CN211049126U

CN211049126U - Waterway device for extracting beverage capsules and beverage vending machine with same

Info

Publication number: CN211049126U
Application number: CN201921638899.4U
Authority: CN
Inventors: 屠强; 彭峻
Original assignee: Shenzhen Colibri Technologies Co ltd
Current assignee: Shenzhen Colibri Technologies Co ltd
Priority date: 2019-09-27
Filing date: 2019-09-27
Publication date: 2020-07-21
Anticipated expiration: 2029-09-27

Abstract

The application provides a water route device of extraction drink capsule and have device's drink vending machine, the device adopts the water-electricity disconnect-type structure, the water route device of extraction drink capsule of this application includes the dustcoat, there is the water tank at the externally mounted of dustcoat, the inside of dustcoat is from last to installing automatically controlled box down in proper order, baffle and bottom plate, the baffle is installed perpendicularly on the bottom plate, the regional extraction water route that forms of baffle one side, the regional formation of opposite side dashes the bubble water route, the electromagnetism valves with the extraction water route and dash bubble water path connection are installed on the upper portion of baffle, the extraction water route, dash bubble water route and electromagnetism valves and all control through automatically controlled box. Not only can be selected singly, but also can be mixed with various tastes to produce the drink, thereby meeting the consumption habits of more consumers, being capable of adapting to the change of seasons and freely selecting cold and hot drinks; has the advantages of small floor area, low rent, wide audience and crowd, large transaction chance, capability of solving the fresh-keeping problem and reducing the labor cost.

Description

Waterway device for extracting beverage capsules and beverage vending machine with same

Technical Field

The utility model relates to a technical field of equipment is sold to the beverage, especially relates to a water route device of extraction drink capsule and have device's drink vending machine.

Background

Existing beverage vending machines, such as coffee vending machines, dispense brewed coffee by manually controlled addition of brewing powder.

However, the coffee vending machine adopts a brewing technology of brewing powder, so that the problem of waste caused by difficulty in refreshing the brewing powder exists, the taste is single, the requirement of consumers on diversified beverages cannot be met, and more manpower and material resources are needed to realize maintenance and management.

Therefore, there is a need for a water circuit device for extracting beverage capsules and a beverage vending machine having the same to overcome the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide the waterway device for extracting the beverage capsules, the produced taste of the waterway device for extracting the beverage capsules can be selected singly or mixed with various tastes, the consumption habits of more consumers can be met, the waterway device can adapt to the change of seasons, and cold and hot beverages can be selected freely; the method also has the advantages of small floor area, low rent, wide audience and crowd, large trading opportunity, capability of solving the fresh-keeping problem and capability of reducing the labor cost.

Another objective of the embodiments of the present application is to provide a beverage vending machine, which can produce a beverage with different tastes, so as to meet the consumption habits of more consumers, adapt to the seasonal variation, and freely select hot and cold beverages; the method also has the advantages of small floor area, low rent, wide audience and crowd, large trading opportunity, capability of solving the fresh-keeping problem and capability of reducing the labor cost.

In order to achieve the above object, a first aspect of the embodiments of the present application provides a water path device for extracting a beverage capsule, wherein the water path device for extracting the beverage capsule adopts an electro-hydraulic separation structure, and the water path device for extracting the beverage capsule includes: the water tank is mounted outside the outer cover, the electric control box, the partition plate and the bottom plate are sequentially mounted inside the outer cover from top to bottom, the partition plate is vertically mounted on the bottom plate, an extraction water path is formed in the area of one side of the partition plate, a brewing water path is formed in the area of the other side of the partition plate, the electromagnetic valve group connected with the extraction water path and the brewing water path is mounted on the upper portion of the partition plate, and the extraction water path, the brewing water path and the electromagnetic valve group are controlled by the electric control box.

Optionally, the extraction water circuit comprises: the system comprises a first flowmeter, an electromagnetic pump, an instant heating type boiler, a first three-way valve, a third electromagnetic valve of an electromagnetic valve group, a second three-way valve, a first blowing pump and an extraction head which are sequentially communicated;

the liquid inlet end of the first flow meter is connected into the water tank, and the liquid outlet end of the first flow meter is connected into the electromagnetic pump;

a first port and a third port of the first three-way valve are connected to the extraction waterway, and a second port of the first three-way valve is connected to the brewing waterway;

and a third port of the second three-way valve is connected with a first valve port of the third electromagnetic valve, a second port of the second three-way valve is connected to the extraction head, and a first port of the second three-way valve is connected to the first blowing pump.

