CN210408097U

CN210408097U - Novel tea making system

Info

Publication number: CN210408097U
Application number: CN201920726916.3U
Authority: CN
Inventors: 付利忠; 曾杜明
Original assignee: Shenzhen Huaman Brothers Technology Co ltd
Current assignee: Shenzhen Huaman Brothers Technology Co ltd
Priority date: 2019-05-21
Filing date: 2019-05-21
Publication date: 2020-04-28
Anticipated expiration: 2029-05-21

Abstract

The utility model discloses a novel tea making system, which comprises a tea making component system and a tea making control system; the tea making component system comprises a teapot seat, a teapot shell, a tea soup container for containing tea, a heating disc, a tea making container for containing tea and a pot cover; the teapot shell is arranged on the teapot seat; the tea soup container is arranged in a tea soup chamber of the teapot shell, the heating disc is arranged at the bottom of the tea soup container, and the motor with the driving magnet at the end part is arranged below the heating disc; a helical blade in which a passive magnet is arranged above the heating disc; the driving magnet and the driven magnet form a magnetic coupling linkage structure; the drainage blade chamber is sleeved on the periphery of the helical blade; the tea soup container is communicated with the material soaking container through the drainage tube, and the spraying head is sleeved at the upper part of the drainage tube. The main advantages are as follows: the non-contact connection between the motor and the helical blade is skillfully realized through magnetic force; the helical blade is used for actively and circularly supplying water, the technical problem of tea making in a non-boiling state is effectively solved, and the tea making temperature and the tea making time are adjustable.

Description

Novel tea making system

Technical Field

The utility model relates to a field of making tea, in particular to novel system of making tea of adjustable temperature of making tea and tea making time.

Background

When the tea is brewed, because different tea varieties are involved, tea needs to be brewed at different water temperatures and different time. Among the present instrument of making tea, people prefer the mode that tea grounds and tea soup are shared to make tea relatively, set up in the teapot and hold the separated tea fill of chamber with the teapot is inside, and the back is good when the tea bubble in the tea fill, presses the switch that goes out, releases the tea soup in the tea fill to the teapot inside and holds the chamber, and the rethread hu zui pours can. When the tea set is used, tea making is mainly performed under the condition of manual intervention for controlling tea making temperature and tea making time, the workload of tea making is increased, the technical requirements of tea making of operators are also increased, and particularly in some self-service tea houses and other business places, the quality of tea soup made by tea customers is greatly reduced due to the fact that the tea making technology of the tea customers is not high, the taste and the quality are affected, and the tea customers are difficult to obtain better tea making experience.

Most of automatic tea making tea sets sold in the market at present are steamed tea or boiled tea products, the automatic tea making tea sets push water to reach a tea material chamber in a boiling mode, and for some tea leaves which can not be made by boiling water with higher temperature, the tea making tea sets are unqualified, so that the compatibility is poor; furthermore, the water for making tea needs to be heated continuously to obtain boiling tea, which results in waste of energy.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned various defects that present automatic tea set of making tea exists, the utility model provides a helical blade of magnetic force linkage carries out active water supply system and effectively solves the demand of making tea of non-boiling state, combines control panel's the setting of the parameter of making tea, can satisfy the tea person to the technological demand of different teas, realizes the temperature of making tea and the novel system of making tea of tea time adjustable.

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

a novel tea making system comprises a tea making component system for making tea and a tea making control system for controlling the tea making component system to perform a tea making process; the tea making control system comprises a motor and a control panel for setting tea making parameters, and the motor is electrically connected with the control panel; it is characterized in that the preparation method is characterized in that,

the tea making component system comprises a teapot seat, a teapot shell, a tea soup container for containing tea, a heating disc, a tea making container for containing tea and a pot cover; the kettle cover is arranged at the top of the material soaking container;

the teapot shell is arranged on the teapot seat; the teapot shell is divided into an upper part and a lower part which are respectively a control room and a tea soup room; the tea soup container is arranged in the tea soup chamber, the heating disc is hermetically arranged at the bottom of the tea soup container, and the heating disc is electrically connected with the control panel; the material soaking container is nested at the upper part of the tea soup container;

the motor is arranged below the heating disc, an output shaft of the motor upwards penetrates through the heating disc and extends into the tea soup chamber, and a driving magnet is arranged at the end part of the output shaft of the motor; the surface of the upper part of the heating disc is provided with a blade shaft with a hollow inner part, and the driving magnet is sleeved in the hollow inner part of the blade shaft; the blade shaft is provided with a rotatable helical blade, a blind hole with a downward opening is formed in the helical blade, and the helical blade is rotatably sleeved on the blade shaft from top to bottom through the blind hole; the bottom of the helical blade is internally provided with a passive magnet in the side wall of the blind hole, and the positions of the active magnet and the passive magnet are transversely opposite to form a magnetic coupling linkage structure;

the bottom of the material soaking container is provided with a circulating drainage hole, a drainage tube is arranged between the material soaking container and the tea soup container, the bottom of the drainage tube is provided with a drainage blade chamber which expands towards the peripheral side, the wall part of the drainage blade chamber is provided with a drainage hole, and the whole helical blade is sleeved in the drainage blade chamber; the wall part of the material soaking container is provided with a circulating water hole; the upper end of the drainage tube penetrates through a circulating drainage hole at the bottom of the material soaking container and extends upwards from the bottom of the material soaking container to communicate the tea soup container with the material soaking container.

