CN211130693U - Full-automatic tea brewing machine - Google Patents
Full-automatic tea brewing machine Download PDFInfo
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- CN211130693U CN211130693U CN201921902284.8U CN201921902284U CN211130693U CN 211130693 U CN211130693 U CN 211130693U CN 201921902284 U CN201921902284 U CN 201921902284U CN 211130693 U CN211130693 U CN 211130693U
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Abstract
The utility model provides a full-automatic tea brewing machine, a cold water container is filled with cold water, and the cold water in the cold water container flows into a heater through a first pipeline; the heater is used for heating cold water to boiling water, and the boiling water in the heater flows into the boiling water container through the second pipeline; the boiling water container is made of heat conducting materials, the bottom of the boiling water container is arranged on the working surface of the refrigerator, the refrigerator is used for refrigerating the boiling water in the boiling water container, and the liquid refrigerated in the boiling water container flows into the teapot through the third pipeline; tea leaves are filled in the teapot, a water outlet is formed in the bottom of the teapot, the opening of the tea cup is opposite to the water outlet of the teapot, and tea water in the teapot flows into the tea cup through the water outlet. The full-automatic tea brewing machine reduces nonstandard operation of hands and saves fussy operation in the tea brewing process.
Description
Technical Field
The utility model relates to the technical field of daily necessities, concretely relates to full-automatic tealeaves brewing machine.
Background
Most of existing tea making machines comprise a cold water container, a teapot, a teacup and a heater, wherein cold water is filled in the cold water container, when tea making is needed, the cold water in the cold water container is pumped into the teapot, the teapot is heated through the heater, after water is boiled, a user pours boiled water in the teapot into the teacup filled with tea, and the tea making time, the water amount and the like are controlled by the user according to the knowledge of the user about the tea.
The existing tea making machine needs a user to control tea making time, tea making temperature and the like, does not have functions of precise temperature control, water quantity control, tea making time control and the like, and the flavor of tea water is not pure enough due to the general tea making steps and the tea making mode.
SUMMERY OF THE UTILITY MODEL
Therefore, the utility model aims at providing a full-automatic tealeaves brewing machine reduces the nonstandard operation of people's hand, saves the loaded down with trivial details operation of the in-process of making tea.
A full-automatic tea brewing machine comprises a cold water container, a heater, a boiling water container, a refrigerator, a teapot and a teacup;
the cold water container is filled with cold water, and the cold water in the cold water container flows into the heater through the first pipeline; the heater is used for heating cold water to boiling water, and the boiling water in the heater flows into the boiling water container through the second pipeline; the boiling water container is made of heat conducting materials, the bottom of the boiling water container is arranged on the working surface of the refrigerator, the refrigerator is used for refrigerating the boiling water in the boiling water container, and the liquid refrigerated in the boiling water container flows into the teapot through the third pipeline; tea leaves are filled in the teapot, a water outlet is formed in the bottom of the teapot, the opening of the tea cup is opposite to the water outlet of the teapot, and tea water in the teapot flows into the tea cup through the water outlet.
Preferably, a first water pump is arranged in the heater, and a water inlet of the first water pump is connected with a first pipeline;
and the second pipeline is also provided with a water flow meter and a first water valve.
Preferably, the refrigerator is a semiconductor refrigerator.
Preferably, a second water valve is further arranged on the third pipeline.
Preferably, an opening is arranged above the teapot; a tea leaf storage is arranged right above the tea pot opening, tea leaves are filled in the tea leaf storage, a tea leaf opening is formed in the bottom of the tea leaf storage, a first valve is arranged at the position of the tea leaf opening of the tea leaf storage, and the tea leaves in the tea leaf storage flow into the tea pot through the tea leaf opening;
a second water pump is arranged in the teapot, and a water inlet of the second water pump is connected to the third pipeline.
Preferably, a second valve is arranged at the water outlet at the bottom of the teapot.
Preferably, the teacup support device further comprises a teacup carrier which is integrally in a disc shape, a plurality of uniformly distributed circular grooves are formed in the teacup carrier in the circumferential direction, and the teacup is placed in the circular grooves.
