CN113598602A - Bubble water machine - Google Patents

Abstract

The invention discloses a bubble water machine, comprising: the bubble making water assembly comprises a base, a gas supply mechanism, a water receiving mechanism and a control mechanism, wherein the gas supply mechanism, the water receiving mechanism and the control mechanism are arranged on the base, and the control mechanism controls the gas supply mechanism to supply gas to the water receiving mechanism; the base assembly comprises a frame and a water supply mechanism arranged on the frame; the base is detachably connected with the rack through a quick connection structure, and the water supply mechanism is connected with the water receiving mechanism to automatically supply water; utilize and connect the structure fast and install system bubble water assembly on the frame assembly fast for system bubble water assembly can reuse to the frame assembly of different water supply modes on, utilize water supply mechanism to supply water to water receiving mechanism is automatic, and it is very convenient to add water.

Description

Bubble water machine

Technical Field

The invention relates to bubble water manufacturing equipment, in particular to a bubble water machine.

Background

With consumer interest in healthy drinks, sparkling water gradually enters the soft drink market. Bubble water is a carbonated beverage made by injecting carbon dioxide into water under pressure. The bubble water is generally prepared by injecting carbon dioxide into a sealed water bottle through a gas tank by using a bubble water machine and mixing the carbon dioxide with water. In the existing bubble water machine in the market, water is added into the water bottle manually after the water bottle is detached from the machine body, the water adding is troublesome, and the use scene is single.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the above-mentioned problems in the related art. Therefore, the invention provides a bubble water machine.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the bubbling water machine according to an embodiment of a first aspect of the present invention includes:

the bubble making water assembly comprises a base, a gas supply mechanism, a water receiving mechanism and a control mechanism, wherein the gas supply mechanism, the water receiving mechanism and the control mechanism are arranged on the base, and the control mechanism controls the gas supply mechanism to supply gas to the water receiving mechanism;

the base assembly comprises a frame and a water supply mechanism arranged on the frame;

the base is detachably connected with the rack through a quick connection structure, and the water supply mechanism is connected with the water receiving mechanism to automatically supply water.

The bubble water machine provided by the embodiment of the invention at least has the following beneficial effects: utilize and connect the structure fast and install system bubble water assembly on the frame assembly fast for system bubble water assembly can reuse to the frame assembly of different water supply modes on, utilize water supply mechanism to supply water to water receiving mechanism is automatic, and it is very convenient to add water.

According to some embodiments of the invention, the quick-connect structure is at least one of magnetic attraction, snap-fit, plug-in, and screw-in.

According to some embodiments of the invention, the gas supply mechanism comprises a gas cylinder, the gas cylinder is connected below the base, and an insertion space for inserting the gas cylinder is arranged in the rack.

According to some embodiments of the present invention, the water receiving mechanism includes a water bottle, a gas injection nozzle, a water injection pipeline and a water level sensor, the water injection pipeline is communicated with the water bottle, the gas injection nozzle and the water level sensor extend into the water bottle, the gas supply mechanism is connected with the gas injection nozzle, and the water supply mechanism is connected with the water injection pipeline and the water level sensor.

According to some embodiments of the present invention, the bubble making water assembly further includes an integrated board mounted on the base, the water injection pipeline is integrally formed on the integrated board, the integrated board is further provided with an integrally formed mounting portion and a first pressure relief pipeline, the water bottle is connected below the mounting portion, the water injection pipeline includes a water inlet and a water outlet, the first pressure relief pipeline includes a pressure relief opening and a first connection port, the pressure relief opening and the water outlet are communicated to the water bottle through the mounting portion, the water inlet is connected to the water supply mechanism, and the first connection port is internally provided with a first pressure relief valve.

According to some embodiments of the invention, the water inlet and the first connecting port extend downwards from the rear side of the integration plate, and the water inlet and the first connecting port penetrate through the base and are plugged into the rack.

According to some embodiments of the invention, the integrated board is further provided with a second pressure relief pipeline which is integrally formed, the second pressure relief pipeline is connected in series with the first pressure relief pipeline, the second pressure relief pipeline is provided with a second connecting port, and a second pressure relief valve is arranged in the second connecting port.

According to some embodiments of the present invention, the rack is provided with a plurality of plugging positions for plugging the first water inlet and the first connector.

According to some embodiments of the present invention, the water supply mechanism includes a water tank, a water pump, and a circuit module, the base is provided with a first connector electrically connected to the water level sensor, the frame is provided with a second connector electrically connected to the circuit module, and when the base is connected to the frame, the first connector is connected to the connector.