Optionally, the brewing waterway comprises: the second flowmeter, the gear pump, the heat storage type boiler, the third three-way valve and the fourth three-way valve are sequentially communicated;

a first port of the third three-way valve is communicated with a water outlet of the heat storage boiler, a second port of the third three-way valve is connected with a first electromagnetic valve of the electromagnetic valve group, a third port of the third three-way valve is connected with a fifth electromagnetic valve of the electromagnetic valve group, the fifth electromagnetic valve is connected with a second port of the first three-way valve, the first electromagnetic valve is connected with a first valve port of a fourth electromagnetic valve of the electromagnetic valve group, a third valve port of the fourth electromagnetic valve is connected with a hot water outlet, a second valve port of the fourth electromagnetic valve is communicated with a third port of the fourth three-way valve, a second port of the fourth three-way valve is connected with a brewing head, a second air blowing pump is installed at the first port of the fourth three-way valve, the liquid inlet end of the second flowmeter is connected to the water tank, and the liquid outlet end of the second flowmeter is connected to the gear pump.

Optionally, the waterway device for extracting the beverage capsule further comprises: and the water inlet end of the third flow meter is connected to the water tank, the water outlet end of the third flow meter is sequentially communicated with the first diaphragm pump, the pressure regulating valve and the water inlet of the water chiller, and the water outlet of the water chiller forms a cold water outlet.

Optionally, a water level sensor is installed in the water tank, a second diaphragm pump is installed between the water tank and a water source, and the water level sensor and the second diaphragm pump are both connected to the electronic control box.

Optionally, electromagnetic pump, first pump and the second pump fixed mounting of blowing in on the baffle, first flowmeter and second flowmeter install in on the bottom plate, the bottom of gear pump, heat accumulation formula boiler and instant heating type boiler is installed on the bottom plate, the lateral wall of gear pump, heat accumulation formula boiler and instant heating type boiler with the baffle contact, gear pump, heat accumulation formula boiler and instant heating type boiler pass through the clamp and fix on the baffle.

Optionally, the number of the second diaphragm pumps is two, a water inlet of each second diaphragm pump is communicated with a water source, and water outlets of the two second diaphragm pumps are connected to the water tank.

A second aspect of embodiments of the present application provides a beverage vending machine, wherein the beverage vending machine comprises the water circuit device for extracting beverage capsules of any one of the preceding claims.

Because the water route device of the extraction drink capsule of this application adopts the water and electricity disconnect-type structure, the water route device of extraction drink capsule includes: the water tank is installed on the outer portion of the outer cover, the electric control box, the partition plate and the bottom plate are sequentially installed in the outer cover from top to bottom, the partition plate is vertically installed on the bottom plate, the extraction water path is formed in the area of one side of the partition plate, the brewing water path is formed in the area of the other side of the partition plate, the electromagnetic valve group connected with the extraction water path and the brewing water path is installed on the upper portion of the partition plate, and the extraction water path, the brewing water path and the electromagnetic valve group. Therefore, the output taste of the waterway device for extracting the beverage capsules can be selected by a single product or mixed by multiple tastes, the consumption habits of more consumers are met, the waterway device can adapt to the change of seasons, and cold and hot beverages can be selected freely; the method also has the advantages of small floor area, low rent, wide audience and crowd, large trading opportunity, capability of solving the fresh-keeping problem and capability of reducing the labor cost. Because the drink vending machine of this application has the foretell water route device of extraction drink capsule of this application, the drink vending machine of this application also has foretell beneficial effect.

Drawings

Fig. 1 is a perspective view of an embodiment of a waterway device for extracting a beverage capsule in the embodiment of the present application.

Fig. 2 is a perspective view of the waterway device for extracting beverage capsules according to the embodiment of the present application, after the outer cover, the electric control box and the water tank are removed.

Fig. 3 is a schematic view of fig. 2 from another viewing angle.

Fig. 4 is a schematic view showing the connection relationship of the components of the water path device for extracting the beverage capsule according to the embodiment of the present application.

Detailed Description

The present application will be further described with reference to the accompanying drawings and preferred embodiments, but the embodiments of the present application are not limited thereto.