Preferably, the full-automatic tea brewing machine further comprises a controller and a power supply module;
the controller is connected to the first water pump, the water flow meter, the first water valve, the second water pump and the refrigerator through a control circuit;
the power module is electrically connected with the controller.
Preferably, the control circuit comprises a triode and a field effect transistor;
the collector of the triode is connected with the grid of the field effect transistor through a first resistor, the emitter of the triode is grounded, and the base of the triode is connected to the control end of the controller through a second resistor connected in series; the grid of field effect transistor connects to the high level through establishing ties third resistance and first electric capacity respectively, and the source electrode of field effect transistor connects the high level, and the drain electrode of field effect transistor is connected to the control end of first water pump, first water valve, second water pump and refrigerator.
Preferably, a magnet is arranged in the circular groove of the tea cup carrier, a Hall sensor is further arranged at the water outlet at the bottom of the tea pot, and the output end of the Hall sensor is connected to the controller.
The utility model provides a full-automatic tealeaves brewing machine reduces the nonstandard operation of people's hand, saves the loaded down with trivial details operation of the in-process of making tea.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. In the drawings, elements or portions are not necessarily drawn to scale.
Fig. 1 is a schematic structural view of a full-automatic tea brewing machine provided by the embodiment of the utility model.
Fig. 2 is a peripheral circuit diagram of a controller according to an embodiment of the present invention.
Fig. 3 is a circuit diagram of a power module according to an embodiment of the present invention.
Fig. 4 is a circuit diagram of a control circuit according to an embodiment of the present invention.
Detailed Description
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.
Example (b):
a full-automatic tea brewing machine is shown in figure 1 and comprises a cold water container 1, a heater 2, a boiling water container 5, a refrigerator 6, a teapot 9 and a teacup 10;
the cold water container 1 is filled with cold water, and the cold water in the cold water container 1 flows into the heater 2 through a first pipeline; the heater 2 is used for heating cold water to boiling water, and the boiling water in the heater 2 flows into the boiling water container 5 through the second pipeline; the boiling water container 5 is made of heat conducting materials, the bottom of the boiling water container 5 is arranged on the working surface of the refrigerator 6, the refrigerator 6 is used for refrigerating the boiling water in the boiling water container 5, and the liquid refrigerated in the boiling water container 5 flows into the teapot 9 through a third pipeline; tea leaves are contained in the teapot 9, a water outlet is formed in the bottom of the teapot 9, an opening of the tea cup 10 is opposite to the water outlet of the teapot 9, and tea water in the teapot 9 flows into the tea cup 10 through the water outlet.
In particular, the cold water container bucket can be a common purified water bucket or other water containers meeting food-grade standards. The heater may employ a commercially available rapid water heating module. Each tea is provided with an RFID label, and the temperature of the brewing water of the tea, the brewing water amount of the tea in unit weight, the brewing time of the tea, the tea name and the like are recorded in the RFID label. The heater 2 is used for boiling cold water and then flowing into a boiling water container. The RFID tag may be of the button type and placed in a tea bag. Because the brewing water temperatures of different tea leaves are different, the temperature of the boiling water is reduced to the optimal brewing water temperature of a certain tea leaf by a refrigerator. When the refrigerator cools the boiling water to the optimal tea brewing water temperature, the liquid in the boiling water container flows into the teapot, and when the tea brewing time in the teapot reaches the tea brewing time, the brewed tea water flows into the tea cup through the water outlet.
Like this, this full-automatic tealeaves brewing machine can realize automatic making tea, does not need artifical the participation to make tea, reduces the nonstandard operation of people's hand, saves the loaded down with trivial details operation of making tea in-process, makes ordinary tea drinker through the mellow tea flavor of tasting that also can be convenient.
Preferably, a first water pump is arranged in the heater, and a water inlet of the first water pump is connected with a first pipeline;
and the second pipeline is also provided with a water flow meter 3 and a first water valve 4.
