TWM473173U - Sparkling water generating device - Google Patents

Description

Bubble water generating device

The present invention is a bubble water generating device, and more particularly to a bubble water generating device capable of performing a large amount of gas-water compatibility and storage.

In recent years, many newspapers and magazines have reported and confirmed that adding appropriate gas (carbon dioxide) to drinking water can make people's intestinal peristalsis, accelerate metabolism, quench their thirst and eliminate fatigue. Some people who lose weight will drink sparkling water as one of the work of weight loss. They drink a bubble of water and have a feeling of fullness, which promotes smooth bowel movement and can have a positive impact on weight loss.

As shown in Figure 1, when the bubble water generator 1 in the market is used, it is necessary to obtain a potable drinking water, and most of them will use ice water for use. The ice water must be poured into a special container 2 Then, the bottle mouth of the container 2 is locked in the bubble water generator 1 and locked with the bubble water generator 1, and the bubble water generator 1 has an air pipe 11 extending therein. In the container 2 (below the water surface), the bubble water generator 1 is operated by a person to perform an output gas, and the output gas is circulated into the water of the container 2 by the airway tube 11, and the water is converted into bubble water for supply. drink.

The bubble water generator 1 described above can inject a gas into the water to obtain a bubble water, but the conventional bubble water generator 1 is applied, wherein the gas and the water are actually independent of each other, and when necessary, It is processed into a single body, and a special container 2 which can be locked with the bubble water generator 1 is required, and the amount of each container can be determined according to the size of the special container 2. Therefore, in fact, there are still great disadvantages in the application, and there is room for improvement and its necessity.

The present invention is a bubble water generating device which mainly provides a bubble water generating device which can be mass-produced and stored.

To this end, the present invention provides a bubble water generating device. The bubble water generating device of the present invention comprises at least one water storage bucket, wherein the water storage bucket is divided into a first auxiliary water storage area and a second auxiliary water storage area, and the water end, the water inlet end and the air inlet end are arranged above the water storage bucket; The water inlet end is located above the corresponding first water storage area, and the water inlet end is connected to the water supply station via a water guiding pipeline, and the water guiding pipeline is further provided with a pressure motor; the air inlet end is located The corresponding upper part of the second sub-storage area is connected to a high-pressure gas source via an bleed air line; and a second water storage area is provided with a water level detector.

In the application of the present application, a high-pressure gas source outputs a high-pressure gas to the water storage tank through the bleed air line and the intake end, and the action of the pressure motor by the water inlet end causes the output water source to be a powerful water column of high-speed injection. The gas stored in the water storage tank is dissolved in the water column outputted from the water inlet end, so that the water column is rich in a large amount of gas; and the water column is directly poured into the first auxiliary water storage area and stored therein, in the water column The gas 遂 is dissolved in the water stored in the first sub-storage area, and when the water column is poured into the first sub-storage area, the high-pressure gas originally present in the water storage tank is also brought into the first In the depth of the water in the sub-storage area, the water stored in the first sub-storage area becomes a bubble water rich in a large amount of gas. When the water storage in the first sub-storage area gradually increases, it overflows and flows to the second sub-storage area for storage until the water level detector of the second sub-storage area measures the water storage therein. Up to the preset high water level, that is, the pressure motor connected to the water inlet end of the water level detector stops operating, and the generation of bubble water is completed.

(known)

1‧‧‧bubble water generator

11‧‧‧ air duct

2‧‧‧ Container

(this creation)

3‧‧‧Water bucket

31‧‧‧First water storage area

32‧‧‧Second water storage area

33‧‧‧ partition wall

34‧‧‧ water outlet

341‧‧‧Water pipeline

35‧‧‧ water inlet

351‧‧‧ water supply pipeline

352‧‧‧Water Supply Office

353‧‧‧Pressure motor

36‧‧‧ intake end

361‧‧‧ bleed line

362‧‧‧High pressure gas source

363‧‧‧Regulator

37‧‧‧Water level detector

38‧‧‧Pressure automatic regulating valve

4‧‧‧Refrigeration unit

41‧‧‧Compressor

42‧‧‧Condenser

43‧‧‧temperature sensor

Figure 1 is a schematic diagram of a conventional bubble water generator.

Figure 2 is a schematic diagram of this creation.

Figure 3 is a schematic diagram of the application of this creation.

Figure 4 is a schematic diagram of another embodiment of the present creation.

Figure 5 is a schematic diagram of still another embodiment of the present creation.

Figure 6 is a schematic diagram of the application of Figure 5.

Figure 7 is a schematic view of still another embodiment of Figure 5.