According to some embodiments of the invention, the water supply mechanism further comprises a water purification assembly.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the bubble making water assembly of the present invention;

FIG. 3 is a schematic view of the stand assembly of the present invention;

FIG. 4 is a schematic view from another perspective of FIG. 2;

FIG. 5 is a schematic view of the structure of the integrated board of the present invention;

fig. 6 is a schematic view of fig. 5 from another perspective.

Reference numerals: a bubble making water assembly 100; a base 110; a magnetic block 111; a socket 112; a first joint 113; a gas supply mechanism 120; a gas cylinder 121; a water receiving mechanism 130; a water bottle 131; a gas injection nozzle 132; (ii) a A water level sensor 133; a control mechanism 140;

a base assembly 200; a frame 210; a water supply mechanism 220; a water tank 221; a circuit module 222; a mounting platform 230; a magnet 231; a hole site 232; a column 233; a plug-in space 234; a plug-in bit 235; a second joint 236;

an integrated board 300; a water injection line 310; a water inlet 311; a water outlet 312; a mounting portion 320; a first pressure relief line 330; a pressure relief port 331; the first connection port 332; a second pressure relief line 340; the second connection port 341.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

As shown in fig. 1, the bubbling water machine comprises a bubbling water assembly 100 and a base assembly 200.

As shown in fig. 1 and 2, the bubble making water assembly 100 includes a base 110, and an air supply mechanism 120, a water receiving mechanism 130 and a control mechanism 140 are mounted on the base 110. The air supply mechanism 120 comprises a common structural combination of a common bubbling water machine, which comprises a water bottle 131 and an air valve. The water receiving mechanism 130 includes a structure combination commonly used in a general bubbling water machine, and includes a detachable water bottle 131 and a gas injection nozzle 132. The gas injection nozzle 132 is connected to the gas supply mechanism 120 by a gas pipe, and the gas injection nozzle 132 extends into the water bottle 131 through the base 110. The control mechanism 140 controls the on/off of the air valve, so that the air bottle 121 supplies air to the air injection nozzle 132 to inject air into the water bottle 131 to obtain bubble water. The bubble making water assembly 100 can independently complete the operation of bubble making water. The control mechanism 140 may be a manual pressing structure in the form of a link rod type, a pressing type, or the like for controlling the opening and closing of the air valve member by the existing bubbling water machine, but the control mechanism 140 is not limited to the above structure, and may also be in other structural forms such as an electric control.

As shown in fig. 1 and 3, the housing assembly 200 includes a frame 210 and a water supply mechanism 220, and the water supply mechanism 220 is mounted on the frame 210. The base assembly 200 and the bubble-making water assembly 100 are independent mechanisms before being connected with each other. The detachable quick connection structure is arranged on the water supply mechanism 220 and the base assembly 200, and the water supply mechanism 220 and the base assembly 200 are quickly assembled by the quick connection structure. The water supply mechanism 220 is connected to the water receiving mechanism 130 through a water pipe, and water is automatically supplied into the water bottle 131 by the water supply mechanism 220. The water supply mechanism 220 at least comprises a water tank 221, and the water supply structure of the water tank 221 comprises at least the following structures, wherein the mounting position of the water tank 221 on the rack 210 is higher than the mounting position of the water bottle 131 on the base 110, and the water in the water tank 221 is automatically injected into the water bottle 131 by utilizing the height difference; secondly, the water supply mechanism 220 is also provided with a water pump, and water in the water tank 221 is pumped by the water pump to the water receiving mechanism 130 through a water pipe; thirdly, the water supply mechanism 220 includes a water purification assembly (not shown), which is a composite filter element or a multi-stage filter element set, for supplying filtered water to the water bottle 131 for use.

Utilize the quick-connect structure to make bubble water assembly 100 install fast on frame assembly 200 for make bubble water assembly 100 can reuse to the frame assembly 200 of different water supply modes, utilize water supply mechanism 220 to supply water to water receiving mechanism 130 automatically, it is very convenient to add water.

In some embodiments of the present invention, the quick-connect structure is at least one of magnetic attraction, buckling, plugging and screwing. In this embodiment, as shown in fig. 1, 3 and 4, a mounting platform 230 is disposed on the frame 210, a plurality of magnets 231 are disposed on a plane of the mounting platform 230, a metal sheet or a magnetic block 111 is disposed on the base 110, and the metal sheet or the magnetic block is matched with the magnets 231 for magnetic attraction, when the bubble making water assembly 100 is connected to the base assembly 200, the base 110 of the bubble making water assembly 100 is lapped on the mounting platform 230, and the bubble making water assembly 100 is quickly fixed to the base assembly 200 by using the high-strength magnetic attraction between the magnets 231 and the metal sheet or the magnetic block 111. A hole site 232 is formed on the mounting platform 230 of the frame 210, an insertion space 234 is formed inside the frame 210 below the hole site 232, the gas cylinder 121 on the gas supply mechanism 120 is connected below the base 110, the gas cylinder 121 can be inserted into the hole site 232 from the top of the mounting platform 230 downwards to enter the insertion space 234 for fixation, and then the bubble making water assembly 100 is fixed on the base assembly 200. As shown in fig. 3 and 4, the mounting platform 230 is provided with a column 233, and the column 233 is inserted into the socket 112 of the base 110, so as to form a plug-in quick connection structure. In addition, the frame 210 and the base 110 can be fastened or screwed by a snap, a screw, a threaded connection, etc. (not shown in the drawings).

