CN217137156U - Tea artist imitation brewing device - Google Patents

Abstract

The utility model discloses an imitative tea ceremony teacher dashes bubble device, including the base, this base top is equipped with a heating container, has liquid level detecting unit on the heating container, and this base is emptyd the mechanism through one and is soaked the container and be connected, should dash and steep the container and be linked together through a water injection unit and heating container, and this base embeds there is the control unit, and this the control unit respectively with heating container, liquid level detecting unit, empty the mechanism, water injection unit electric connection, be equipped with storage module among this the control unit, the utility model discloses simulate tea ceremony's dashing and steep the gimmick, give the more comfortable experience of drinking of drinker, guaranteed the sanitary safety of drinking of water, can bring out the quality of tea better, improve the quality of tea soup, guaranteed not destroyed to the profitable composition of people in the tealeaves, guaranteed the drinking effect of tea soup.

Description

Tea artist imitation brewing device

Technical Field

The utility model relates to the technical field of brewing devices, in particular to a tea artist-imitating brewing device.

Background

Tea drinking culture is long-flowing in the traditional Chinese culture, and along with the development of society, people pay more attention to health preservation, and tea drinking is favored by the public. However, tea drinking is easy, tea brewing is a big problem, tea with the same quality, such as water temperature, water injection amount, soaking time and the like, are not controlled properly, and the quality of brewed tea soup is far from each other.

In order to break through the tradition and enable the public to brew tea more conveniently, people make the design of some automatic tea brewing machines, and although the automatic tea brewing can be realized, the tea brewing machines cannot accurately control the tea feeding amount, the water injection amount, the tea brewing time and the tea brewing water temperature, so that brewed tea soup has poor quality, soluble substances in tea cannot be effectively released, even components beneficial to human bodies in the tea are directly damaged, and the drinking effect of the tea soup is influenced; and in the actual tea making, the water injection amount for making tea every time is different, and if the existing automatic tea making machine is adopted, the water injection amount for making tea every time cannot be accurate, so that excessive water injection is caused, and water overflow is easily caused to make tea, and water resource waste is caused.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a tea artist-imitating brewing device, which ensures that the water for each brewing is more scientific and reasonable, avoids water resource waste, can effectively completely release the soluble substances in tea leaves, simulates the brewing technique of a tea artist, realizes the effect of automatically delivering tea and provides more comfortable drinking experience for drinkers; the drinking sanitation and safety of water are ensured, the brewing device is like a tea artist, the quality of tea can be better exerted, the quality of tea soup is improved, components beneficial to people in tea are prevented from being damaged, and the drinking effect of the tea soup is ensured.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a tea artist brewing device comprises a base, a heating container is arranged above the base, a liquid level detection unit is arranged on the heating container and used for detecting the liquid level in the heating container and the liquid output quantity, the base is connected with a brewing container through a pouring mechanism, the pouring mechanism is used for fixing the brewing container and simulating hands to pour out the liquid in the brewing container, the brewing container is communicated with the heating container through a water injection unit which is used for conveying the heated liquid into the brewing container, a control unit is arranged in the base and electrically connected with the heating container, the liquid level detection unit, the pouring mechanism and the water injection unit respectively and is used for regulating and controlling the water temperature, the water injection quantity and the soaking time according to set brewing parameters, a storage module is arranged in the control unit and used for storing default and/or self-defined brewing parameters called by the control unit, Data of knowledge and characteristics corresponding to the raw material varieties.

The base is also provided with a display part which is used for displaying brewing setting data and the current brewing condition and/or inputting setting parameters, the display part is connected with the control unit, the control unit is provided with a cover closing switch and a forced switch, the cover closing switch is used for controlling the pouring mechanism to close the brewing container, the forced switch is used for starting and closing the device and forcibly shutting down the device when the system fails, and the control unit is also provided with a voice prompt part and a microphone.

The bottom of the heating container is provided with a heating part for heating the liquid in the heating container, and the bottom surface of the heating container is also provided with a temperature sensing part for detecting the temperature condition of the liquid.

The heating container is also provided with a water supply part, the water supply part is used for conveying an external water source into the heating container, and the water supply part is independent of the control unit or is electrically connected with the control unit.

The bottom of the heating container is also provided with a drainage unit which is used for draining residual cold boiled water or sewage after cleaning the heating container, and the drainage unit comprises a drainage port, an output control valve connected with the drainage port and a drainage pipe connected with the output control valve.

The liquid level detection unit is a liquid level sensor, a liquid flowmeter, a metering electromagnetic valve or a detection unit consisting of a liquid level switch and a distance measurement induction part arranged on one side of the upper end of the liquid level switch, and the distance between the lower end surface of the liquid level switch and the inner bottom surface of the heating container is more than about 10 mm.

The pouring mechanism comprises a rotary driving part, a first supporting rod connected with the rotary driving part, a connecting part arranged at one end of the first supporting rod, an uncovering driving part arranged on the first supporting rod and a second supporting rod connected with the uncovering driving part, the connecting part is connected with the brewing container, the rotary driving part is used for driving the first supporting rod to pour the brewing container to one side, the uncovering driving part is used for driving the second supporting rod to open the brewing container, and the rotary driving part and the uncovering driving part are respectively electrically connected with the control unit.

The brewing container consists of a container body, a cover arranged on the container body and a buffering dispersion unit arranged at the top of the cover, wherein the buffering dispersion unit is communicated with the water injection unit and is used for enabling liquid injected by the water injection unit to drip from the middle and/or flow into the container body from the periphery, a filter screen is annularly arranged at the lower end of the cover body, one end of the second support rod is fixed at the upper end of the buffering dispersion unit, and the buffering dispersion unit penetrates through the top surface of the cover.

The buffer dispersion unit is composed of a pipe connecting part, a hollow pipe connected with the pipe connecting part and a baffle connected with the hollow pipe, at least one through hole is formed in the joint of the hollow pipe and the baffle and used for discharging liquid entering the hollow pipe, at least one liquid dropping hole is formed in the baffle, and one end of the second support rod is fixedly connected to the pipe connecting part.

The buffering dispersion unit comprises a pipe connecting part, a hollow pipe connected with the pipe connecting part, a spacer arranged in the hollow pipe and a baffle connected with the spacer, the pipe connecting part is connected with the water injection unit, at least one liquid outlet hole is formed in the spacer, at least one liquid drop hole is formed in the baffle, and one end of the second support rod is fixedly connected to the pipe connecting part.

The water injection unit consists of a water outlet pipe and a water injection pipe connected with the water outlet pipe through a water outlet control valve, and the water injection pipe is connected with the connecting pipe of the buffering dispersion unit.

One end of the second support rod is provided with a fixing part which is integrated with the second support rod, or one end of the second support rod is connected with a fixing part through an adjusting part which is used for adjusting the distance between the second support rod and the fixing part, and the fixing part is connected with the connecting pipe part of the buffering dispersion unit.