Referring to fig. 1 to 4, the waterway device of the present application for extracting a beverage capsule adopts an electro-hydraulic separation structure, and when the beverage capsule is extracted or brewed, the waterway device of the present application generates pressure (usually within 15 bar), and the waterway pipeline and related components bear corresponding pressure, and the waterway device of the present application for extracting a beverage capsule includes: the automatic coffee making machine comprises an outer cover 1, a water tank 12 is mounted outside the outer cover 1, an electric control box 2, a partition plate 13 and a bottom plate 14 are sequentially mounted inside the outer cover 1 from top to bottom, the partition plate 13 is vertically mounted on the bottom plate 14, an extraction water path is formed in the area of one side of the partition plate 13, and a brewing water path is formed in the area of the other side of the partition plate 13 and used for shortening the beverage outlet time of the automatic beverage selling machine, for example, the water temperature required by brewing dairy products is 75 +/-5 ℃, and the water temperature required by extracting coffee is 95 +/-3 ℃. If the dairy products need to be made immediately after the coffee is delivered, the boiler needs longer cooling time (natural cooling), so that the delivery time is greatly influenced on the automatic vending machine, and the waiting time of customers is prolonged. The upper portion of baffle 13 is installed and is drawed the water route and dash the solenoid valve group of water route connection, and extraction water route, dash and steep water route and solenoid valve group all control through automatically controlled box 2. Specifically, the following:

wherein, the extraction water route includes: the system comprises a first flowmeter 6, an electromagnetic pump 7, an instant heating type boiler 8, a first three-way valve 17, a third electromagnetic valve F3 of an electromagnetic valve group, a second three-way valve 18, a first blowing pump 11 and an extraction head 25 which are sequentially communicated; the total power of the water channel module can rise after the double-water-channel design is adopted, the power of the instant heating type boiler is 1400W, the power of the heat storage type boiler is 2700W, and the power of the electromagnetic pump is 46W.

The double boilers adopt asynchronous working design:

1. heat storage formula boiler: the water temperature is heated to 75 +/-5 ℃ by pre-working, and the heat storage boiler does not work when water is actually pumped;

2. instant heating type boiler: the instant heating principle needs lower discharge, and during actual pumping, lower water velocity is through instant heating type boiler back, heats the temperature to 90 +/-3 ℃ at once. The asynchronous work of the double boilers can stagger the working states of the boilers.

The liquid inlet end of the first flowmeter 6 is connected with the water tank 12, the liquid outlet end of the first flowmeter 6 is connected with the electromagnetic pump 7, the first port and the third port of the first three-way valve 17 are connected with the extraction waterway, the second port of the first three-way valve 17 is connected with the brewing waterway, the first three-way valve 17 is used for combining the brewing waterway and the extraction waterway into one passage, and finally, the brewing action and the extraction action can be carried out on the extraction head 25; the third port of the second three-way valve 18 is connected to the first port of the third solenoid valve F3 (the second port of the third solenoid valve F3 is connected to the third port of the first three-way valve 17, and the third port of the third solenoid valve F3 is used for pressure relief), the second port of the second three-way valve 18 is connected to the extraction head 25, and the first port of the second three-way valve 18 is connected to the first blower pump 11.

Furthermore, the brewing waterway comprises: a second flow meter 5, a gear pump 10, a heat storage type boiler 9 (a safety valve 30 is arranged on the heat storage type boiler 9) and a third three-way valve 19 which are communicated in sequence; a first port of a third three-way valve 19 is communicated with a water outlet of the heat storage boiler 9, a second port of the third three-way valve 19 is connected with a first port of a first electromagnetic valve F1 of the electromagnetic valve group, a second port of the first electromagnetic valve F1 is connected with a first port of a fourth electromagnetic valve F4, a third port of the first electromagnetic valve F1 is in a normally closed state, a third port of the third three-way valve 19 is connected with a first port of a fifth electromagnetic valve F5 of the electromagnetic valve group, a second port of the fifth electromagnetic valve F5 is connected with a second port of a first three-way valve 17 (the third port of the fifth electromagnetic valve F5 is in a normally closed state), a second port of the first electromagnetic valve F1 is connected with a first port of a fourth electromagnetic valve F4 of the electromagnetic valve group, a third port of the fourth electromagnetic valve F4 is connected with a hot water outlet 27, a second port of the fourth electromagnetic valve F4 is communicated with a third port of the fourth three-way valve 20, and a second port of the fourth three-, a second blower pump 29 is installed at a first port of the fourth three-way valve 20, an inlet end of the second flowmeter 5 is connected to the water tank 12, and an outlet end of the second flowmeter 5 is connected to the gear pump 10.

Simultaneously, the water route device of extraction drink capsule of this application still includes: the water inlet end of the third flow meter 16 is connected with the water tank 12, the water outlet end of the third flow meter 16 is sequentially communicated with the first diaphragm pump 22, the pressure regulating valve 21 and the water inlet of the water cooler 15, and the water outlet of the water cooler 15 forms a cold water outlet 28.

Furthermore, a water level sensor is installed in the water tank 12, a second diaphragm pump 23 is installed between the water tank 12 and a water source 24 (a barrel body or a vessel filled with purified water, etc.), and the water level sensor and the second diaphragm pump 23 are connected to the electronic control box 2.