Specifically, the water receiving mechanism 130 includes a water bottle 131, an air injection nozzle 132, a water injection pipeline 310 and a water level sensor 133, the water injection pipeline 310 is communicated with the water bottle 131, the air injection nozzle 132 and the water level sensor 133 extend into the water bottle 131, the water level sensor 133 can be overlapped outside the air injection nozzle 132, the air supply mechanism 120 is connected with the air injection nozzle 132, and the water supply mechanism 220 is connected with the water injection pipeline 310 and the water level sensor 133. The water supply mechanism 220 injects water into the water bottle 131 through the water injection pipeline 310, the current water injection depth in the water bottle 131 is sensed by the relative position of the water level sensor 133 extending into the water bottle 131, and when the water injection depth in the water bottle 131 reaches the position of the water level sensor 133, the water supply mechanism 220 stops supplying water, so that the water injection operation is completed.

Further, the bubble making water assembly 100 further includes a manifold 300, and the manifold 300 is mounted on the base 110. The water injection pipeline 310, the installation part 320 and the first pressure relief pipeline 330 are arranged on the integrated board 300, and the water injection pipeline 310, the installation part 320 and the first pressure relief pipeline 330 are all integrally formed on the integrated board 300. As shown in fig. 5 and 6, the mounting part 320 is located at the front of the manifold 300, and a bottle mouth of the water bottle 131 is connected below the mounting part 320. The water injection line 310 and the first pressure discharge line 330 extend in the front-rear direction of the manifold 300 at both sides of the manifold 300. The water outlet 312 of the water filling pipeline 310 and the pressure relief port 331 of the first pressure relief pipeline 330 are disposed in the mounting portion 320, and the opening is at the bottom of the mounting portion 320 corresponding to the mouth of the water bottle 131. The water supply mechanism 220 is connected to a water inlet 311 of the water supply line 310, and supplies water into the water bottle 131 through the water supply line 310. The first connection port 332 is disposed at the end of the first pressure relief pipeline 330, and a first pressure relief valve (not shown) is disposed at the first connection port 332. After the water bottle 131 is inflated to make bubble water, the first pressure release valve is opened, and the air pressure in the water bottle 131 is exhausted to the outside through the pressure release port 331, the first pressure release pipeline 330, the first pressure release valve and the first connecting port 332 to realize the pressure release operation of the water bottle 131. The water injection pipeline 310 and the first pressure relief pipeline 330 are integrally formed on the integrated board 300, so that the pipeline installation in the bubble making water assembly 100 is simplified.

The water injection pipeline 310 and the first pressure relief pipeline 330 extend in the front-rear direction on the manifold 300, and the first connection port 332 and the water inlet 311 are both located at the rear side of the manifold 300 and extend downward. The base 110 is separated from the first connection port 332 and the water inlet 311, and the first connection port 332 and the water inlet 311 pass through the base 110 downward. Specifically, two insertion positions 235 for inserting the first water inlet 311 and the first connector 332 are disposed on the rack 210. When the bubbling water assembly 100 is mounted on the base assembly 200, the first water inlet 311 and the first connection port 332 are inserted into the corresponding insertion positions 235 for positioning. The water supply mechanism 220 is connected to the plugging position 235 corresponding to the water inlet 311 through a water pipe, and a pipe can be connected to the plugging position 235 corresponding to the first connector 332 for pressure relief and air exhaust. The whole pipelines and pipelines are arranged regularly and are convenient to install.

Further, a second pressure releasing pipeline 340 is integrally formed on the integrated board 300, the second pressure releasing pipeline 340 is connected in series with the first pressure releasing pipeline 330, air pressure in the water bottle 131 enters the tube body of the first pressure releasing pipeline 330 through the pressure releasing port 331, then the air pressure can flow into the tube body of the second pressure releasing pipeline 340, a second connecting port 341 is formed in the second pressure releasing pipeline 340, a second pressure releasing valve (not shown in the figure) is arranged in the second connecting port 341, and when the second pressure releasing valve is opened, the air pressure can be discharged from the second connecting port 341. The first pressure release valve is the initiative pressure release, and the second pressure release valve is the passive pressure release, but first pressure release valve is invalid or water-jug 131 internal gas pressure is too big and when opening first pressure release valve, the second pressure release valve is opened under the circumstances of excessive pressure and is carried out the pressure release to this forms dual pressure release protection.