Specifically, the first water pump is used for pumping cold water in the cold water container into the heater. The water flow meter is used for measuring the liquid flow in the heater flowing into the boiling water container, thereby controlling the water quantity of the tea making. When the first water valve is opened, the liquid in the heater flows into the boiling water container, and when the flow of the liquid flowing into the boiling water container in the heater reaches the brewing water amount, the first water valve can be closed. The water flowmeter adopts a model which can resist the temperature of more than 100 ℃.
Preferably, the refrigerator is a semiconductor refrigerator.
In particular, the semiconductor refrigerator is the refrigeration module of reference. The working surface of the refrigerator is a heating surface, and in order to conduct and dissipate the generated heat while refrigerating, the working surface of the semiconductor refrigerator is also required to be provided with a heat conduction pipe and a heat dissipation fan.
Preferably, a second water valve 7 is further arranged on the third pipeline.
In particular, the second water valve 7 is used for hot water in a boiling water reservoir to flow into a teapot, and when the second water valve is closed, hot water in the boiling water reservoir cannot flow into the teapot.
Preferably, an opening is arranged above the teapot 9; a tea leaf storage device 8 is arranged right above the opening of the teapot 9, tea leaves are filled in the tea leaf storage device 8, a tea leaf opening is formed in the bottom of the tea leaf storage device 8, a first valve is arranged at the position of the tea leaf opening of the tea leaf storage device 8, and the tea leaves in the tea leaf storage device 8 flow into the teapot through the tea leaf opening;
a second water pump is arranged in the teapot, and a water inlet of the second water pump is connected to the third pipeline.
In particular, the tea storage may be provided as a funnel-shaped container and the first valve may be an electromagnetic type movable switch. The tea leaf storage 8 contains tea leaves and when the first valve in the tea leaf storage is opened, the tea leaves in the tea leaf storage fall into the teapot. A second pump in the teapot is used to pump the liquid in the boiling water reservoir into the teapot.
Preferably, a second valve is arranged at the water outlet at the bottom of the teapot.
Specifically, when the tea leaves are well brewed, the second valve is opened, and the brewed tea in the teapot can automatically flow into the tea cup.
Preferably, the teacup holder comprises a teacup holder 11 which is integrally in a disc shape, a plurality of uniformly distributed circular grooves are formed in the teacup holder 11 in the circumferential direction, and the teacup is placed in the circular grooves.
Specifically, the teacup carrier can be an annular tray driven by a motor, and a weight sensor can be arranged in the teacup carrier to monitor whether the teacup is in place.
Preferably, the full-automatic tea brewing machine further comprises a controller and a power supply module;
the controller is connected to the first water pump, the water flow meter, the first water valve, the second water pump and the refrigerator through a control circuit;
the power module is electrically connected with the controller.
Specifically, the power module is used for supplying power to the controller and components in the full-automatic tea brewing machine. Fig. 2 is a peripheral circuit diagram of the controller. Fig. 3 is a circuit diagram of a power supply module.
Referring to fig. 4, the control circuit includes a transistor and a field effect transistor;
the collector of the triode Q8 is connected with the grid of the field effect transistor Q2 through a first resistor R12, the emitter of the triode Q8 is grounded, and the base of the triode Q8 is connected to the control end of the controller through a second resistor R25 in series connection; the grid of the field effect transistor Q2 is connected to the high level through the series connection third resistance R2 and the first capacitor C2 respectively, the source electrode of the field effect transistor Q2 is connected to the high level, and the drain electrode of the field effect transistor Q2 is connected to the control ends of the first water pump, the first water valve, the second water pump and the refrigerator.
In fig. 2, FS _ SW is a control end of the controller for controlling the first water pump, RS _ SW is a control end of the controller for controlling the second water pump, FS _ SB is a control end of the controller for controlling the first water pump, CS _ SW is a control end of the controller for controlling the first valve, Z L _ SW is a control end of the controller for controlling the refrigerator, and PC _ SB is a control end of the controller for controlling the second water pump.
Preferably, a magnet is arranged in the circular groove of the tea cup carrier, a Hall sensor is further arranged at the water outlet at the bottom of the tea pot, and the output end of the Hall sensor is connected to the controller.