The brewing container is characterized in that a flow guide mechanism is further arranged below the brewing container and used for guiding liquid to be drunk or cleaned in the brewing container, the flow guide mechanism comprises a main support rod arranged on the base, a liquid guide plate arranged above the main support rod and a turnover driving part arranged below the liquid guide plate, the turnover driving part is used for enabling one end of the liquid guide plate to incline outwards, the turnover driving part is electrically connected with the control unit, at least one drinking flow guide end is arranged on one side of the liquid guide plate, a cleaning flow guide port is arranged at the other end of the liquid guide plate and used for guiding liquid of primary brewing raw materials, waste water for cleaning each container or residual tea water in the brewing container after tea brewing to be discharged.

One side of the upper end of the base is also provided with a weighing unit, the weighing unit is used for weighing tea leaves or other brewing raw materials and feeding back weighing data, the weighing unit consists of a weighing support and an electronic scale arranged on the weighing support, and the electronic scale is electrically connected with the control unit.

The base is provided with at least one proximity sensing part on one side facing the brewing container, the proximity sensing part is used for judging whether an object enters the lower part of the brewing container or not, and/or the base is also provided with a brewing switch which is used for controlling the brewing device to perform the brewing action.

One side of the base is also provided with a waste water collecting part which is used for collecting waste water discharged by the brewing device.

The control unit is also in wireless connection with a cloud server, the cloud server is used for storing default and/or user-defined brewing modes for the brewing device to call, the control unit is also in wireless connection with the mobile device, and the mobile device is used for calling and modifying the brewing modes.

The utility model has the advantages as follows:

the heating container is matched with the liquid level detection unit to effectively monitor the liquid level change of the heating container, and is matched with the water injection unit to inject water into the brewing container quantitatively, and the water consumption for each brewing is effectively standardized according to the brewing times, so that the water consumption for each brewing is more scientific and reasonable, and the water resource waste is avoided; the buffering dispersion unit on the brewing container is arranged, part of hot water injected from the hollow pipe flows into the container body from a liquid dropping hole or the edge of the baffle plate, and part of the hot water is blocked by the baffle plate and flows back into the container body along the inner wall of the cover and the inner wall of the container body after being sprayed in the brewing container, so that tea leaves or other brewing raw materials are uniformly drenched, the raw materials are completely moistened, and particularly for the tea leaves, soluble substances in the tea leaves can be effectively and completely released; the filter screen arranged on the cover of the brewing container can effectively separate the tea leaves/tea residues from the tea soup, so that the tea leaves/tea residues are prevented from directly flowing out of the brewing container along with the tea soup, and more comfortable drinking experience is provided for a drinker; the pouring mechanism is used for pouring the brewed container towards the side where the justice cup, the teacup or other container is placed, so that the tea soup in the brewed container is poured into the justice cup, the teacup or other container, and the effect of simulating the brewing method of a tea artist is achieved; in addition, a flow guide mechanism can be arranged below the brewing container, and the tea soup in the brewing container is guided to the justice cup, the teacup or other container through the matching of the turnover driving part and the liquid guide plate, so that the situation that the tea soup is spilled to the positions outside the justice cup, the teacup or other container when the tea soup is poured is effectively avoided, the pouring accuracy of the tea soup is improved, the brewing effect is ensured, and the waste is avoided.

Secondly, the brewing device is matched with a control method, after the device is detected, the water discharging operation is carried out, and the water used for overnight water or cleaning the heating container can be discharged, so that the cleanness and the sanitation of the water used in the brewing process are ensured, and the drinking sanitation and the safety of the water are ensured; by calling various default tea brewing modes in a storage unit of the brewing device or in the cloud server, brewing parameters are provided for the brewing device to automatically execute brewing operation; meanwhile, the brewing parameters can be customized according to personal preferences of a user, and the customized brewing parameters are stored in the storage unit and are synchronized in the cloud server for subsequent brewing calling, so that the complicated operation of modifying the brewing parameters for many times is omitted; moreover, through the calling/setting of the brewing parameters, the brewing device can more accurately carry out scientific brewing on different tea leaves, different water qualities and the like, so that the brewing device is like a tea artist and can better exert the quality of the tea, thereby improving the quality of tea soup; the heating container heats water according to the set brewing parameters, so that the water for brewing is more suitable for the tea of the corresponding variety, and the brewing effect of the tea is ensured; the water injection unit is matched with the liquid level detection of the liquid level detection unit according to the brewing parameters, so that the accuracy of the water injection amount of the water injection unit to the brewing container can be ensured, the influence on the taste of the brewed tea soup caused by too much or too little water injection is effectively avoided, and the drinking quality of the tea soup is further ensured; the pouring mechanism timely pours out the tea soup formed in the brewing container after the tea leaves are soaked for a proper time according to the brewing parameters, so that the taste of the tea soup is effectively ensured, the brewing device is just like a tea artist who understands the tea, the proper tea soup is brewed, the beneficial ingredients of the tea leaves to people are prevented from being damaged, and the drinking effect of the tea soup is ensured.

Drawings

Fig. 1 is one of the schematic perspective views of the present invention.

Fig. 2 is a second schematic perspective view of the present invention.

Fig. 3 is a third schematic perspective view of the present invention.

Fig. 4 is a schematic structural view of the pouring mechanism and the body for making tea of the present invention.

Fig. 5 is a schematic perspective view of one embodiment of the buffering dispersion unit of the present invention.

Fig. 6 is a schematic perspective view of another embodiment of the buffering dispersion unit according to the present invention.

Fig. 7 is a schematic view of a top view structure of the tea table of the present invention.

The reference numbers illustrate:

1-a base; 11-a display section; 12-closing the cover switch; 13-a forced switch; 2-heating the container; 21-a heating part; 22-a temperature sensing part; 23-a water supply section; 3-a liquid level detection unit; 31-a liquid level switch; 32-a ranging sensing part; 4-a dumping mechanism; 41-a rotation drive section; 42-a first support bar; 43-a connecting part; 44-cover opening driving part; 45-a second support bar; 46-a fixed part; 47-an adjustment section; 5-a brewing container; 51-a container body; 52-a lid; 521-a filter screen; 53-buffer dispersing unit; 531-piping; 532-hollow pipe; 532 a-via; 533-a spacer; 533 a-liquid outlet hole; 534-baffle plate; 534 a-drip hole; 6, a water injection unit; 61-water outlet pipe; 62-water outlet control valve; 63-a water injection pipe; 7-a control unit; 8-a drainage unit; 81-liquid discharge port; 82-an output control valve; 83-a drain pipe; 9-a flow guide mechanism; 91-main support bar; 92-a liquid guide plate; 921-drinking end; 922-cleaning the diversion port; 923-a flow guide pipe; 93-a flip drive section; k-a weighing unit; k1-weighing rack; k2-electronic scale; p-receiving conveying vehicle; p1-vehicle body; p2-drive mechanism; p3-wheels; p4-proximity sensing block; p5-pressure sensing part; s-containing and receiving a container; s1-liquid output; t-waste water collecting part.

