CN219877953U - Air entraining system of beverage machine - Google Patents
Air entraining system of beverage machine Download PDFInfo
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- CN219877953U CN219877953U CN202320357929.4U CN202320357929U CN219877953U CN 219877953 U CN219877953 U CN 219877953U CN 202320357929 U CN202320357929 U CN 202320357929U CN 219877953 U CN219877953 U CN 219877953U
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- air
- pipeline
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- 235000013361 beverage Nutrition 0.000 title claims abstract description 24
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 88
- 238000002156 mixing Methods 0.000 claims abstract description 47
- 239000000463 material Substances 0.000 claims abstract description 46
- 210000003437 trachea Anatomy 0.000 claims abstract description 3
- 238000003756 stirring Methods 0.000 claims description 52
- 238000007789 sealing Methods 0.000 claims description 18
- 238000002347 injection Methods 0.000 claims description 16
- 239000007924 injection Substances 0.000 claims description 16
- 238000004891 communication Methods 0.000 claims description 15
- 238000003825 pressing Methods 0.000 claims description 13
- 239000002351 wastewater Substances 0.000 claims description 9
- 238000000034 method Methods 0.000 claims description 3
- 239000011148 porous material Substances 0.000 claims 2
- 238000010586 diagram Methods 0.000 description 5
- 239000007788 liquid Substances 0.000 description 4
- 235000014171 carbonated beverage Nutrition 0.000 description 3
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 description 2
- 229910002092 carbon dioxide Inorganic materials 0.000 description 1
- 239000001569 carbon dioxide Substances 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 238000005086 pumping Methods 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
Abstract
The utility model relates to air-adding equipment and discloses an air-adding system of a beverage machine, which comprises a pure water tank (10), a first water pump (11) and a water-air mixing tank (12), wherein the pure water tank (10) is communicated with the water-air mixing tank through the first water pump (11), and a first electromagnetic valve (13) is arranged at the water outlet end of the water-air mixing tank; still include former water tank (14), second water pump (15), retort (16) and reinforced jar (17), former water tank passes through second water pump and retort intercommunication, and reinforced jar is installed in retort (16) top and communicates with it, and the upper end of retort (16) is equipped with and gives vent to anger and connects (161), and it connects through trachea (18) and water vapour mixing tank (12) intercommunication to give vent to anger. The gas filling system generates gas after the materials react in the reaction tank, and the gas is conveyed to the water-gas mixing tank through the pipeline to realize water-gas mixing. The beverage machine generates a lot of gas by using a water-gas beverage without storing a lot of gas.
Description
Technical Field
The utility model relates to air entraining equipment, in particular to an air entraining system of a beverage machine.
Background
With the development of economy and the improvement of living standard of people, many families can provide beverage machines. Carbonated beverages are also a popular choice due to their unique mouthfeel. Most of the carbonated beverage machines on the market at present use a carbon dioxide gas tank to prepare carbonated beverages, but the storage, installation and disassembly of the gas tank have certain complexity and potential safety hazards to the operation of consumers, for example, a preparation device of a gas solution with the application number of 201510924641.0 and a method for improving the solubility of gas in liquid, and the gas in the gas tank is basically led from other gas storage equipment instead of diameter reaction to generate the required gas, so that the cost of the whole gas storage equipment is caused, the gas storage is not easy, and enough equipment and sites are needed to store the gas.
Disclosure of Invention
Aiming at the defects in the prior art, the utility model provides an air-entraining system of a beverage machine.
In order to solve the technical problems, the utility model is solved by the following technical scheme:
the air-adding system of the beverage machine comprises a pure water tank, a first water pump and a water-air mixing tank, wherein the pure water tank is communicated with the water-air mixing tank through the first water pump, and a first electromagnetic valve is arranged at the water outlet end of the water-air mixing tank; still include former water tank, second water pump, retort and charging tank, former water tank passes through second water pump and retort intercommunication, and the charging tank is installed in the retort top and communicates with it, and the upper end of retort is equipped with the joint of giving vent to anger, and the joint of giving vent to anger communicates with the aqueous vapor blending tank through the trachea. The gas filling system generates gas after the materials react in the reaction tank, and the gas is conveyed to the water-gas mixing tank through the pipeline to realize water-gas mixing. The beverage machine generates a lot of gas by using a water-gas beverage without storing a lot of gas.
Preferably, the device further comprises a waste water tank, wherein a second electromagnetic valve is installed at the bottom of the reaction tank through a pipeline and is connected with the waste water tank. The materials in the reaction tank are reacted to form gas-liquid separation, and the liquid is discharged into the wastewater tank through the second electromagnetic valve.