Furthermore, the electromagnetic pump 7, the first blowing pump 11 and the second blowing pump 29 are fixedly installed on the partition plate 13, the first flow meter 6 and the second flow meter 5 are installed on the bottom plate 14, the bottoms of the gear pump 10, the heat storage type boiler 9 and the instantaneous heating type boiler 8 are installed on the bottom plate 14, the side walls of the gear pump 10, the heat storage type boiler 9 and the instantaneous heating type boiler 8 are in contact with the partition plate 13, and the gear pump 10, the heat storage type boiler 9 and the instantaneous heating type boiler 8 are fixed on the partition plate 13 through clamps.

Furthermore, the number of the second diaphragm pumps 23 is two, the water inlet of each second diaphragm pump 23 is communicated with a water source, and the water outlets of the two second diaphragm pumps 23 are connected to the water tank 12.

The utility model provides a water route device of extraction drink capsule mainly realizes following seven kinds of mode of production through the parallel water route principle in two water routes:

1) and (3) extraction: after the power is switched on, the electromagnetic pump 7 starts to pump water, the first flowmeter 6 (with the aperture of 0.2-1.5 mm) converts the water flow rate into a pulse signal to realize cup amount control, the instant heating type boiler 8 starts to heat, the flow direction of water is controlled through the third electromagnetic valve F3, the cup amount of the product is 100 +/-5% ml within 30s, and the temperature of the product is 90 +/-2 ℃. For example, when the beverage is prepared by extraction, the third electromagnetic valve F3 starts water flow firstly, and the electromagnetic pump 7 is started after 0.5s delay; when the beverage reaches the cup amount, the electromagnetic pump 7 is firstly closed, the third electromagnetic valve F3 is closed after delaying for 0.5s, and the extraction generated gas is discharged from the third valve port of the third electromagnetic valve F3.

2) Brewing with the extraction head 25: after the power is switched on, the gear pump 10 starts to pump water, the second flow meter 5 (with the aperture of 0.2-3 mm) controls the cup amount by converting the water flow rate into a pulse signal, the heat storage type boiler 9 starts to heat, the flow direction of water is controlled through the third electromagnetic valve F3, the cup amount of a product is 180 +/-5% ml within 30s, the temperature of the product is 75 +/-5 ℃, and the water flows out of the extraction head 25. During brewing, the fifth electromagnetic valve F5 and the third electromagnetic valve F3 are started firstly, and the gear pump 10 is started after being delayed for 0.5 s; when the cup flowing amount is controlled to reach 180 +/-5%, the gear pump 10 is closed firstly, the fifth electromagnetic valve F5 is closed after delaying for 0.5s, when the beverage reaches the cup amount, the third electromagnetic valve F3 is continuously electrified, at the moment, the first air blowing pump starts to be electrified, and when the first air blowing pump finishes working, the first air blowing pump is powered off together.

3) Brewing with a brewing head: after the power is switched on, the gear pump 10 starts to pump water, the second flow meter 5 (with the aperture of 0.2-3 mm) realizes the control of the cup amount by converting the water flow rate into a pulse signal, the heat storage type boiler 9 starts to heat, the flow direction of the water is controlled through the first electromagnetic valve F1, the fourth electromagnetic valve F4 and the fifth electromagnetic valve F5, the cup amount of the product is 180 +/-5% ml within 30s, the temperature of the product is 75 +/-5 ℃, and the water flows out of the brewing head. When brewing, the first electromagnetic valve F1 and the fourth electromagnetic valve F4 are started firstly, and the gear pump 10 is started after 0.5s delay; when the amount of the cup flowing out is controlled to be 180 +/-5%, the gear pump 10 is firstly closed, the first electromagnetic valve F1 is closed after delaying for 0.5s, the fourth electromagnetic valve F4 is continuously electrified, the second air blowing pump is electrified at the moment, and the second air blowing pump is powered off when working is finished.

4) Hot water: after the power is switched on, the gear pump 10 starts to pump water, the second flowmeter 5 (with the aperture of 0.2-3 mm) realizes the control of cup amount by converting the water flow rate into a pulse signal, the heat storage type boiler 9 starts to heat, the flow direction of water is controlled by the first electromagnetic valve F1 and the fourth electromagnetic valve F4, the cup amount of a product is 160 +/-7% ml within 30s, and the temperature of the product is 65 +/-5 ℃. When hot water is discharged, the fourth electromagnetic valve F4 is disconnected in the whole process, the first electromagnetic valve F1 is started firstly, and the gear pump 10 is started after being delayed for 0.5 s; when the amount of the outflow cup reaches 160 +/-5%, the gear pump 10 is closed firstly, and the first electromagnetic valve F1 is closed after 0.5 s.