Detailed Description

The invention is further described below with reference to the drawings in the specification:

as shown in figures 1-7, the utility model relates to an imitative tea ceremony pouring device, including base 1, this base 1 top is equipped with a heating container 2, there is liquid level detection unit 3 on the heating container 2, this liquid level detection unit 3 is used for detecting liquid level height and liquid output volume in the heating container 2, this base 1 is connected with pouring container 5 through one empting mechanism 4, should empty mechanism 4 and be used for simulating the staff and pour out the liquid in the pouring container 5 when the pouring container 5 is fixed, this pouring container 5 is linked together with the heating container 2 through a water injection unit 6, this water injection unit 6 is used for transporting heated liquid to pouring container 5, this base 1 embeds has the control unit 7, this control unit 7 respectively with heating container 2, liquid level detection unit 3, empty mechanism 4, water injection unit 6 electric connection, this control unit 7 is used for regulating and control the temperature according to the parameter that sets up, The control unit 7 is provided with a storage module (not shown) for storing default and/or customized brewing parameters called by the control unit 7 and data of knowledge and characteristics corresponding to raw material varieties.

As shown in fig. 1-3, the base 1 is further provided with a display portion 11, the display portion 11 is used for displaying brewing setting data and current brewing conditions and/or inputting setting parameters, the display portion 11 is connected with the control unit 7, the control unit 7 is provided with a cover closing switch 12 and a forcing switch 13, the cover closing switch 12 is used for controlling the pouring mechanism 4 to close the brewing container 5, the forcing switch 13 is used for starting and closing the device and forcing the device to close when the system fails, the control unit 7 is further provided with a voice prompt portion (not shown) and a microphone (not shown), the voice prompt portion is used for functional voice prompt, error alarm and the like, and the microphone is convenient for a user to input voice or issue functional instructions and the like.

As shown in fig. 1-3, the bottom of the heating container 2 is provided with a heating part 21, the heating part 21 is used to heat the liquid in the heating container 2, the bottom of the heating container 2 is also provided with a temperature sensing part 22, the temperature sensing part 22 is used to detect the temperature condition of the liquid, wherein, the temperature sensing part 22 preferably adopts a temperature sensor, the temperature sensor is a thermistor assembly which is formed by packaging a high-precision and high-reliability NTC thermistor with insulating, heat-conducting and waterproof polymer materials into a required shape and connecting with PVC, Teflon wires and other wires to form a set of thermistor assembly which is convenient to install or remotely measure and control the temperature, the temperature sensor has the characteristics of simple structure, simple and convenient installation, good waterproof property, high sensitivity, rapid reaction, wide use temperature zone, good stability, high reliability, strong interchangeability, high precision and the like, and is beneficial to heat the water to the required temperature by the heating container 2 of the brewing device, however, it should be noted that the temperature sensing portion 22 may also select other thermosensitive devices according to the design requirement of the product to achieve the temperature control effect, and therefore, the type of the temperature sensing portion 22 is not limited herein.

As shown in fig. 1-3, the heating container 2 is further provided with a water supply portion 23, the water supply portion 23 is used for supplying an external water source to the heating container 2, and the water supply portion 23 is independent of the control unit 7 or electrically connected with the control unit 7; the water supply portion 23 is a water pump or a water supply solenoid valve for connecting with a water purifying device (such as a water purifier), and the water pump or the water supply solenoid valve is electrically connected with the control unit 7.

As shown in fig. 1 to 3, the heating container 2 is further provided at the bottom thereof with a drain unit 8, the drain unit 8 being used for draining the previously remained cold boiled water or the sewage after cleaning the heating container 2, the drain unit 8 comprising a drain port 81, an output control valve 82 connected to the drain port 81, and a drain pipe 83 connected to the output control valve 82.

As shown in fig. 1 to 3, the liquid level detecting unit 3 is a liquid level sensor (not shown), a liquid flow meter (not shown), a metering solenoid valve (not shown), or a detecting unit composed of a liquid level switch 31 and a distance measuring sensing part 32 provided on one side of the upper end of the liquid level switch 31, and the lower end surface of the liquid level switch 31 is about 10mm or more from the inner bottom surface of the heating container 2.

As shown in fig. 1 to 4, the pouring mechanism 4 includes a rotation driving portion 41, a first supporting rod 42 connected to the rotation driving portion 41, a connecting portion 43 disposed at one end of the first supporting rod 42, an uncovering driving portion 44 disposed on the first supporting rod 42, and a second supporting rod 45 connected to the uncovering driving portion 44, the connecting portion 43 is connected to the brewing container 5, the rotation driving portion 41 is configured to drive the first supporting rod 42 to pour the brewing container 5 to one side, the uncovering driving portion 44 is configured to drive the second supporting rod 45 to open the brewing container 5, the rotation driving portion 41 and the uncovering driving portion 44 are respectively electrically connected to the control unit 7, wherein the rotation driving portion 41 and the uncovering driving portion 44 are respectively fixedly connected to the base 1 and the first supporting rod 42 through a connecting seat (not shown); the connecting portion 43 is preferably an annular structure so as to be sleeved on the brewing container 5, the shape and size of the connecting portion 43 are matched with the size of the brewing container 5 (such as a cover bowl for brewing tea) which is commonly used in the market, the connecting portion 43 can be set to be a closed structure or an open structure as required, the connecting portion 43 can also be a clamping structure for clamping the brewing container 5, and the specific structural arrangement of the connecting portion 43 can be selected according to the actual design requirement of the product structure, which is not limited herein.

As shown in fig. 1-4, the brewing container 5 comprises a container body 51, a cover 52 disposed on the container body 51, and a buffering dispersion unit 53 disposed on the top of the cover 52, the buffering dispersion unit 53 is communicated with the water injection unit 6, the buffering dispersion unit 53 is used for allowing the liquid injected by the water injection unit 6 to drip from the middle and/or flow into the container body 51 from the periphery, a filter net 521 is disposed around the lower end of the cover, the filter net 521 can effectively separate the raw material from the liquid, so as to largely prevent the raw material from flowing out of the brewing container 5 with the liquid when the brewing container 5 is toppled over, one end of the second support rod 45 is fixed on the upper end of the buffering dispersion unit 53, wherein the buffering dispersion unit 53 penetrates through the top surface of the cover 52, and the container body 51 is a cover bowl with a conventional size in the market.

Furthermore, in the process of injecting water and brewing tea in the brewing container 5, the brewing container is in a state of injecting water into the stewing cover, so that the temperature loss of hot water can be reduced to a greater extent, the water temperature can be kept at a higher temperature for a relatively longer time, and the release of caffeine and tea polyphenol is facilitated; meanwhile, as the cover opening operation is not carried out in the water injection process, the water vapor which is heated and rises flows back to the container body 51 due to the obstruction of the cover 52, so that the loss of the water temperature is further reduced.

As shown in fig. 1 to 5, the buffering and dispersing unit 53 comprises a pipe connecting part 531, a hollow pipe 532 connected with the pipe connecting part 531, and a baffle 534 connected with the hollow pipe 532, wherein the joint between the hollow pipe 532 and the baffle 534 is provided with at least one through hole 532a, the through hole 532a is used for discharging liquid entering the hollow pipe 532, the baffle 534 is provided with at least one liquid dropping hole 534a, and one end of the second support rod is fixedly connected to the pipe connecting part 531; the hollow pipe 532 and the baffle 534 are of an integrally formed structure, so that the stability of connection between the hollow pipe 532 and the baffle 534 can be effectively ensured, configuration procedures are reduced, and the production cost is saved to a certain extent.