Preferably, a first one-way valve is arranged on a pipeline between the first water pump and the water-gas mixing tank, and the first one-way valve enables the pipeline between the first water pump and the water-gas mixing tank to form a one-way flow passage, so that pure water conveyed by the first water pump is prevented from flowing back to the pure water tank.
Preferably, a second one-way valve is arranged on a pipeline between the reaction tank and the second water pump, and the second one-way valve enables the pipeline between the reaction tank and the second water pump to form a one-way flow passage, so that raw water conveyed by the second water pump is prevented from flowing back to the raw water tank.
Preferably, a third one-way valve is arranged on a pipeline between the reaction tank and the water-gas mixing tank, and the third one-way valve enables the pipeline between the reaction tank and the water-gas mixing tank to form a one-way flow passage, so that the gas conveyed to the water-gas mixing tank is prevented from flowing back to the reaction tank.
Preferably, a gas tank is arranged on a pipeline between the water-gas mixing tank and the reaction tank, a third one-way valve is arranged on a pipeline between the water-gas mixing tank and the gas tank, a fourth one-way valve is arranged on a pipeline between the gas tank and the reaction tank, and a first pressure relief valve is arranged on the gas tank. The gas tank is used for storing gas generated by the reaction tank and improving the response time of the gas filling system. The first pressure relief valve can relieve pressure for the air tank, ensures that the pressure of the air tank is in a set range, and improves the safety of the air tank.
Preferably, the motor and the (mixing) shaft are installed at the bottom of the charging bucket, a plurality of stirring blades are integrally formed on the stirring shaft, the motor is connected with the stirring shaft and drives the motor to rotate, the charging bucket comprises a first charging bucket and a second charging bucket, a communication hole is formed between the bottom of the first charging bucket and the bottom of the second charging bucket, and the stirring shaft is arranged at the bottoms of the first charging bucket and the bottom of the second charging bucket through the communication hole. The stirring shaft can stir materials in the first charging bucket and the second charging bucket and simultaneously convey the respective materials to the communicating hole.
Preferably, the stirring blade on the stirring shaft at the bottom of the first charging bucket is a first stirring blade, the stirring blade on the stirring shaft at the bottom of the second charging bucket is a second stirring blade, the directions of the first stirring blade and the second stirring blade are opposite, and the part of the stirring shaft arranged in the communication hole is a polished rod.
Preferably, a supporting seat is arranged on the reaction tank, a material injection pipe is arranged on the supporting seat, one end of the material injection pipe is communicated with the bottom of the communication hole, and the other end of the material injection pipe is communicated with the reaction tank; the support seat is hinged with a pressing block, the pressing block is connected with a connecting rod, the end part of the connecting rod is hinged with a sealing block, and the sealing block is driven to seal or separate from the material injection pipe through the swinging pressing block. The material filling pipe is used for communicating the material filling tank with the reaction tank, the material filling pipe is communicated with the communicating hole, the pressing block can drive the sealing block to seal or open the port of the material filling pipe, and when the sealing block seals the port of the material filling pipe, the materials in the reaction tank react to generate gas; when the sealing block is separated from the port of the material injection pipe, the material injection tank is communicated with the reaction tank, and materials at the communication hole are input into the reaction tank through the material injection pipe.
Preferably, the reaction tank comprises an upper tank and a lower tank, the upper tank is covered on the lower tank to form a reaction cavity, the material filling pipe is communicated with the upper tank, the air outlet joint is arranged on the upper tank, the bottom of the lower tank is provided with a water inlet joint, and the first water pump is connected with the water inlet joint. The split type retort is convenient to process on the one hand, and convenient to clean and maintain the retort on the other hand.
The utility model has the remarkable technical effects due to the adoption of the technical scheme:
the gas filling system generates gas after the materials react in the reaction tank, and the gas is conveyed to the water-gas mixing tank through the pipeline to realize water-gas mixing. The beverage machine generates a lot of gas by using a water-gas beverage without storing a lot of gas.
Drawings
Fig. 1 is a schematic diagram of a frame structure of a first air entrainment system of the utility model.
Fig. 2 is a schematic diagram of a frame structure of a second air entrainment system of this utility model.
Fig. 3 is a schematic diagram of a connection structure between the feed tank and the reaction tank in fig. 1.
Fig. 4 is a schematic structural diagram of the feed tank and the reaction tank under another view of fig. 3.
Fig. 5 is a schematic view of the structure of fig. 3 in a state in which the sealing block is opened.