As shown in fig. 3 and 4, the water supply mechanism 220 includes a water tank 221, a water pump and a circuit module 222, the water level sensor 133 needs to be powered on and performs signal feedback with the circuit module 222 to control the start and stop of the water pump. The base 110 is provided with a first connector 113, the first connector 113 is connected to the water level sensor 133 by a wire, and a second connector 236 is provided on the mounting platform 230 of the housing 210, the second connector 236 is connected to the circuit module 222. When the bubble-making water assembly 100 is mounted on the base assembly 200, the first connector 113 and the second connector 236 are mated and connected to each other, so as to realize the power-on and signal communication between the water level sensor 133 and the circuit module 222. The first connector 113 and the second connector 236 may be, but are not limited to, a common pin connector or the like.

In the description herein, references to the description of "some embodiments" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A bubble water machine, characterized by comprising:

the bubble making water assembly (100) comprises a base (110), a gas supply mechanism (120), a water receiving mechanism (130) and a control mechanism (140), wherein the gas supply mechanism (120), the water receiving mechanism (130) and the control mechanism (140) are installed on the base (110), and the control mechanism (140) controls the gas supply mechanism (120) to supply gas to the water receiving mechanism (130);

the stand assembly (200) comprises a stand (210) and a water supply mechanism (220) arranged on the stand (210);

the base (110) and the rack (210) are detachably connected through a quick connection structure, and the water supply mechanism (220) is connected with the water receiving mechanism (130) to automatically supply water.

2. The bubbling water machine according to claim 1, characterized in that: the quick connection structure is at least one of magnetic attraction, buckling, insertion and screwing.

3. The bubbling water machine according to claim 2, wherein: the gas supply mechanism (120) comprises a gas cylinder (121), the gas cylinder (121) is connected below the base (110), and an insertion space (234) for the gas cylinder (121) to be inserted is arranged in the rack (210).

4. The bubbling water machine according to claim 1, characterized in that: water receiving mechanism (130) includes water bottle (131), gas injection nozzle (132), water injection pipeline (310) and water level inductor (133), water injection pipeline (310) with water bottle (131) intercommunication, gas injection nozzle (132) water level inductor (133) stretch into to in water bottle (131), gas supply mechanism (120) with gas injection nozzle (132) are connected, water supply mechanism (220) with water injection pipeline (310) water level inductor (133) are connected.

5. The bubbling water machine according to claim 4, wherein: bubble making water assembly (100) is still including installing integrated board (300) on base (110), water injection pipeline (310) are in integrated into one piece on integrated board (300), still be equipped with integrated into one piece's installation department (320) and first pressure release pipeline (330) on integrated board (300), water bottle (131) are connected installation department (320) below, water injection pipeline (310) include water inlet (311) and delivery port (312), first pressure release pipeline (330) are including pressure release mouth (331) and first interface (332), pressure release mouth (331) delivery port (312) pass through installation department (320) communicate to water bottle (131), water inlet (311) with water supply mechanism (220) are connected, be equipped with first relief valve in first interface (332).

6. The bubbling water machine according to claim 5, wherein: the water inlet (311) and the first connecting port (332) extend downwards from the rear side of the integration plate (300), and the water inlet (311) and the first connecting port (332) penetrate through the base (110) and are plugged on the rack (210).

7. The bubbling water machine according to claim 5, wherein: still be equipped with integrated into one piece's second pressure release pipeline (340) on integrated board (300), second pressure release pipeline (340) with first pressure release pipeline (330) concatenates, second pressure release pipeline (340) are equipped with second connector (341), be equipped with the second relief valve in second connector (341).

8. The bubbling water machine according to claim 6, wherein: the rack (210) is provided with a plurality of plugging positions (235) for plugging the first water inlet (311) and the first connecting port (332).

9. The bubbling water machine according to claim 4, wherein: the water supply mechanism (220) comprises a water tank (221), a water pump and a circuit module (222), a first connector (113) electrically connected with the water level sensor (133) is arranged on the base (110), a second connector (236) electrically connected with the circuit module (222) is arranged on the rack (210), when the base (110) is connected with the rack (210), the first connector (113) is communicated with the connectors.

10. The bubbling water machine according to claim 9, wherein: the water supply mechanism (220) further comprises a water purification assembly.

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