Or, as shown in fig. 1-4 and 6, the buffering dispersion unit 53 includes a pipe connecting part 531, a hollow pipe 532 connected to the pipe connecting part 531, a spacer 533 arranged in the hollow pipe 532, and a baffle 534 connected to the spacer 533, the pipe connecting part 531 is connected to the water injection unit 6, the spacer 533 is provided with at least one liquid outlet hole 533a, the baffle 534 is provided with at least one liquid outlet hole 534a, and one end of the second support rod 45 is fixedly connected to the pipe connecting part 531; wherein, this spacer 533 middle part is equipped with a connecting hole (not shown), is equipped with a spliced pole on this baffle, and this spliced pole upper end is pegged graft in the connecting hole, is connected with the connecting hole tight fit, or, this connecting hole still is equipped with the internal thread, and this spliced pole upper end is equipped with the external screw thread, and the spliced pole is connected with the internal thread of connecting hole through the upper end external screw thread, and the connected mode of spacer 533 and spliced pole can be selected according to the design needs of product structure, does not restrict oneself here.

Furthermore, due to the arrangement of the buffering and dispersing unit 53, part of the hot water injected from the hollow pipe 532 flows into the container body 51 from the edge of the dropping hole 534a or the baffle 534, and part of the hot water is blocked by the baffle 534 and flows back into the container body 51 along the inner wall of the cover 52 and the inner wall of the container body 51 after being splashed in the brewing container 5, so that the tea leaves or other brewing raw materials are uniformly drenched, the raw materials are completely moistened, and particularly for the tea leaves, the soluble substances in the tea leaves can be effectively and completely released.

As shown in fig. 1-3, the water injection unit 6 is composed of a water outlet pipe 61 and a water injection pipe 63 connected to the water outlet pipe 61 through a water outlet control valve 62, the water injection pipe 63 is connected to a pipe connection part 531 of the buffer dispersion unit 53, wherein the water injection pipe 63 preferably has a diameter of 8-12mm, and the water injection pipe 63 with the diameter is selected to inject water at a speed closer to the pouring speed of the water during the manual tea making process, so as to better reduce the temperature loss of the hot water during the water injection process.

As shown in fig. 1 to 3, one end of the second support rod 45 is provided with a fixing portion 46, the fixing portion 46 and the second support rod 45 are integrated, or one end of the second support rod 45 is connected with a fixing portion 46 through an adjusting portion 47, the adjusting portion 47 is used for adjusting the distance between the second support rod 45 and the fixing portion 46, the fixing portion 46 is connected with a connecting pipe portion 531 of the buffer dispersing unit 53, wherein, preferably, the adjusting portion 47 is provided with connecting grooves (not shown) at two ends, one end of the second support rod 45 and one end of the fixing portion 46 are respectively inserted into the corresponding connecting grooves, and the inner walls of the two connecting grooves and the outer walls of the connecting ends of the second support rod 45 and the fixing portion 46 are respectively tightly attached, when the length adjustment is required, only at least one of the second support rod 45 and the fixing portion 46 needs to be pulled out or pushed into the corresponding connecting groove, the length can be adjusted; furthermore, internal threads can be formed in the connecting grooves, external threads are formed at the connecting ends of the second supporting rod 45 and the fixing portion 46, the relative positions of the second supporting rod 45 and the adjusting portion 47 and the fixing portion 46 are adjusted through threads, the length adjusting effect is achieved, after the adjusting is carried out, the connecting structures of the second supporting rod 45 and the adjusting portion 47 and the fixing portion 46 are more stable, the length fine adjusting effect is achieved by adjusting the relative positions of the second supporting rod 45 and the adjusting portion 47 and the fixing portion 46, and the structural connecting mode between the adjusting portion 47 and the second supporting rod 45 and the fixing portion 46 can be set according to the design requirements of product structures and is not self-limited.

As shown in fig. 1-4, a flow guiding mechanism 9 is further disposed below the brewing container 5, the flow guiding mechanism 9 is used for guiding the liquid to be drunk or washed in the brewing container 5, the flow guiding mechanism 9 includes a main supporting rod 91 disposed on the base 1, a liquid guiding plate 92 disposed above the main supporting rod 91, and an overturning driving part 93 disposed below the liquid guiding plate 92, the overturning driving part 93 is used for inclining one end of the liquid guiding plate 92 outwards, the overturning driving part 93 is electrically connected with the control unit 7, one side of the liquid guiding plate 92 is provided with at least one drinking flow guiding end 921, the other end of the liquid guiding plate 92 is provided with a washing flow guiding port 922, and the washing flow guiding port 922 is used for guiding the liquid of the primary raw material, the waste water for washing each container, or the tea water remaining in the container 5 after brewing; wherein, the turning driving part 93 is fixedly connected with the main supporting rod 91 through a fixing seat (not shown); since one end of the liquid guide plate 92 where the cleaning diversion port 922 is provided is longer than the end where the drinking diversion port 921 is provided, the liquid guide plate 92 is normally inclined toward the end where the cleaning diversion port 922 is provided, and is supported by the inversion driving part 93 to maintain a backward inclined state.

Further, as shown in fig. 1-4, the drinking flow guiding end 921 of the liquid guiding plate 92 is at least one flow guiding opening with a trapezoidal structure, the flow guiding opening and the liquid guiding plate 92 are integrated into a whole, or at least one flow guiding pipe 923 arranged on the liquid guiding plate 92, the flow guiding pipe 923 is arranged towards the placement position of the cup and/or the container S, and the drinking flow guiding end 921 of the liquid guiding plate 92 can be arranged according to the structure requirement of the product, and is not limited herein.

As shown in fig. 1-3, a weighing unit K is further disposed on one side of the upper end of the base 1, the weighing unit K is used for weighing tea leaves or other brewing materials and feeding back weighing data, the weighing unit K is composed of a weighing support K1 and an electronic scale K2 disposed on the weighing support K1, and the electronic scale K2 is electrically connected to the control unit 7.

As shown in fig. 1-3, at least one proximity sensing portion (not shown) is disposed on a side of the base 1 facing the brewing container 5, and the proximity sensing portion is used for determining whether an object enters below the brewing container 5; the proximity sensing part preferentially adopts a proximity switch, the proximity switch is a position switch which can be operated without mechanical direct contact with a moving part, and when the sensing surface of the object proximity switch reaches an action distance, the switch can be actuated without mechanical contact and any pressure application, so that a direct current electric appliance is driven or a control instruction is provided for a computer (PLC) device; the approach switch is a switch type sensor (i.e. a non-contact switch) and has the characteristics of a travel switch and a microswitch; the proximity sensing part can adopt a human body proximity sensor, a capacitance type proximity switch, a photoelectric proximity switch or other types of proximity sensors/switches, and the selection of the type of the proximity sensing part can be determined according to the actual use needs of the product, and is not limited herein.

When the brewing device only has the dumping mechanism 4 to be matched with the brewing container 5 for brewing tea, if the brewing device receives tea soup manually, when the receiving container S is manually held by hands to extend to the lower part of the brewing container 5, the proximity induction part detects that a human body enters a brewing area below the brewing container 5, the proximity induction part converts a detection result that a human hand enters the brewing area into an electric signal and feeds the electric signal back to the control unit 7, after the control unit 7 receives the electric signal, giving an instruction to the pouring mechanism 4, executing tea making action, pouring tea soup into the container S, when a person holds the container S and moves out of the brewing area below the brewing container 5, the approaching sensing part converts the detection result of the person moving out of the brewing area into an electric signal and feeds the electric signal back to the control unit 7, and the control unit 7 sends an instruction to the dumping mechanism 4 after receiving the electric signal to reset the dumping mechanism 4.