Fig. 6 is a schematic structural diagram of the feed tank and the reaction tank under another view of fig. 5.
The names of the parts indicated by the numerical reference numerals in the above drawings are as follows: the device comprises a 10-pure water tank, a 11-first water pump, a 12-water-gas mixing tank, a 13-first electromagnetic valve, a 14-raw water tank, a 15-second water pump, a 16-reaction tank, a 17-charging tank, a 18-gas pipe, a 19-waste water tank, a 20-second electromagnetic valve, a 21-first one-way valve, a 22-second one-way valve, a 23-third one-way valve, a 24-gas tank, a 25-fourth one-way valve, a 26-first pressure relief valve, a 27-motor, a 28-stirring shaft, a 29-supporting seat, a 30-charging pipe, a 31-pressing block, a 32-sealing block, a 160-reaction cavity, a 161-gas outlet joint, a 162-upper tank, a 163-lower tank, a 164-water inlet joint, a 171-first tank, a 172-second tank, a 173-communication hole, 281-stirring blade, 2811-first stirring blade, 2812-second stirring blade and a 311-connecting rod.
Detailed Description
The utility model is described in further detail below with reference to figures 1-6 and examples.
Example 1
The utility model provides an air entrainment system of beverage machine, includes pure water tank 10, first water pump 11 and aqueous vapor mixing tank 12, and pure water tank 10 communicates with aqueous vapor mixing tank 12 through first water pump 11, installs the second relief valve on the aqueous vapor mixing tank 12, guarantees that the pressure in the aqueous vapor mixing tank 12 is in the settlement scope. The first water pump 11 is used for pumping pure water in the pure water tank 10 into the water-gas mixing tank 12, a first electromagnetic valve 13 is installed at the water outlet end of the water-gas mixing tank 12, and the first electromagnetic valve 13 is a water outlet valve. The gas filling system further comprises a raw water tank 14, a second water pump 15, a reaction tank 16 and a charging tank 17, wherein the raw water tank 14 is communicated with the reaction tank 16 through the second water pump 15, the second water pump 15 can pump raw water in the raw water tank 14 into the reaction tank 16, the charging tank 17 is arranged above the reaction tank 16 and is communicated with the reaction tank 16, materials in the charging tank 17 can be conveyed into the reaction tank 16 and mixed with the raw water, gas is generated after the reaction of the reaction tank 16, an air outlet connector 161 is arranged at the upper end of the reaction tank 16, the air outlet connector 161 is communicated with the water-gas mixing tank 12 through an air pipe 18, and the gas is discharged out of the reaction tank 17 through the air outlet connector 161 and is conveyed into the water-gas mixing tank 12.
The air-entrapping system further comprises a waste water tank 19, a second electromagnetic valve 20 is installed at the bottom of the reaction tank 16 through a pipeline, the second electromagnetic valve 20 is connected with the waste water tank 19, the second electromagnetic valve 20 is opened, and the reacted liquid in the reaction tank 16 can be conveyed into the waste water tank 19.
A first one-way valve 21 is arranged on a pipeline between the first water pump 11 and the water-gas mixing tank 12, and the first one-way valve 21 enables the pipeline between the first water pump 11 and the water-gas mixing tank 12 to form a one-way flow passage, so that pure water conveyed by the first water pump 11 is prevented from flowing back to the pure water tank 10.
A second one-way valve 22 is arranged on a pipeline between the reaction tank 16 and the second water pump 15, and the second one-way valve 22 enables the pipeline between the reaction tank 16 and the second water pump 15 to form a one-way flow passage, so that raw water conveyed by the second water pump 15 is prevented from flowing back to the raw water tank 14.
A third one-way valve 23 is arranged on the pipeline between the reaction tank 16 and the water-gas mixing tank 12, and the third one-way valve 23 enables the pipeline between the reaction tank 16 and the water-gas mixing tank 12 to form a one-way flow passage, so that the gas conveyed to the water-gas mixing tank 12 is prevented from flowing back to the reaction tank 16.
The motor 27 and the stirring shaft 28 are arranged at the bottom of the charging bucket 17, a plurality of stirring blades 281 are integrally formed on the stirring shaft 28, and the motor 27 is connected with the stirring shaft 28 and drives the stirring shaft 28 to rotate. The charging bucket 17 includes a first charging bucket 171 and a second charging bucket 172, a communication hole 173 is provided between the bottoms of the first charging bucket 171 and the second charging bucket 172, and the stirring shaft 28 is provided at the bottoms of the first charging bucket 171 and the second charging bucket 172 through the communication hole 173.