Specifically, the full-automatic tea brewing machine is used for determining whether the tea cup is positioned under the water outlet at the bottom of the teapot through the Hall sensor.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.
Claims (10)
1. A full-automatic tea brewing machine is characterized by comprising a cold water container, a heater, a boiling water container, a refrigerator, a teapot and a teacup;
the cold water container is filled with cold water, and the cold water in the cold water container flows into the heater through the first pipeline; the heater is used for heating cold water to boiling water, and the boiling water in the heater flows into the boiling water container through the second pipeline; the boiling water container is made of heat conducting materials, the bottom of the boiling water container is arranged on the working surface of the refrigerator, the refrigerator is used for refrigerating the boiling water in the boiling water container, and the liquid refrigerated in the boiling water container flows into the teapot through the third pipeline; tea leaves are filled in the teapot, a water outlet is formed in the bottom of the teapot, the opening of the tea cup is opposite to the water outlet of the teapot, and tea water in the teapot flows into the tea cup through the water outlet.
2. The fully automatic tea brewing machine according to claim 1,
a first water pump is arranged in the heater, and a water inlet of the first water pump is connected with a first pipeline;
and the second pipeline is also provided with a water flow meter and a first water valve.
3. The fully automatic tea brewing machine according to claim 2,
the refrigerator is a semiconductor refrigerator.
4. The fully automatic tea brewing machine according to claim 3,
and a second water valve is also arranged on the third pipeline.
5. The fully automatic tea brewing machine according to claim 4,
an opening is arranged above the teapot; a tea leaf storage is arranged right above the tea pot opening, tea leaves are filled in the tea leaf storage, a tea leaf opening is formed in the bottom of the tea leaf storage, a first valve is arranged at the position of the tea leaf opening of the tea leaf storage, and the tea leaves in the tea leaf storage flow into the tea pot through the tea leaf opening;
a second water pump is arranged in the teapot, and a water inlet of the second water pump is connected to the third pipeline.
6. The fully automatic tea brewing machine according to claim 5,
and a second valve is arranged at the water outlet at the bottom of the teapot.
7. The fully automatic tea brewing machine according to claim 1,
the teacup carrier is characterized by further comprising a teacup carrier which is integrally in a disc shape, a plurality of circular grooves which are uniformly distributed are formed in the teacup carrier in the circumferential direction, and the teacup is placed in the circular grooves.
8. The fully automatic tea brewing machine according to claim 6,
the full-automatic tea brewing machine further comprises a controller and a power supply module;
the controller is connected to the first water pump, the water flow meter, the first water valve, the second water pump and the refrigerator through a control circuit;
the power module is electrically connected with the controller.
9. The fully automatic tea brewing machine according to claim 8,
the control circuit comprises a triode and a field effect transistor;
the collector of the triode is connected with the grid of the field effect transistor through a first resistor, the emitter of the triode is grounded, and the base of the triode is connected to the control end of the controller through a second resistor connected in series; the grid of field effect transistor connects to the high level through establishing ties third resistance and first electric capacity respectively, and the source electrode of field effect transistor connects the high level, and the drain electrode of field effect transistor is connected to the control end of first water pump, first water valve, second water pump and refrigerator.
10. The fully automatic tea brewing machine according to claim 8,
and a magnet is arranged in the circular groove of the teacup carrier, a Hall sensor is further arranged at the water outlet at the bottom of the teapot, and the output end of the Hall sensor is connected to the controller.
Priority Applications (1)
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CN201921902284.8U CN211130693U (en) | 2019-11-06 | 2019-11-06 | Full-automatic tea brewing machine |
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CN201921902284.8U CN211130693U (en) | 2019-11-06 | 2019-11-06 | Full-automatic tea brewing machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112056926A (en) * | 2020-08-06 | 2020-12-11 | 吴雪红 | Automatic water adding method of full-automatic water adding kungfu tea machine and tea machine |
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2019
- 2019-11-06 CN CN201921902284.8U patent/CN211130693U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112056926A (en) * | 2020-08-06 | 2020-12-11 | 吴雪红 | Automatic water adding method of full-automatic water adding kungfu tea machine and tea machine |
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