When the brewing device is also provided with the flow guide mechanism 9 to be matched with the brewing container 5 for brewing tea, if the brewing device is manually used for receiving tea soup through a person, when the receiving container S is manually held to extend to the lower part of the brewing container 5 by the person, the approach sensing part detects that the person enters the brewing area below the brewing container 5, the approach sensing part converts a detection result of the person ' S hand entering the brewing area into an electric signal and feeds the electric signal back to the control unit 7, the control unit 7 receives the electric signal and then sends instructions to the flow guide mechanism 9 and the dumping mechanism 4, the flow guide mechanism 9 preferentially acts and inclines downwards, then the dumping mechanism 4 executes tea brewing action, the tea soup flows into the receiving container S through the flow guide mechanism 9, when the person ' S hand takes the receiving container S to move outwards out of the brewing area below the brewing container 5, the approach sensing part converts a detection result of the person ' S hand moving out of the brewing area into the electric signal, the tea soup is fed back to the control unit 7, after the control unit 7 receives the electric signal, the control unit 7 also sends an instruction to the flow guide mechanism 9 and the pouring mechanism 4 in sequence, at the moment, the flow guide mechanism 9 is reset firstly, the tea soup remained in the brewing container 5 flows out along the cleaning flow guide opening 922 of the liquid guide plate 92 of the flow guide mechanism 9, and then, the pouring mechanism 4 is also reset.

And/or, the base 1 is also provided with a brewing switch (not shown) for controlling the brewing device to perform the brewing action; in the brewing process, the brewing switch can be directly pressed according to actual operation requirements, so that the brewing device executes the action of pouring tea, at the moment, the water outlet control valve 62 is directly opened, water is added into the brewing container 5, the pouring mechanism 4 is executed in a matching way, and when the flow guide mechanism 9 is configured, the flow guide mechanism 9 is executed in a matching way with the pouring mechanism 4 to execute the action of pouring tea.

As shown in fig. 1-4 and 6, one side of the base 1 is further provided with a waste water collecting portion T for collecting waste water discharged from the brewing device, and specifically, the waste water collecting portion T is connected to the drainage unit 8 and the liquid guide plate 92 of the guiding mechanism 9 for receiving waste water discharged from the drainage unit 8 and liquid discharged from the liquid guide plate 92 (the liquid is generally a liquid obtained by first brewing and pouring raw materials); in the normal state of the liquid guide plate 92 of the flow guide mechanism 9, the cleaning flow guide opening 922 of the liquid guide plate 92 is generally inclined toward the waste water collecting part T.

The control unit 7 is also wirelessly connected with a cloud server (not shown) for storing default and/or customized brewing modes for the brewing device to call, and the control unit 7 is also wirelessly connected with a mobile device for calling and modifying the brewing modes; specifically, the control unit 7 is further provided with a WiFi module (not shown), which implements wireless networking and implements information transceiving communication with the cloud server, so that the utility model calls the data of the cloud server; the control unit 7 is further provided with a bluetooth module (not shown), the bluetooth module is connected with the mobile device in a bluetooth manner, the mobile device connected with the control unit 7 in the bluetooth manner can call more brewing modes in the cloud server through the APP, and the current brewing mode of the utility model can be set through the APP, and the mobile device can be a mobile phone, a tablet computer and the like; in addition, the WiFi module and the bluetooth module herein can also adopt a module combining bluetooth and WiFi, and for the selection of the WiFi module and the bluetooth module, the evaluation selection can be performed according to the production cost of the product and the actual application requirement, which is not limited herein.

As shown in fig. 1-3, a receiving and delivering vehicle P is further provided below the brewing container 5, the receiving and delivering vehicle P is used for delivering the cups and/or receiving containers S after receiving tea, the containing and conveying vehicle P comprises a vehicle body P1, more than two wheels P3 arranged at two sides of the vehicle body P1 through a driving mechanism P2, an approach induction block P4 arranged at one side of the vehicle body P1, a pressure induction part P5 arranged at the upper surface of the vehicle body P1, a vehicle control part (not shown) arranged in the vehicle body P1, and a battery (not shown) connected with the vehicle control part through a charging module (not shown), the driving mechanism P2 and the pressure sensing part P5 are electrically connected to a vehicle control part, respectively, the vehicle control part is provided with a vehicle signal transceiver module (not shown), the control unit 7 is provided with a main signal transceiver module (not shown), and the main signal transceiver module is in wireless signal connection with the vehicle signal transceiver module; when the automobile proximity sensing device is used, when the proximity sensing block P4 on the automobile body P1 enters a sensing area of the proximity sensing part on the base 1, the proximity sensing part can quickly feed an electric signal back to the control unit 7, and the control unit 7 sends an instruction to the automobile signal transceiver module through the main signal transceiver module according to the received electric signal, so that the automobile body P1 stops moving.

Further, as shown in fig. 1 and 3, the receiving container S is a fair cup, or the receiving container S has a container structure with at least one liquid output portion S1, and the liquid output portion S1 is disposed so that the tea soup or other beverages contained therein can directly flow into the corresponding cup, thereby reducing the distribution link of the fair cup and saving time and labor for the user.

Furthermore, the control unit 7 is provided with at least one microcontroller (not shown), and the microcontroller regulates and controls the heating container 2, the liquid level detection unit 3, the pouring mechanism 4, the water injection unit 6, the water drainage unit 8, the flow guide mechanism 9, the weighing unit K and other components, so that all parts of the brewing device cooperate with each other, and the effect of simulating the brewing action of the tea artist is realized.

In addition, it should be noted that, the uncapping driving part 44, the rotation driving part 41 and the turnover driving part 93 are all preferably steering engines, and the steering engines have the advantages of high precision, good fixed force, anti-shaking, high response speed, rapidness and gentleness during acceleration and deceleration, and can make the working actions of the pouring mechanism 4 and the diversion mechanism 9 more stable, especially the action of the pouring mechanism 4 is gentler and more close to the tea pouring action of a teachers, however, the types of the uncapping driving part 44, the rotation driving part 41 and the turnover driving part 93 can be selected according to the actual configuration requirements of products, and are not limited by the requirements.