As an improvement of the scheme, a spray head is arranged in the soaking container, spray holes are formed in the upper portion of the spray head, and the spray head is sleeved on the upper portion of the drainage tube. The existence of the spray head sleeve can uniformly spray tea soup on tea leaves in the tea making container, so that the tea making speed is accelerated.

As the improvement of the proposal, the blade shaft is sleeved on the eccentric side of the upper surface of the heating disc; the position of the heating disc at the position of the blade shaft is provided with a positioning boss which is used as a drainage tube for concentric positioning, and the drainage blade chamber is sleeved on the positioning boss in a matching way. The motor, the blade shaft, the spiral blade and the drainage blade chamber form a water suction pump structure, and the spiral blade is directly sleeved on the blade shaft, so that the spiral blade can be detached and washed, and the cleaning is very convenient.

As an improvement of the scheme, observation holes for observing the condition of the tea soup container are arranged at two sides of the tea soup chamber of the teapot shell, a pot handle is arranged at the outer side of the tea soup chamber of the teapot shell, and a positioning groove is arranged at the top of the wall part of the tea soup chamber of the teapot shell; the top of the wall part of the tea soup container is provided with a positioning spout which protrudes outwards. Positioning groove and location hu zui match, and positioning groove both can let location hu zui stretch out from teapot casing upper portion side, still can provide the location for the tea-water container, when the teapot casing was placed to the tea-water container, ensures the driving magnet cover in the blade axle through this locate function.

As an improvement of the proposal, the upper half part of the steeping material container is provided with an outward convex ring edge, and the steeping material container is nested in the upper part of the tea soup container through the ring edge. As an improvement of the scheme, the motor is arranged in the control chamber; a kettle body positioning column protruding upwards is arranged in the middle of the teapot seat, and an electrical connection assembly is arranged in the kettle body positioning column; the control chamber is also provided with an electrical connecting piece which is matched and connected with the electrical connecting component of the kettle body positioning column.

The working principle of the scheme is explained, the driving magnet is skillfully driven to rotate by the motor, and the driven magnet is driven to rotate under the action of magnetic force, so that the rotation of the helical blade is realized, and the non-contact connection between the motor and the helical blade is realized through the magnetic force; the driving magnet and the driven magnet form magnetic coupling linkage. Can control the helical blade rotation through the control motor, set for heating temperature and the time of making tea through control panel, when the tea soup in the tea soup container reaches preset temperature, control system starter motor makes tea, helical blade is rotatory at the blade axle, the tea soup in the tea soup container is drawn water the action under the cooperation of drainage blade room, get into the drainage tube through the drainage hole with tea soup, the bubble material container that reentrant shower head got into the top and is equipped with tealeaves makes tea, tea flows from the circulation water hole of bubble material container, under the action of gravity, the tea soup container that flows back, then constantly circulate once more, a tea soup circulation system has been formed, time finishes until making tea.

From the above, the utility model discloses mainly have following advantage: the design is scientific, and the structure is compact; the non-contact connection between the motor and the helical blade is skillfully realized through magnetic force; other passive magnets of driving magnet form magnetic combination linkage, have realized that helical blade carries out initiative circulation water supply, effectively solve non-boiling state technical problem of making tea, combine control panel's the setting of parameter of making tea, can satisfy the technological demand that tea person's difference was made tea, realize making tea temperature and the time of making tea adjustable, it is very convenient to use.

Drawings

Fig. 1 is a block diagram of the system structure of the present invention.

Fig. 2 is a perspective view of the tea brewing assembly system.

Fig. 3 is a cross-sectional view of fig. 2.

Fig. 4 is a schematic view of the circulation of the tea soup during the tea making process of the present invention.

Fig. 5 is an exploded view of fig. 2.

Fig. 6 is a partially enlarged view of fig. 5.