5) Cold water: after the power is switched on, the diaphragm pump starts to pump water, the second flow meter 5 (with the aperture of 0.2-3 mm) controls the cup amount by converting the water flow rate into a pulse signal, the water cooler 15 starts to refrigerate, the cup amount is 160 +/-7% ml within 30s, and the product temperature is less than 10 ℃.

6) Extraction and hot water: the extraction water path and the hot water path work simultaneously.

7) Extraction + cold water: the extraction water path and the cold water path work simultaneously.

8) Extraction and brewing: the extraction water path and the brewing water path work simultaneously.

Optionally, in this embodiment, the waterway device of the extraction beverage capsule of this application is used to set up in beverage vending machine, realizes accomplishing the automatic operating procedure that supplies water for the extraction beverage capsule as required in beverage vending machine of this application. In detail, the beverage vending machine of the present application may be selected as a coffee vending machine, and the beverage capsule corresponds to a coffee capsule, but not limited thereto.

Therefore, the output taste of the waterway device for extracting the beverage capsules can be selected by a single product or mixed by multiple tastes, the consumption habits of more consumers are met, the waterway device can adapt to the change of seasons, and cold and hot beverages can be selected freely; the method also has the advantages of small floor area, low rent, wide audience and crowd, large trading opportunity, capability of solving the fresh-keeping problem and capability of reducing the labor cost. Because the drink vending machine of this application has the foretell water route device of extraction drink capsule of this application, the drink vending machine of this application also has foretell beneficial effect.

The present application has been described in connection with the embodiments, but the present application is not limited to the embodiments disclosed above, and various modifications and equivalent combinations that are made according to the essence of the present application should be covered.

Claims

1. The utility model provides an extract waterway device of drink capsule which characterized in that, extract waterway device of drink capsule adopts the water and electricity disconnect-type structure, extract waterway device of drink capsule includes: the water tank is mounted outside the outer cover, the electric control box, the partition plate and the bottom plate are sequentially mounted inside the outer cover from top to bottom, the partition plate is vertically mounted on the bottom plate, an extraction water path is formed in the area of one side of the partition plate, a brewing water path is formed in the area of the other side of the partition plate, the electromagnetic valve group connected with the extraction water path and the brewing water path is mounted on the upper portion of the partition plate, and the extraction water path, the brewing water path and the electromagnetic valve group are controlled by the electric control box.

2. The waterway device of an extraction beverage capsule of claim 1, wherein the extraction waterway comprises: the system comprises a first flowmeter, an electromagnetic pump, an instant heating type boiler, a first three-way valve, a third electromagnetic valve of an electromagnetic valve group, a second three-way valve, a first blowing pump and an extraction head which are sequentially communicated;

3. The waterway device of an extracted beverage capsule of claim 2, wherein the brewing waterway comprises: the second flowmeter, the gear pump, the heat storage type boiler, the third three-way valve and the fourth three-way valve are sequentially communicated;

4. The waterway device of an extracted beverage capsule of claim 2, further comprising: and the water inlet end of the third flow meter is connected to the water tank, the water outlet end of the third flow meter is sequentially communicated with the first diaphragm pump, the pressure regulating valve and the water inlet of the water chiller, and the water outlet of the water chiller forms a cold water outlet.

5. The waterway device of an extracted beverage capsule of claim 4, wherein a water level sensor is installed in the water tank, a second diaphragm pump is installed between the water tank and a water source, and both the water level sensor and the second diaphragm pump are connected to the electronic control box.

6. The waterway device for extracting capsules of beverages of claim 3, wherein the electromagnetic pump, the first blowing pump and the second blowing pump are fixedly installed on the partition plate, the first flow meter and the second flow meter are installed on the bottom plate, the bottoms of the gear pump, the heat storage boiler and the instantaneous boiler are installed on the bottom plate, the side walls of the gear pump, the heat storage boiler and the instantaneous boiler are in contact with the partition plate, and the gear pump, the heat storage boiler and the instantaneous boiler are fixed on the partition plate through a hoop.

7. The waterway device of an extracted beverage capsule of claim 5, wherein the number of the second diaphragm pumps is two, a water inlet of each of the second diaphragm pumps is communicated with a water source, and water outlets of the two second diaphragm pumps are connected to the water tank.

8. A beverage vending machine, characterized in that it comprises a water circuit device for extracting beverage capsules according to any one of claims 1 to 7.