The utility model also discloses a control method of imitative tea ceremony teacher's brewing device, this imitative tea ceremony teacher's brewing device is aforementioned an imitative tea ceremony teacher's brewing device, and its control method is:

(1) detection standby: after the device is started, the control unit 7 firstly detects all components of the tea making device, then displays a brewing setting interface, then starts the drainage unit 8 to drain water, and after the drainage is finished, injects water into the heating container 2 and starts heating for brewing;

(2) brewing and setting: according to brewing requirements, after selecting a default brewing mode or brewing parameters required by self-definition on a brewing setting interface in the step (1), confirming to store, or wirelessly connecting the mobile equipment and the brewing device, and after selecting the default brewing mode or the brewing parameters required by self-definition through the mobile equipment, confirming to store, wherein when the setting parameters are different from the default parameters of the default brewing mode, the self-definition brewing mode is automatically stored for later-period repeated calling;

(3) weighing and adding materials: after the storage is confirmed in the step (2), the electronic scale K2 is opened, the pouring mechanism 4 opens the cover 52 of the brewing container 5, the raw material to be brewed is weighed by the electronic scale K2, the weighed raw material is added into the container body 51 of the brewing container 5, and then the pouring mechanism 4 is buckled with the cover 52 for brewing;

(4) soaking to obtain soup: after the water is heated in the step (1) and the step (3) is completed, according to the brewing setting in the step (2), the water heated in the step (1) is quantitatively injected into the brewing container 5 through the water injection unit 6 to be brewed to form a beverage, the brewing container 5 is poured at regular time through the pouring mechanism 4, the brewed beverage is poured into a cup and/or a containing container S, and then the pouring mechanism 4 is reset to prepare for the next water injection brewing.

Further, in the step (1), the drainage unit 8 is matched with the liquid level detection unit 3 to drain water for the heating container 2, after the drainage is finished, water is added to the heating container 2 manually or through the water supply part 23, when the water is added through the water supply part 23, the water supply part 23 is started to fill water into the heating container 2 after the liquid level detection unit 3 detects that the water in the heating container 2 reaches 5-10 seconds counted from the lowest water level, and at the moment, the drainage unit 8 stops working simultaneously.

Further, in the step (1), the liquid level detection unit 3 is adopted to detect the water volume condition in the heating container 2, and the detection result is fed back to the control unit 7; when the liquid level detecting unit 3 detects that the liquid level in the heating container 2 changes, the heating part 21 of the heating container 2 starts heating, and when the liquid in the heating container 2 reaches the highest point, the control unit 7 stops the operation of the water supply part 23.

Further, after the step (1) is started, the temperature sensing part 22 continuously works, and displays the real-time temperature of the liquid in the heating container 2 through the display part 11, and under the normal temperature and normal pressure environment, when the heating container 2 heats the liquid for the first time, and the liquid temperature reaches the boiling point, the heating part 21 stops electrifying; it should be noted that, when the water is at a boiling point of 100 ℃ under the normal temperature and pressure environment, that is, the temperature sensing part 22 of the heating container 2 detects that the water temperature reaches 100 ℃, the water temperature signal is converted into an electric signal and fed back to the control unit 7, and after receiving the electric signal, the control unit 7 suspends the heating of the heating part 21 of the heating container 2 on the water.

Further, before the drainage unit 8 is started in step (1), the liquid level detection unit 3 is matched to confirm that the water in the heating container 2 is at least at the lowest water level state and is heated to boiling so as to carry out high-temperature cleaning on the heating container 2, after the high-temperature cleaning is finished, the heating part 21 stops working, the output control valve 82 of the drainage unit 8 is started, and the water in the heating container 2 is drained; it should be noted here that, before the brewing operation, the remaining water in the heating container 2 is discharged, which can effectively avoid drinking the water in the middle of the night, the water in the heating container 2 may have bacterial reproduction after being placed overnight, especially in summer, the air humidity is high, the bacterial reproduction is fast, which is very easy to cause water quality pollution, if the user drinks the water in the middle of the night, diarrhea is very easy to cause, therefore, the water discharging operation in step (1) can effectively avoid the drinker from drinking the polluted water in the middle of the night, and the drinking sanitation and safety of the water are ensured.

Further, in the step (2), the brewing mode is selected or brewing parameters are set in a user-defined mode through the display part 11 or the APP matched with the tea artist brewing device, and when a user modifies the brewing parameters of the default brewing mode or resets the brewing parameters, the control unit 7 automatically stores the set brewing mode into the storage module for subsequent calling; meanwhile, for the stored brewing mode, a user can adjust brewing parameters according to actual brewing requirements, and the control unit 7 can store the brewing parameters in time according to the adjusted brewing data and upload the brewing parameters to the cloud server, wherein the brewing parameters are generally the type of brewing raw materials, the addition amount of the raw materials, the brewing temperature, the brewing frequency, the water injection amount for each brewing, the soaking time of each raw material, the water type or other parameter settings; it should be noted here that the water type is usually tap water or directly drinkable water (barreled water or water supplied by a water purifier), when tap water is selected, after the water in the heating container 2 is heated to 95-100 ℃ (during heating, the temperature sensing part 22 detects the water temperature in real time), the heating part 21 of the heating container 2 stops heating, and then the temperature sensing part 22 detects the water temperature in the heating container 2, and water is injected into the brewing container 5 according to the brewing temperature; when the drinking water is selected directly, the heating part 21 heats the water to the set brewing temperature by cooperating with the temperature sensing part 22, and then the water is injected into the brewing container 5.

Further, after the brewing mode is determined, when the brewing parameters are self-defined, the control unit 7 calculates the liquid level height required to be reduced by the heating container 2 in each brewing water injection in the currently set brewing mode according to the water injection amount in each brewing in the set brewing parameters, and simultaneously, the liquid level reduction height value in each brewing is stored in the corresponding brewing mode for direct use in subsequent calling; wherein, the calculation formula of each liquid level descending height is as follows: the height of each liquid level drop = the water injection amount (ml) required for each brewing ÷ the bottom area of the heating container 2; it should be noted that the liquid-containing cavity of the heating container is of a regular structure, such as a cylinder, a cuboid, a cube or other regular structures, so as to facilitate calculation of the liquid level falling height each time.

Further, after the user-defined brewing parameters are set in the step (2), the user-defined brewing parameters can form a user-defined file, meanwhile, the system can prompt naming of the user-defined file, and after naming is completed, the user-defined file can be stored in the storage module and uploaded to the cloud server through the WiFi module, so that data loss of the storage module is prevented, and downloading in different places is facilitated.

Further, in the step (2), when the type of the brewing raw material is zero and the addition amount of the raw material is 0, the brewing container 5 directly pours out the clean water under the action of the pouring mechanism 4, wherein in the first pouring operation in each round of brewing operation, the flow guide mechanism 9 is kept in the original state, the water poured out from the brewing container 5 directly flows into the waste water collection part T, and the brewing container 5 is cleaned once.

Further, after the brewing parameters in the step (2) are set, in the normal temperature and normal pressure environment, when the water type is tap water, the heating container 2 is heated to the boiling point by default, and the heating part 21 is powered on temporarily; when the type of water is direct drinking water, the heating container 2 is heated according to the set brewing temperature, and when the corresponding brewing temperature is reached, the heating part 21 is powered on temporarily.

Further, in the step (3), after the electronic scale K2 weighs the raw material, the control unit 7 compares the current weight of the raw material with the brewing parameter set in the step (2), determines the matching degree between the current weight of the weighed raw material and the raw material weight set by the brewing parameter, and prompts the user to increase, decrease or modify the raw material addition amount through the voice prompt unit, and after the electronic scale K2 is started for 20-40 seconds, the control unit 7 turns off the electronic scale K2.