In order to make it easier for your review board to further understand the structure of the case and its application effects, please follow the illustrations as follows: First, as shown in FIG. 2, the bubble water generating device of the present invention includes at least one water storage tank 3, and the water storage tank 3 is divided into a first sub water storage area 31 and a second sub water storage area 32. A partition wall 33 is disposed between the first sub-storage area 31 and the second sub-storage area 32, and the volume of the first sub-storage area 31 is smaller than the volume of the second sub-storage area 32, and the partition wall 33 The upper portion does not reach the upper wall of the water storage tank 3, and the first sub-water storage area 31 and the second sub-water storage area 32 are connected to each other; the water storage tank 3 has a water outlet end 34, The water inlet end 35 and the inlet end 36, the water outlet end 34 and further extend a water immersion line 341 to the near bottom of the second sub water storage area 32; the water inlet end 35 is located in the first sub water storage area 31 Above, the water inlet end 35 is connected to the water supply station 352 via a water guiding line 351, and the water guiding line 351 is further provided with a pressure motor 353; the air inlet end 36 is located in the second sub water storage area. Above the corresponding upper portion of 32, the intake end 36 is connected to a high pressure gas source 362 via an bleed air line 361, and the high pressure gas source 362 is further provided with an adjustment. The valve 363, the second auxiliary water storage area 32 is provided with a water level detector 37, and a pressure automatic regulating valve 38 is further disposed above the water storage tank 3.

Continuing to refer to FIG. 3, in the present application, a high-pressure gas source 362 outputs a high-pressure gas to the water storage tank 3 via the bleed air line 361 and the air inlet end 36, and is connected by the high-pressure gas source 362. The regulating valve 363 is actuated so that the air pressure in the water storage tank 3 can be maintained at a predetermined high pressure value, and the high pressure gas source 362 can be a cylinder bottle filled with high pressure gas, but the cylinder filled with high pressure gas The bottle is not the main appeal of the case, and will not be described later. Next, the water supply tank 3 is supplied with water from the water inlet 35, and the water supply 352 connected to the water inlet 35 is a RO reverse osmosis water treatment device. , or other equipment sufficient to process the raw water to reach the drinking water; at this time, the water diversion line 351 will supply the water source of the water supply 352 to the water storage tank 3, and the operation of the pressurizing motor 353 will cause The water source outputted from the water inlet end 35 is in the form of a strong water column which is jetted at a high speed, so that the gas originally stored in the water storage tank 3 will be dissolved in the water column outputted from the water inlet end 35, so that the water column will be rich in a large amount of gas; The water inlet end 35 is located in the first sub water storage area 31 corresponding thereto. Whereas, the water column will be directly poured into the first sub-storage area 31 and stored therein, and the gas enthalpy in the water column is dissolved in the first sub-storage area 31 and stored in the water column. When a pair of water storage areas 31 are in use, the high pressure gas originally present in the water storage tank 3 is also brought into the first secondary storage. In the depth of the water storage in the water zone 31, the water stored in the first sub-storage zone 31 is enriched with bubble water rich in a large amount of gas; after the water inlet operation for a period of time, the first sub-water storage zone 31 The water storage will overflow and flow into the second sub-storage area 32, and will continue to be stored in the second sub-storage area 32 until the water level detector 37 in the second sub-storage area 32 detects the preset. When the water level is high, the water level detector 37 is interlocked to stop the operation of the pressurizing motor 353, and the water inlet operation of the water inlet end 35 is stopped, that is, the operation of generating bubble water is completed. Since the water storage system in the first sub-storage area 31 flows into the second sub-storage area 32 in a natural overflow manner, the water storage in the first sub-storage area 31 is diverted to the second sub-storage water. In the middle of the zone 32, the disturbance of the water storage can be minimized, so that the water stored in the second auxiliary water storage zone 32 is still rich in a large amount of gas, and becomes a bubble water rich in a large amount of gas.俾 can be exported to the outside through the water outlet 34 for personnel to access. Furthermore, the water storage tank 3 is kept under a high pressure by the high pressure gas input from the inlet end 36, so that the first sub water storage area 31 and the second sub water storage area 32 can be made. The water stored therein is not easy to release the gas rich in the water, and the released gas can be dissolved again in the storage water of the first sub-storage area 31 and the second sub-storage area 32.

After the bubble water is generated, it is stored in the water storage tank 3 for standby, and can be externally outputted by the water outlet end 34 for drinking by a person. And when the water stored in the second sub-water storage area 32 is continuously lowered to a predetermined low water level and detected by the water level detector 37 in the second sub-water storage area 32, The water level detector 37, that is, the interlocking pressurizing motor 353 is activated again, so that the water inlet end 35 is re-introduced as described above, and the bubble water is regenerated to be stored in the water storage tank 3; and through such a cycle, the foot can be supplied at any time. The amount of bubble water for people to drink at any time.