The reference numbers illustrate: 1-a tea making component system, 2-a tea making control system, 3-a control panel, 100-a teapot shell, 101-a control chamber, 102-a tea soup chamber, 103-an observation hole, 104-a teapot handle and 105-a positioning groove; 200-a teapot seat, 201-a teapot body positioning column and 202-an electrical connection component; 300-tea soup container, 301-positioning pot mouth; 400-heating disc, 401-motor, 402-helical blade, 403-drainage tube, 404-driving magnet, 405-driven magnet, 406-blade shaft, 407-drainage hole, 408-drainage blade chamber, 409-blind hole and 410-positioning boss; 500-material soaking container, 501-spray header, 502-spray hole, 503-circular drainage hole, 504-circular water hole and 505-circular edge; 600-pot lid.

Detailed Description

The present invention and its advantageous technical effects are further described in detail below with reference to the accompanying drawings and preferred embodiments.

Example 1:

referring to fig. 1, a novel tea making system includes a tea making assembly system 1 for making tea and a tea making control system 2 for controlling the tea making assembly system 1 to perform a tea making process; the tea making control system 2 comprises a motor and a control panel 3 for setting tea making parameters, and the motor 401 is electrically connected with the control panel 3; it is characterized in that the preparation method is characterized in that,

referring to fig. 2 to 6, the tea making assembly system 1 includes a teapot holder 200, a teapot housing 100, a tea soup container 300 for holding tea, a heating plate 400, a tea material container 500 for holding tea, and a pot lid 600; the kettle cover 600 is arranged at the top of the material soaking container 500;

referring to fig. 3, the teapot housing 100 is disposed on a teapot holder 200; the teapot shell 100 is divided into an upper part and a lower part which are respectively a control room 101 and a tea soup room 102; the tea soup container 300 is arranged in the tea soup chamber 102, the heating plate 400 is hermetically arranged at the bottom of the tea soup container 300, and the heating plate 400 is electrically connected with the control panel 3; the material soaking container 500 is nested at the upper part of the tea soup container 300;

referring to fig. 3 to 5, a motor 401 is arranged below a heating plate 400, an output shaft of the motor 401 upwardly penetrates through the heating plate 400 and extends into a tea soup chamber 102, and an end of the output shaft of the motor 401 is provided with a driving magnet 404; the upper surface of the heating plate 400 is provided with a blade shaft 406 with a hollow interior, and the driving magnet 404 is sleeved in the hollow interior of the blade shaft 406; a rotatable helical blade 402 is arranged on the blade shaft 406, a blind hole 409 with a downward opening is formed in the helical blade 402, and the helical blade 402 is rotatably sleeved on the blade shaft 406 from top to bottom through the blind hole 409; a passive magnet 405 is arranged in the side wall of the blind hole 409 at the bottom of the spiral blade 402, and the positions of the active magnet 404 and the passive magnet 405 are transversely opposite to form a magnetic coupling linkage structure;

referring to fig. 5-6, a circulation drainage hole 503 is formed at the bottom of the material soaking container 500, a drainage tube 403 is arranged between the material soaking container 500 and the tea soup container 300, a drainage blade chamber 408 which expands towards the peripheral side is formed at the bottom of the drainage tube 403, a drainage hole 407 is formed in the wall of the drainage blade chamber 408, and the whole spiral blade 402 is sleeved in the drainage blade chamber 408; the wall of the material soaking container 500 is provided with a circulating water hole 504; the upper end of the drainage tube 403 passes through the circulating drainage hole 503 at the bottom of the soaking material container 500 and extends upwards from the bottom of the soaking material container 500 to communicate the tea soup container 300 with the soaking material container 500.

Referring to fig. 3 to 6, the blade shaft 406 is fitted over the eccentric side of the upper surface of the heat generating plate 400; the heating plate 400 is provided with a positioning boss 410 which is used as a concentric positioning of the drainage tube 403 at the position of the blade shaft 406, and the drainage blade chamber 408 is fittingly sleeved on the positioning boss 410.

Referring to fig. 2 and 6, observation holes 103 for observing the condition of the tea soup container 300 are arranged on two sides of the tea soup chamber 102 of the teapot shell 100, a pot handle 104 is arranged on the outer side of the tea soup chamber 102 of the teapot shell 100, and a positioning groove 105 is arranged on the top of the wall part of the tea soup chamber 102 of the teapot shell 100; the top of the wall of the tea soup container 300 is provided with a positioning spout 301 which protrudes outwards.

Referring to fig. 3 to 6, the upper half of the infusion container 500 has an outwardly protruding rim 505, and the infusion container 500 is nested in the upper part of the tea soup container 300 by the rim 505.

Referring to fig. 6, a motor 401 is provided in the control room 101; a kettle body positioning column 201 protruding upwards is arranged in the middle of the teapot seat 200, and an electrical connection assembly 202 is arranged in the kettle body positioning column 201; the control room 101 is also provided with an electrical connection component 202 which is matched and connected with the kettle body positioning column 201.