Further, in the step (3), the control unit 7 controls the lid opening driving part 44 of the pouring mechanism 4 to open the lid 52 of the brewing container 5, at this time, the voice prompt part sends out a prompt sound that the lid 52 is opened, the weighed raw materials are added into the brewing container 5, then, the lid closing switch 12 is touched, and the control unit 7 controls the lid opening driving part 44 to close the lid 52 on the container body 51 according to the lid closing trigger signal, and simultaneously, closes the prompt sound of the voice prompt part; the use of the prompt tone of voice prompt part the utility model discloses in have the warning effect, for example, control second bracing piece 45 at drive division 44 that uncaps and open the lid 52 of steeping container 5 after, forgotten the touch-control and closed lid switch 12, cover lid 52, at this moment, if water injection unit 6 starts, hot water will spout from buffering dispersion unit 53, injures the user.

Further, in the step (4), the water outlet control valve 62 needs to close the lid 52 onto the container body 51 by the lid opening driving part 44, the temperature of the liquid water in the heating container 2 reaches the brewing temperature set in the step (2), and the water outlet control valve is opened when the proximity sensing part determines that an object enters the brewing area below the brewing container; that is, the water outlet control valve 62 is opened if the aforementioned conditions are satisfied; or, after the water outlet control valve 62 touches the brewing switch, the control unit 7 is turned on when the state of the cover opening driving part 44 and the water temperature in the heating container 2 meet the brewing conditions, and when the water temperature in the heating container 2 does not meet the brewing conditions, the control unit 7 reminds the user through the voice prompt part, and the water temperature does not meet the brewing requirements and needs to wait for patience.

Further, in the step (4), the water outlet control valve 62 is opened to output heated hot water, the liquid level detection unit 3 is opened to detect the liquid level descending height, the change of the liquid level descending height is converted into a signal to be fed back to the control unit 7, and when the liquid level descending height reaches the set height of each brewing, the control unit 7 issues an instruction to control the water outlet control valve 62 to suspend hot water output.

Further, in the step (4), after the output of the hot water from the water outlet control valve 62 is suspended, the control unit 7 allows the hot water to soak the raw material for the set soaking time according to the selected brewing mode, and at the same time, the control unit 7 starts the rotary driving part 41 of the pouring mechanism 4 after the current raw material is soaked, tilts the brewing container 5 to one side and keeps the tilting state for 10 to 20 seconds, pours out the beverage in the brewing container 5, and after the pouring action is completed, the control unit 7 controls the rotary driving part 41 to reset for the next water injection and brewing.

Further, when the brewing apparatus is provided with the flow guide mechanism 9, the control unit 7 starts the reverse driving portion 93 of the flow guide mechanism 9 in advance 1 to 2 seconds before the rotation driving portion 41 of the pouring mechanism 4 is started in step (4), tilts the liquid guide plate 92 toward the cup and/or the receiving container S setting position, prepares for liquid guiding, and after the liquid guide plate 92 of the flow guide mechanism 9 is maintained in the tilted state for about 10 to 20 seconds, the reverse driving portion 93 restores the liquid guide plate 92 to the original state, that is, the cleaning flow guide port 922 of the liquid guide plate 92 is in the tilted state toward the waste water collecting portion T.

Furthermore, the brewing device also carries out voice broadcast according to the tea knowledge and the characteristics of the tea according to the current brewing raw material variety in the brewing operation process, and particularly, the voice broadcast corresponds to the fragrance characteristics of the tea variety, the upper cavity feeling, the fragrance time in the mouth, the taste sense of the first tea, the taste sense of the second tea, the taste notice and other contents, so that the interpreted mode of the brewing device is more vivid and more easily recognized and understood by a user, just like a real tea artist makes tea for the user in front of the user, and the pleasure is added to the brewing process.

Further, in the brewing operation process in the step (4), a user can pause the brewing device according to the use operation requirement, start and stop the voice broadcast, adjust the voice volume or change the brewing mode.

Furthermore, in the brewing operation process in the step (4), a user can modify each round of soaking time after pausing brewing according to actual drinking needs, and the modified raw material soaking time can be automatically stored in the storage module and uploaded to the cloud server for next calling.

And furthermore, in the brewing operation process in the step (4), a preset tea tag is scanned through a mobile device, a standard brewing mode, related tea knowledge and characteristics of corresponding tea are read, and the read content is shared, wherein preset information of the tea tag is stored in a storage module or a cloud server in advance.

It should be noted that, a main folder is arranged in the cloud server, and the main folder is used for storing a plurality of groups of general brewing parameters suitable for different brewing raw materials and data corresponding to the relevant knowledge and characteristics of tea types for the control unit 7 to call; meanwhile, in the cloud server, each account is provided with a plurality of individual folders, and each individual folder is used for storing brewing parameters defined by different users for subsequent calling of the users; each individual folder can name the folder name according to the user name when the user registers so as to accurately store the self-defined files of different users; in addition, when the brewing device is not connected with WiFi or other wireless networks, the brewing mode with the personalized modification can be stored in the storage module preferentially to form updating data, and after the brewing device is connected with the wireless networks, the updating data can be uploaded to the cloud server automatically.

In addition, when the brewing device is provided with the containing and conveying vehicle P, the containing and conveying vehicle P determines that the vehicle body P1 is positioned at the accurate position for containing liquid according to the proximity sensing part, and after the liquid is contained, the cup and/or the containing and conveying container S are conveyed to the position where a tea drinker is positioned, meanwhile, the containing condition of the cup and/or the containing and conveying container S is continuously judged through the pressure sensing part P5, the detection data are timely converted into electric signals by the vehicle signal receiving and transmitting module and fed back to the control unit 7, and when the cup and/or the containing and conveying container S are judged to be in an empty state, the containing and conveying vehicle P returns to the position for containing the liquid, and the next brewing is waited; after the tea soup is poured out, the filling and receiving conveying vehicle P is matched, and the reasonable cup or the teacup filled with the tea soup is conveyed to the front of a tea drinker, so that the tea drinker can drink the tea conveniently, and the effect of automatically conveying the tea is realized.

Further, the receiving transport vehicle P can carry out fixed-point transport by mobile phone control, on-site voice call, key call or other modes.

Further, when the brewing device is provided with the receiving and conveying vehicle P, the water outlet control valve 62 needs to close the cover 52 on the container body 51 at the cover opening driving part 44, the temperature of the liquid water in the heating container 2 reaches the brewing temperature set in the step (2), meanwhile, the approach sensing part judges that the receiving and conveying vehicle P enters the brewing area below the brewing container, and the receiving and conveying vehicle P is opened when the pressure sensing part P5 determines that the receiving container S on the receiving and conveying vehicle P is empty; that is, the effluent control valve 62 is opened as needed to satisfy the aforementioned conditions at the same time.

It should be noted that, in the description of the present invention, the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for convenience of description and simplification of description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, should not be construed as limiting the present invention; furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; unless expressly stated or limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, such as "connected," and may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the two elements can be directly connected or indirectly connected through an intermediate medium, and the two elements can be communicated with each other, so that the specific meaning of the terms in the invention can be understood by those skilled in the art according to specific situations; furthermore, the utility model discloses the standard part that uses all can purchase from the market, if relate to special-shaped, all can customize according to the description of the description with the record of attached drawing, and the concrete connected mode of each part all adopts conventional means such as ripe screw/bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt among the prior art, and conventional model is not repeated here.