The stirring vane 281 on the stirring shaft 28 at the bottom of the first charging bucket 171 is a first stirring vane 2811, the stirring vane 281 on the stirring shaft 28 at the bottom of the second charging bucket 172 is a second stirring vane 2812, the directions of the first stirring vane 2811 and the second stirring vane 2812 are opposite, the first stirring vane 2811 can convey materials in the first charging bucket 171 to the communication hole 173 under the driving of the stirring shaft 28, the second stirring vane 2812 can convey materials in the second charging bucket 172 to the communication hole 173 under the driving of the stirring shaft 28, the stirring shaft 28 arranged in the communication hole 173 is a polished rod, and the polished rod facilitates the convergence of the materials in the first charging bucket 171 and the second charging bucket 172 in the communication position 173.
The reaction tank 16 is provided with a supporting seat 29, the supporting seat 29 is provided with a material injection pipe 30, one end of the material injection pipe 30 is communicated with the bottom of the communication hole 173, and the other end of the material injection pipe is communicated with the reaction tank 16; the pressing block 31 is hinged on the supporting seat 29, the pressing block 31 is connected with the connecting rod 311, the end part of the connecting rod 311 is hinged with the sealing block 32, and the sealing block 32 is driven to seal or separate from the material injection pipe 30 through the swinging pressing block 31. The feeding pipe 30 is used for communicating the feeding tank 17 with the reaction tank 16, the feeding pipe 30 is communicated with the communicating hole 173, the pressing block 31 can drive the sealing block 32 to seal or open the port of the feeding pipe 30, and when the sealing block 32 seals the port of the feeding pipe 30, the materials in the reaction tank 16 react to generate gas; when the sealing block 32 is separated from the port of the filling pipe 30, the charging tank 17 is communicated with the reaction tank 16, and the material at the communicating hole 173 is inputted into the reaction tank 16 through the filling pipe 30.
During charging, two different materials are placed in the first charging bucket 171 and the second charging bucket 172, then the stirring shaft 28 is driven by the motor 27, the materials enter the reaction tank 16 along the charging pipe 30, the charging amount of the materials can be selected according to the self-required air quantity, and the rotation number of the stirring shaft 28 is controlled.
After the charging is finished, the sealing block 32 and the sealing ring on the sealing block are driven to be matched and sealed with the feed inlet on the reaction tank 16 through the control pressing block 31. The water is then injected into the reaction tank 16 by the second water pump 15. The two injected materials react with water to generate a large amount of gas, so that the pressure in the cavity is increased, and the high-pressure gas with the pressure of more than 0.5Mpa can be generated only by tens of seconds, and the high-pressure gas is output through the air outlet joint 161. Providing the required high-pressure gas for the mixed water vapor of the bubble water.
Example 2
Embodiment 2 has substantially the same features as embodiment 1, except that the reaction tank 16 is a split tank body, the reaction tank 16 includes an upper tank 162 and a lower tank 163, the upper tank 162 and the lower tank 163 are hermetically connected through a sealing ring, the upper tank 162 and the lower tank 163 are connected through a bolt, the upper tank 162 is covered on the lower tank 163 to form a reaction cavity 160, the injection pipe 30 is communicated with the upper tank 162, the air outlet connector 161 is arranged on the upper tank 162, the air outlet connector 161 is welded on the upper tank 162, the bottom of the lower tank 163 is welded with a water inlet connector 164, and the first water pump 11 is connected with the water inlet connector 164.
Example 3
Embodiment 3 is basically the same as embodiment 1 or 2, except that a gas tank 24 is installed on a pipeline between the water-gas mixing tank 12 and the reaction tank 16, a third check valve 23 is provided on a pipeline between the water-gas mixing tank 12 and the gas tank 24, the third check valve 23 prevents water gas in the water-gas mixing tank 12 from flowing back into the gas tank 24, a fourth check valve 25 is installed on a pipeline between the gas tank 24 and the reaction tank 16, the fourth check valve 25 prevents gas in the gas tank 24 from flowing back into the reaction tank 16, a first pressure release valve 26 is installed on the gas tank 24, the first pressure release valve 26 can release pressure for the gas tank 24, the pressure of the gas tank 24 is ensured to be within a set range, and the safety of the gas tank 24 is improved.