In addition, as shown in FIG. 4, the bubble water generating device of the present invention can be further added to a refrigerating device 4, wherein the refrigerating device 4 has at least one compressor 41 and a condenser 42 connected thereto, and the refrigerating device 4 The condenser 42 is spirally wound around the periphery of the water storage tank 3, and operates through the compressor 41 and passes through the condenser 42 to cause the first sub-water storage area 31 and the second sub-water storage area 32 in the water storage tank 3. The stored bubble water lowers its temperature, so that the subsequent output has a cold taste when consumed. In addition, the refrigerating device 4 can be further provided with a temperature sensor 43 disposed in the second sub-storage area 32 of the water storage tank 3 to sense the second sub-water storage area 32. The temperature of the water of the bubble water is stored, and the temperature sensor 43 is coupled to the compressor 41 to The start and stop of the compressor 41 are linked by the temperature sensor 43; then, the temperature of the bubble water stored in the second auxiliary water storage area 32 is sensed by the temperature sensor 43. If the water temperature of the bubble water is too high, The temperature sensor 43 is linked to activate the compressor 41, so that the bubble water stored in the second sub-water storage area 32 can be lowered in temperature; otherwise, the temperature sensor 43 senses that the bubble water temperature has been lowered to the preset. When the temperature is low, the compressor 41 is stopped from running; thus, the bubble water stored in the second sub-water storage area 32 can be maintained at a predetermined low temperature state, so that a low (ice) temperature bubble water supply can be provided at any time. People drink. Yes, the application of the refrigerating device 4 can be improved by the activation of the temperature sensor 43 in conjunction with the activation of the compressor 41.

As shown in FIG. 5, in another embodiment, the bubble water generating device of the present invention includes at least one water storage tank 3, and the water storage tank 3 is divided into a first auxiliary water storage area 31 and a second auxiliary water storage area. In the area 32, the first sub-storage area 31 and the second sub-storage area 32 have a partition wall 33, and the volume of the first sub-storage area 31 is smaller than the volume of the second sub-storage area 32. And above the partition wall 33 and not reaching the upper wall of the water storage tank 3, so that the first sub-water storage area 31 and a second sub-water storage area 32 are connected to each other; the water inlet end 35 is connected The water guiding line 351 is connected to the water supply station 352, and the water guiding line 351 is further provided with a pressure motor 353, and the air inlet end 36 is connected to a high pressure gas source 362 via a bleed air line 361. The high pressure gas source The 362 is further provided with a regulating valve 363, wherein the water inlet end 35 and the air inlet end 36 are connected to each other through the collecting phase, and then extend into the upper portion of the first auxiliary water storage area 31 in the water storage tank 3; As shown in FIG. 6, the water source of the water supply station 352 will be transported through the water guiding line 351 through the pressurizing motor 353, and on the other hand, the high pressure gas. The source 362 is transported through the bleed air line 361, so that the water source of the water supply 352 will dissolve a large amount of gas from the high pressure gas source 362, dissolve it into bubble water rich in a large amount of gas, and spray the powerful water column at a high speed. Injecting into the first sub-storage area 31, and the water stored in the first sub-storage area 31 is bubble water rich in a large amount of gas; after a period of operation, the first sub-storage area 31 The stored water will overflow and flow into the second sub-storage area 32 and continue to be stored in the second sub-storage area 32, such that the water level detector 37 in the second sub-storage area 32 continues for a period of time. When the preset high water level is detected, the water level detector 37 is interlocked to stop the operation of the pressure motor 353 to stop the water inlet operation of the water inlet end 35, that is, the operation of generating the bubble water is completed. The water can be discharged through the water outlet 34 in the subsequent step.

Similarly, if the water storage in the second sub-storage area 32 is continuously lowered to a predetermined low water level and detected by the water level detector 37 in the second sub-storage area 32, The water level detector 37, that is, the interlocking pressurizing motor 353 is activated again, so that the water inlet end 35 re-enters the water as described above, and the bubble water is again generated and stored in the water storage tank 3; and through such a cycle, it can be used at any time. Supply a sufficient amount of sparkling water for people to drink at any time.