Example 2:

referring to fig. 2 and 6, the present embodiment is substantially the same as embodiment 1, except that in the present embodiment, in order to uniformly spray the tea soup on the tea leaves in the material brewing container 500 and accelerate the tea brewing speed, a spray header 501 is arranged inside the material brewing container 500, a spray hole 502 is arranged at the upper part of the spray header 501, and the spray header 501 is sleeved on the upper part of the drainage tube 403.

The invention is not limited to the embodiments disclosed and described above, but rather, modifications and variations of the invention are possible within the scope of the invention as defined in the claims.

Claims

1. A novel tea making system comprises a tea making component system (1) for making tea and a tea making control system (2) for controlling the tea making component system (1) to perform a tea making process; the tea making control system (2) comprises a motor and a control panel (3) for setting tea making parameters, and the motor (401) is electrically connected with the control panel (3); it is characterized in that the preparation method is characterized in that,

the tea making assembly system (1) comprises a teapot seat (200), a teapot shell (100), a tea soup container (300) for containing tea, a heating disc (400), a tea making container (500) for containing tea and a pot cover (600); the kettle cover (600) is arranged at the top of the material soaking container (500);

the teapot shell (100) is arranged on the teapot seat (200); the teapot shell (100) is divided into an upper part and a lower part which are respectively a control room (101) and a tea soup room (102); the tea soup container (300) is arranged in the tea soup chamber (102), the heating plate (400) is hermetically arranged at the bottom of the tea soup container (300), and the heating plate (400) is electrically connected with the control panel (3); the material soaking container (500) is nested at the upper part of the tea soup container (300);

the motor (401) is arranged below the heating disc (400), an output shaft of the motor (401) upwards penetrates through the heating disc (400) and extends into the tea soup chamber (102), and a driving magnet (404) is arranged at the end part of the output shaft of the motor (401); the upper surface of the heating plate (400) is provided with a blade shaft (406) with a hollow interior, and the driving magnet (404) is sleeved in the hollow interior of the blade shaft (406); a rotatable spiral blade (402) is arranged on the blade shaft (406), a blind hole (409) with a downward opening is formed in the spiral blade (402), and the spiral blade (402) is rotatably sleeved on the blade shaft (406) from top to bottom through the blind hole (409); a passive magnet (405) is arranged in the side wall of the blind hole (409) at the bottom of the spiral blade (402), and the positions of the active magnet (404) and the passive magnet (405) are transversely opposite to form a magnetic coupling linkage structure;

the bottom of the material soaking container (500) is provided with a circulating drainage hole (503), a drainage tube (403) is arranged between the material soaking container (500) and the tea soup container (300), the bottom of the drainage tube (403) is provided with a drainage blade chamber (408) which expands towards the peripheral side, the wall part of the drainage blade chamber (408) is provided with a drainage hole (407), and the whole spiral blade (402) is sleeved in the drainage blade chamber (408); the wall part of the material soaking container (500) is provided with a circulating water hole (504); the upper end of the drainage tube (403) penetrates through a circulating drainage hole (503) at the bottom of the soaking material container (500) and extends upwards from the bottom of the soaking material container (500) to communicate the tea soup container (300) with the soaking material container (500).

2. The novel tea brewing system as set forth in claim 1, wherein: a spray head (501) is arranged in the material soaking container (500), a spray hole (502) is formed in the upper portion of the spray head (501), and the spray head (501) is sleeved on the upper portion of the drainage pipe (403).

3. A novel tea brewing system as claimed in claim 1 or 2, characterized in that: the blade shaft (406) is sleeved on the eccentric side of the upper surface of the heating plate (400); a positioning boss (410) which is used as a concentric positioning of the drainage tube (403) is arranged at the position of the blade shaft (406) of the heating plate (400), and the drainage blade chamber (408) is sleeved on the positioning boss (410) in a matching manner.

4. The novel tea brewing system as set forth in claim 3, wherein: observation holes (103) for observing the condition of the tea soup container (300) are formed in two sides of the tea soup chamber (102) of the teapot shell (100), a pot handle (104) is arranged on the outer side of the tea soup chamber (102) of the teapot shell (100), and a positioning groove (105) is formed in the top of the wall part of the tea soup chamber (102) of the teapot shell (100); the top of the wall part of the tea soup container (300) is provided with a positioning spout (301) which protrudes outwards.

5. The novel tea brewing system as set forth in claim 4, wherein: the upper half part of the soaking material container (500) is provided with an outward convex annular edge (505), and the soaking material container (500) is nested on the upper part of the tea soup container (300) through the annular edge (505).

6. The novel tea brewing system as set forth in claim 5, wherein: the motor (401) is arranged in the control room (101); a kettle body positioning column (201) which protrudes upwards is arranged in the middle of the teapot seat (200), and an electrical connection assembly (202) is arranged in the kettle body positioning column (201); the control room (101) is also provided with an electrical connecting piece which is matched and connected with the electrical connecting component (202) of the kettle body positioning column (201).