It is right only to go up the preferred embodiment of the utility model discloses a it is not right the utility model discloses a scope is injectd, the event is not deviating from the utility model relates to an under the prerequisite of spirit, ordinary engineering technical personnel in the field is right the equivalent change or the decoration that structure, characteristic and principle do, all should fall into the utility model discloses the protection within range of applying for a patent.

Claims (17)

1. The utility model provides an imitative tea ceremony teacher's brewing device, includes the base, and this base top is equipped with a heating container, its characterized in that: the heating container is provided with a liquid level detection unit for detecting the height of liquid level in the heating container and the output quantity of liquid, the base is connected with the brewing container through a pouring mechanism for fixing the brewing container and simulating hands to pour out the liquid in the brewing container, the brewing container is communicated with the heating container through a water injection unit for delivering the heated liquid into the brewing container, a control unit is arranged in the base and is respectively and electrically connected with the heating container, the liquid level detection unit, the pouring mechanism and the water injection unit, the control unit is used for regulating and controlling the water temperature, the brewing water injection quantity and the soaking time according to set brewing parameters, a storage module is arranged in the control unit and is used for storing default and/or self-defined brewing parameters, brewing parameters and soaking time for the control unit to call, Data of knowledge and characteristics corresponding to the raw material varieties.

2. The tea artist brewing device of claim 1, wherein: the base is also provided with a display part which is used for displaying brewing setting data and the current brewing condition and/or inputting setting parameters, the display part is connected with the control unit, the control unit is provided with a cover closing switch and a forced switch, the cover closing switch is used for controlling the pouring mechanism to close the brewing container, the forced switch is used for opening and closing the device and forcibly closing the device when the system fails, and the control unit is also provided with a voice prompt part and a microphone.

3. The tea artist brewing device of claim 1, wherein: the bottom of the heating container is provided with a heating part for heating the liquid in the heating container, and the bottom surface of the heating container is also provided with a temperature sensing part for detecting the temperature condition of the liquid.

4. The tea artist brewing device of claim 1, wherein: the heating container is also provided with a water supply part, the water supply part is used for conveying an external water source into the heating container, and the water supply part is independent of the control unit or is electrically connected with the control unit.

5. The tea artist brewing device of claim 1, wherein: the bottom of the heating container is also provided with a drainage unit which is used for draining residual cold boiled water or sewage after cleaning the heating container, and the drainage unit comprises a drainage port, an output control valve connected with the drainage port and a drainage pipe connected with the output control valve.

6. The tea artist brewing device of claim 1, wherein: the liquid level detection unit is a liquid level sensor, a liquid flowmeter, a metering electromagnetic valve or a detection unit consisting of a liquid level switch and a distance measurement induction part arranged on one side of the upper end of the liquid level switch, and the distance between the lower end surface of the liquid level switch and the inner bottom surface of the heating container is more than about 10 mm.

7. The tea artist brewing device of claim 1, wherein: the pouring mechanism comprises a rotary driving part, a first supporting rod connected with the rotary driving part, a connecting part arranged at one end of the first supporting rod, an uncovering driving part arranged on the first supporting rod and a second supporting rod connected with the uncovering driving part, the connecting part is connected with the brewing container, the rotary driving part is used for driving the first supporting rod to pour the brewing container to one side, the uncovering driving part is used for driving the second supporting rod to open the brewing container, and the rotary driving part and the uncovering driving part are respectively electrically connected with the control unit.

8. The tea artist brewing device of claim 7, wherein: the brewing container consists of a container body, a cover arranged on the container body and a buffering dispersion unit arranged at the top of the cover, wherein the buffering dispersion unit is communicated with the water injection unit and is used for enabling liquid injected by the water injection unit to drip from the middle and/or flow into the container body from the periphery, a filter screen is annularly arranged at the lower end of the cover body, one end of the second support rod is fixed at the upper end of the buffering dispersion unit, and the buffering dispersion unit penetrates through the top surface of the cover.

9. The tea artist brewing device of claim 8, wherein: the buffer dispersion unit is composed of a pipe connecting part, a hollow pipe connected with the pipe connecting part and a baffle connected with the hollow pipe, at least one through hole is formed in the joint of the hollow pipe and the baffle and used for discharging liquid entering the hollow pipe, at least one liquid dropping hole is formed in the baffle, and one end of the second support rod is fixedly connected to the pipe connecting part.

10. The tea artist brewing device of claim 8, wherein: the buffering dispersion unit comprises a pipe connecting part, a hollow pipe connected with the pipe connecting part, a spacer arranged in the hollow pipe and a baffle connected with the spacer, the pipe connecting part is connected with the water injection unit, at least one liquid outlet hole is formed in the spacer, at least one drip hole is formed in the baffle, and one end of the second support rod is fixedly connected to the pipe connecting part.

11. The tea artist brewing device of claim 10, wherein: the water injection unit consists of a water outlet pipe and a water injection pipe connected with the water outlet pipe through a water outlet control valve, and the water injection pipe is connected with the connecting pipe of the buffering dispersion unit.

12. The tea artist brewing device of claim 8, wherein: one end of the second support rod is provided with a fixing part which is integrated with the second support rod, or one end of the second support rod is connected with a fixing part through an adjusting part which is used for adjusting the distance between the second support rod and the fixing part, and the fixing part is connected with the connecting pipe part of the buffering dispersion unit.

13. The tea artist brewing device of claim 1, wherein: the brewing container is characterized in that a flow guide mechanism is further arranged below the brewing container and used for guiding liquid to be drunk or cleaned in the brewing container, the flow guide mechanism comprises a main support rod arranged on the base, a liquid guide plate arranged above the main support rod and a turnover driving part arranged below the liquid guide plate, the turnover driving part is used for enabling one end of the liquid guide plate to incline outwards, the turnover driving part is electrically connected with the control unit, at least one drinking flow guide end is arranged on one side of the liquid guide plate, a cleaning flow guide port is arranged at the other end of the liquid guide plate and used for guiding liquid of primary brewing raw materials, waste water for cleaning each container or residual tea water in the brewing container after tea brewing to be discharged.

14. The tea artist brewing device of claim 1, wherein: one side of the upper end of the base is also provided with a weighing unit, the weighing unit is used for weighing tea leaves or other brewing raw materials and feeding back weighing data, the weighing unit consists of a weighing support and an electronic scale arranged on the weighing support, and the electronic scale is electrically connected with the control unit.

15. The tea artist brewing device of claim 13, wherein: the base is provided with at least one proximity sensing part on one side facing the brewing container, the proximity sensing part is used for judging whether an object enters the lower part of the brewing container or not, and/or the base is also provided with a brewing switch which is used for controlling the brewing device to perform the brewing action.

16. The tea artist brewing device of claim 1, wherein: one side of the base is also provided with a waste water collecting part which is used for collecting waste water discharged by the brewing device.

17. The tea artist brewing device of claim 1, wherein: the control unit is also in wireless connection with a cloud server, the cloud server is used for storing default and/or user-defined brewing modes for the brewing device to call, the control unit is also in wireless connection with the mobile device, and the mobile device is used for calling and modifying the brewing modes.

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