In addition, as shown in FIG. 7, it is still possible to add a refrigerating device 4, the refrigerating device 4 has at least one compressor 41 and a condenser 42 connected thereto, and the condenser 42 of the refrigerating device 4 is spirally surrounded and stored. The periphery of the water tub 3; and through the operation of the compressor 41, and through the action of the condenser 42, the water stored in the first sub-storage area 31 and the second sub-storage area 32 in the water storage tank 3 is lowered, so that It has a cold taste when it is served. Similarly, the refrigerating device 4 can be further provided with a temperature sensor 43 disposed in the second sub-water storage area 32 of the water storage tank 3, and the second sub-water storage area 32 can be sensed. The temperature of the bubble water stored in the medium is connected to the compressor 41, so that the start and stop of the compressor 41 are linked by the temperature sensor 43; thus, the second sub-storage is transmitted through the temperature sensor 43. The bubble water temperature stored in the water zone 32 is sensed. If the bubble water temperature is too high, the temperature sensor 43 is linked to activate the compressor 41, so that the bubble water stored in the second sub-water storage zone 32 can be If the temperature sensor 43 senses that the bubble water temperature has decreased to a preset low temperature, the compressor 41 is stopped from operating; thus, the bubbles stored in the second sub-water storage area 32 can be stored. The water maintains a predetermined low temperature state to provide a low (ice) temperature bubble water for drinking at any time. Yes, the application of the refrigerating device 4 can be improved by the activation of the temperature sensor 43 in conjunction with the activation of the compressor 41.

The utility model has the effect that the bubble water generating device of the present invention comprises at least one water storage tank 3; the water storage tank 3 is divided into a first auxiliary water storage area 31 and a second auxiliary water storage area 32, the first auxiliary water storage area The upper portion of the third sub-water storage area 32 is in communication with each other; the water inlet end 35 is located at a corresponding upper portion of the first sub-water storage area 31, so that the water inlet end 35 is The high-speed jetting of the powerful water column mode performs water inflow, so that the strong water column dissolves a large amount of gas, and the high-pressure gas originally present in the water storage tank 3 is also brought into the water storage depth in the first sub-storage area 31. After the water column is injected into the first sub-storage area 31, the water stored in the first sub-storage area 31 is made up of a large amount of gas to form a bubble gas rich in a large amount of gas, and then After the water storage area 31 overflows and is stored in the second auxiliary water storage area 32, it can be externally outputted from the water outlet end 34 provided in the second auxiliary water storage area 32, so that bubble water can be continuously generated for supply. Drinking by personnel.

3‧‧‧Water bucket

31‧‧‧First water storage area

32‧‧‧Second water storage area

33‧‧‧ partition wall

34‧‧‧ water outlet

341‧‧‧Water pipeline

35‧‧‧ water inlet

351‧‧‧ water supply pipeline

352‧‧‧Water Supply Office

353‧‧‧Pressure motor

36‧‧‧ intake end

361‧‧‧ bleed line

362‧‧‧High pressure gas source

363‧‧‧Regulator

37‧‧‧Water level detector

38‧‧‧Pressure automatic regulating valve

Claims (10)

A bubble water generating device comprises at least one water storage tank, at least one water inlet end and an air inlet end above the water storage tank, and the water inlet end is connected to the water supply station via a water guiding pipeline, and the water guiding pipeline is further arranged a pressurized motor, the intake end is connected to a high-pressure gas source via an bleed air line, wherein the water storage tank is divided into a first sub-water storage area and a second sub-water storage area, and the water inlet end It is located above the corresponding upper part of the first sub-storage area, and the intake end is located above the corresponding one of the second sub-storage area. A bubble water generating device comprises at least one water storage tank, at least one water inlet end and an air inlet end above the water storage tank, and the water inlet end is connected to the water supply station via a water guiding pipeline, and the water guiding pipeline is further arranged a pressurized motor, the intake end is connected to a high-pressure gas source via an bleed air line, wherein the water storage tank is divided into a first sub-storage area and a second sub-storage area, and the inlet end is The intake end is connected to the collection phase and then extends into the upper portion of the first sub-storage area in the water storage tank. The bubble water generating device of claim 1, wherein the first sub-water storage area has a smaller volume than the second sub-water storage area, and the first sub-storage area and a second Above the sub-storage area is connected. The bubble water generating device according to claim 1 or 2, wherein the high pressure gas source is further provided with a regulating valve. The bubble water generating device according to claim 1 or 2, wherein the second sub-storage area is provided with a water level detector, and the water level detector is coupled to the pressure motor at the water inlet end. . The bubble water generating device according to claim 1 or 2, wherein a pressure automatic regulating valve is further disposed above the water storage tank. The bubble water generating device according to claim 1 or 2, wherein the water storage tank is further provided with a water outlet end. The bubble water generating device of claim 7, wherein the water outlet end further extends a water drain pipe to a near bottom portion of the second sub water storage zone. The bubble water generating device according to claim 1 or 2, wherein the periphery of the water storage tank is further surrounded by a condenser of a refrigerating device, and the condenser is coupled to a compressor through which the compressor operates. And can reduce the temperature of the bubble water stored in the water storage tank Degree. The bubble water generating device of claim 9, wherein the refrigerating device is further provided with a temperature sensor, wherein the temperature sensor is disposed in the second sub-water storage area of the water storage tank to sense the The temperature of the bubble water stored in the second sub-storage area, and the activation of the compressor operation can be started according to the sensed water temperature.