along with the gas. In order to intensively treat the water overflowing from the pressure regulating valve 600, prevent the water from overflowing to the electric device of the bubbling water machine 1, and ensure safe use, in the present embodiment, as shown in fig. 3 to 6 and 8, the exhaust port of the pressure regulating valve 600 is connected with a water conduit 700, one end of the water conduit 700 is a connecting end 710 connected with the exhaust port of the pressure regulating valve 600, and the other end is a free end 720. The water guide pipe 700 is preferably a hose so as to be extended, and the water overflowed from the pressure regulating valve 600 can be guided to a proper position by reasonably setting the length of the water guide pipe 700, so that centralized treatment is performed, and the influence on the normal work of electric devices of the bubbling water machine 1 is avoided.

Further, the water bubbling machine 1 further includes a casing 800 to protect internal structural components of the water bubbling machine 1 and make the overall appearance simple, the water bottle interface 100 and the gas cylinder assembly 200 are both disposed in the casing 800, the other components in the gas injection and exhaust assembly 300 except the driving component 330 are both located in the casing 800, and the driving component 330 is located outside the casing 800 so as to facilitate operation. The case 800 has a base 810, and further includes a gas cylinder housing 830 for covering the whole gas cylinder assembly 200 and a top housing 840 for covering the water bottle connection port 100, the base 810 is a base portion of the whole bubbling water machine 1, and supports the whole bubbling water machine 1, a water storage chamber 820 is formed in the base 810, and the free end 720 of the water guide tube 700 extends into the water storage chamber 820. The water guiding pipe 700 guides the water overflowed from the pressure regulating valve 600 to the water storage chamber 820 for temporary storage, and performs a uniform discharge process when the water level in the water storage chamber 820 approaches the maximum level. The water conduit 700 is hidden in the housing 800, and specifically extends from the top housing portion 840 to the gas cylinder housing portion 830 and then to the base portion 810, and since the water conduit 700 is long, corresponding fastening structures can be provided in the gas cylinder housing portion 830 and the base portion 810 to fix the water conduit 700, so as to prevent the water conduit 700 from moving.

Further, the water storage chamber 820 is disposed in the base 810, the opening of the water storage chamber 820 is upward and is located right below the water bottle connection port 100, as shown in fig. 1 to 3, the water storage chamber 820 is configured with a cover 850, and the cover 850 is provided with through holes 851. Therefore, after the water bottle 2 is installed on the water bottle connector 100, the water storage cavity 820 can also contain water which may drip when the water bottle 2 is taken down, and the use is convenient.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or that equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.

Claims (10)

1. A bubbling water machine comprising:

the water bottle connector is used for being matched with a bottle opening of a water bottle, and an exhaust pipe is connected to the water bottle connector;

the gas bottle assembly comprises a gas bottle and a gas bottle interface matched with the bottle opening of the gas bottle, the gas bottle interface is communicated with the water bottle interface through a gas injection pipe, and a one-way valve is arranged in the bottle opening of the gas bottle to control the on-off of the gas injection pipe;

it is characterized in that the bubble water machine further comprises:

the gas injection and exhaust assembly comprises an exhaust valve, a rotating shaft and a driving part for driving the rotating shaft to rotate; the exhaust valve is connected with the exhaust pipe to control the on-off of the exhaust pipe; a first linkage part and a second linkage part which are linked with each other along with the rotation of the rotating shaft are formed on the rotating shaft; the first linkage part is followed the pivot drives when rotating the check valve switches on the gas injection pipe and breaks off the gas injection pipe switches between two kinds of states, the second linkage part is followed the pivot drives when rotating discharge valve switches on the blast pipe and breaks off switch between two kinds of states of blast pipe, just when the gas injection pipe switches on the blast pipe breaks off, when the gas injection pipe breaks off the blast pipe switches on.

2. The bubbling water machine according to claim 1,

the first linkage part protrusion sets up one side of pivot, be equipped with in the gas cylinder interface and be located the thimble directly over the check valve, first linkage part is located the top of thimble, first linkage part follows the pivot is pressed when rotating the thimble and then the pressure move the check valve makes with the release gas in the gas cylinder the gas injection pipe switches on.

3. The bubbling water machine according to claim 2,

the gas cylinder connector is provided with a pressing part and an elastic part, the pressing part is located above the thimble and below the first linkage part, one end of the pressing part is hinged to the gas cylinder connector, the elastic part is located below the other end of the pressing part and abuts against the pressing part, and the thimble is pressed by the pressing part when the first linkage part rotates along with the rotating shaft.

4. The bubbling machine of claim 1,

the exhaust valve comprises a valve body, a valve cavity is formed in the valve body, an air inlet and a main exhaust port which are communicated with the valve cavity are formed in the valve body, the exhaust pipe is connected to the air inlet, an elastic valve core is assembled in the valve body and inserted into the valve body through the main exhaust port, two ends of the elastic valve core are respectively a sealing end and an operating end, the sealing end is located in the valve cavity, the operating end stretches out of the valve body and is movably connected with the second linkage part, the second linkage part pushes and pulls the elastic valve core to move axially when rotating along with the rotating shaft so that the sealing end seals the main exhaust port or is separated from the main exhaust port, and when the sealing end is separated from the main exhaust port, the air inlet is communicated with the main exhaust port through the valve cavity.

5. The bubbling machine of claim 4,

an auxiliary exhaust port communicated with the valve cavity is formed in the valve body, a safety valve is installed in the auxiliary exhaust port along the axial direction of the auxiliary exhaust port, and the air inlet is located between the main exhaust port and the auxiliary exhaust port.

6. The bubbling water machine according to claim 1,

and the water bottle connector is provided with a pressure regulating valve.

7. The bubbling water machine according to claim 6,

the pressure regulating valve is connected with a water guide pipe, one end of the water guide pipe is a connecting end connected with the pressure regulating valve, and the other end of the water guide pipe is a free end.

8. The bubbling water machine according to claim 7,

the bubble water machine further comprises a machine shell, the water bottle connector and the gas bottle assembly are arranged in the machine shell, the gas injection and exhaust assembly except the driving part is located in the machine shell, the machine shell is provided with a base part, a water storage cavity is formed in the base part, and the free end of the water guide pipe extends into the water storage cavity.

9. The bubbling water machine according to claim 8,

the water storage cavity is arranged in the base part, the opening of the water storage cavity faces upwards and is located under the water bottle connector, the water storage cavity is provided with a cover body, and the cover body is provided with through holes.

10. The bubbling machine of claim 1,

the driving part is a rod-shaped handle.

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