Claims (10)
1. The air-adding system of the beverage machine comprises a pure water tank (10), a first water pump (11) and a water-air mixing tank (12), wherein the pure water tank (10) is communicated with the water-air mixing tank (12) through the first water pump (11), and a first electromagnetic valve (13) is arranged at the water outlet end of the water-air mixing tank (12); the method is characterized in that: still include former water tank (14), second water pump (15), retort (16) and charging tank (17), former water tank (14) are through second water pump (15) and retort (16) intercommunication, and charging tank (17) are installed in retort (16) top and are linked together with it, and the upper end of retort (16) is equipped with and gives vent to anger and connect (161), and it is connected (12) with the water gas mixing through trachea (18) to give vent to anger connect (161).
2. An air entrainment system for a beverage dispenser according to claim 1 wherein: the device also comprises a waste water tank (19), wherein a second electromagnetic valve (20) is arranged at the bottom of the reaction tank (16) through a pipeline, and the second electromagnetic valve (20) is connected with the waste water tank (19).
3. An air entrainment system for a beverage dispenser according to claim 1 wherein: a first one-way valve (21) is arranged on a pipeline between the first water pump (11) and the water-air mixing tank (12).
4. An air entrainment system for a beverage dispenser according to claim 1 wherein: a second one-way valve (22) is arranged on a pipeline between the reaction tank (16) and the second water pump (15).
5. An air entrainment system for a beverage dispenser according to claim 1 wherein: a third one-way valve (23) is arranged on a pipeline between the reaction tank (16) and the water-gas mixing tank (12).
6. An air entrainment system for a beverage dispenser as defined in claim 5 wherein: a gas tank (24) is arranged on a pipeline between the water-gas mixing tank (12) and the reaction tank (16), a third one-way valve (23) is arranged on a pipeline between the water-gas mixing tank (12) and the gas tank (24), a fourth one-way valve (25) is arranged on a pipeline between the gas tank (24) and the reaction tank (16), and a first pressure release valve (26) is arranged on the gas tank (24).
7. An air entrainment system for a beverage maker according to any one of claims 1-6 wherein: the motor (27) and (28) are installed to the bottom of charging bucket (17), and integrated into one piece has stirring leaf (281) of a plurality of on (28) stirring axle, and motor (27) are connected and the driver rotates with (28) stirring axle, and charging bucket (17) are equipped with intercommunicating pore (173) including first material jar (171) and second material jar (172) between first material jar (171) and second material jar (172) bottom, and (28) are established in the bottom of first material jar (171) and second material jar (172) through intercommunicating pore (173).
8. An air entrainment system for a beverage dispenser as defined in claim 7 wherein: the stirring blade (281) on the stirring shaft (28) at the bottom of the first charging bucket (171) is a first stirring blade (2811), the stirring blade (281) on the stirring shaft (28) at the bottom of the second charging bucket (172) is a second stirring blade (2812), the directions of the first stirring blade (2811) and the second stirring blade (2812) are opposite, and the part of the stirring shaft (28) arranged in the communication hole (173) is a polished rod.
9. An air entrainment system for a beverage dispenser according to claim 8 wherein: a supporting seat (29) is arranged on the reaction tank (16), a material injection pipe (30) is arranged on the supporting seat (29), one end of the material injection pipe (30) is communicated with the bottom of the communication hole (173), and the other end of the material injection pipe is communicated with the reaction tank (16); the pressing block (31) is hinged on the supporting seat (29), the pressing block (31) is connected with the connecting rod (311), the end part of the connecting rod (311) is hinged with the sealing block (32), and the sealing block (32) is driven to seal or separate from the material injection pipe (30) through the swinging pressing block (31).
10. An air entrainment system for a beverage dispenser according to claim 9 wherein: the reaction tank (16) comprises an upper tank (162) and a lower tank (163), the upper tank (162) is covered on the lower tank (163) to form a reaction cavity (160), the material filling pipe (30) is communicated with the upper tank (162), the air outlet joint (161) is arranged on the upper tank (162), the bottom of the lower tank (163) is provided with a water inlet joint (164), and the first water pump (11) is connected with the water inlet joint (164).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320357929.4U CN219877953U (en) | 2023-02-20 | 2023-02-20 | Air entraining system of beverage machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320357929.4U CN219877953U (en) | 2023-02-20 | 2023-02-20 | Air entraining system of beverage machine |
Publications (1)
Publication Number | Publication Date |
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CN219877953U true CN219877953U (en) | 2023-10-24 |
Family
ID=88409487
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202320357929.4U Active CN219877953U (en) | 2023-02-20 | 2023-02-20 | Air entraining system of beverage machine |
Country Status (1)
Country | Link |
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CN (1) | CN219877953U (en) |
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2023
- 2023-02-20 CN CN202320357929.4U patent/CN219877953U/en active Active
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