CN108523678B - Intelligent tea set kit capable of automatically adding water and pouring tea - Google Patents

Abstract

The invention discloses an intelligent tea set kit for automatically adding water and pouring tea, which comprises a tea tray, a kettle kit arranged on the right side of the tea tray, a teacup turntable rotationally arranged on the left side of the tea tray, a plurality of tea cups adsorbed on the teacup turntable through magnetic force, and a teapot arranged on the tea tray and positioned between the kettle kit and the teacup turntable, wherein the teapot is connected with the tea tray through a connecting rod; the water boiling kettle kit comprises a water boiling kettle; the lower part of the side wall of the kettle is connected with a water outlet pipe, and the water outlet of the water outlet pipe faces to the right lower part; the teapot comprises a teapot seat inserted on the teapot mounting seat, a teapot body arranged at the upper end of the teapot seat and a teapot cover arranged at the upper end of the teapot body; a water filling port for filling boiled water is formed on the teapot cover; the bottom surface of the teapot body is provided with a tea outlet, and a lower valve plate which is driven by a tea outlet electromagnet to control the opening and closing of the tea outlet is rotatably arranged on the teapot seat. The tea cup rotating motor is arranged to drive the tea cup rotating disc to rotate, and the opening and closing of the lower valve plate are controlled through the tea discharging electromagnet, so that tea in the teapot can be automatically poured into each tea cup on the tea cup rotating disc.

Description

Intelligent tea set kit capable of automatically adding water and pouring tea

Technical Field

The invention belongs to the field of household appliances, and particularly relates to an intelligent tea set kit capable of automatically adding water and pouring tea.

Background

Chinese patent document No. CN202128226U discloses a combined tea set, which mainly comprises a water storage container, a control device and a tea set base, wherein the water storage container is arranged at the upper end of the control device, and the control device is fastened on the tea set base; the control device is in an inverted horn shape, the water storage container is movably arranged at the large-opening end of the control device, the small-opening end of the control device is fastened with the tea set base into a whole, a valve plate is further arranged at the small-opening end of the control device, a water guide hole is further arranged in the control device, and a water outlet is further arranged on the tea set base and corresponds to the water guide hole opening at the small-opening end in the control device; the utility model discloses novel structure, the sight is strong, utilizes the utility model discloses when the structure steeps tea, its whole process is simple, swift, convenient, is difficult to be scalded by boiling water.

The scheme of the patent simplifies the tea making process and is safer and more ornamental, and the popularization of the tea set also reflects that people have higher acceptance of products with new functions and new forms, so that the tea set which is more convenient to design, manufacture and use, safer and more intelligent is commonly pursued by technical personnel in the field.

In addition, the latest type kettle matched with tea sets on the market is provided with a water inlet connector in the middle of a power supply seat on a base, and the water inlet connector with a one-way valve is arranged at the bottom of the kettle, so that water can be directly pumped into the kettle from a water bucket through the kettle bottom, a structure that a faucet is arranged above the base is omitted, and the use by a user is facilitated.

However, the water boiling kettle still has the improvement, for example, the water boiling kettle has the room for further improvement on the water outlet mode, and for example, the disinfection pot only supports the high-temperature disinfection of the tea cup and the tea pot by heating the water to boil, but has no effect on the simple heating of the tea stain which makes the tea set yellow.

On the other hand, ozone has the functions of sterilization, disinfection and colored stain removal due to the strong oxidizing property, but the existing ozone generator generally discharges ozone into water for disinfection by matching with an air pump and a gas stone, but ozone overflowing from water can cause harm to the respiratory system of people, and the application range of the ozone generator is limited.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects existing in the prior art, the teathings suite with ingenious structural design, convenient use and rich functions is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: the utility model provides an automatic add intelligent teathings external member of water pouring, its characterized in that: the tea pot comprises a tea tray which is integrally in a cuboid shape, a teakettle external member which is arranged on the right side of the tea tray, a teacup rotating disc which is rotatably arranged on the left side of the tea tray, a plurality of teacups which are adsorbed on the teacup rotating disc through magnetic force, and a teapot which is arranged on the tea tray and is positioned between the teakettle external member and the teacup rotating disc;

the kettle kit comprises a base, a kettle and a sterilizing pan;

a water outlet pipe is integrally connected to the lower part of the side wall of the kettle, and a water outlet of the water outlet pipe faces to the right lower part; one side of the side wall of the kettle, which is far away from the water outlet pipe, is connected with a handle; the teapot is positioned below the water outlet pipe;

a teapot external member positioning seat for positioning the teapot external member is formed on the right side of the tea tray, and a teapot mounting seat for positioning the teapot in the shape of a circular groove is formed on the tea tray close to the left side of the teapot;

the teapot comprises a teapot seat inserted on the teapot mounting seat, a teapot body arranged at the upper end of the teapot seat and a teapot cover arranged at the upper end of the teapot body;

a water filling port for filling boiled water into the teapot from a water outlet pipe of the teapot is formed on the teapot cover;

a tea outlet is formed in the center of the bottom surface of the kettle body, and more than two insertion columns are formed at the position, close to the periphery, of the bottom surface of the kettle body; the upper end surface of the teapot seat is provided with insertion holes which are inserted with the insertion columns;

a tea outlet plate accommodating groove is formed in the upper end of the teapot seat along the extension line direction of the diameter of the teacup rotating disc, and a tea outlet plate is rotatably arranged on one side, far away from the teacup rotating disc, of the teapot seat in the tea outlet plate accommodating groove;

a tea outlet groove is formed in the upper end of the tea outlet plate along the length direction, and a lower valve plate capable of plugging the lower end of the tea outlet hole is fixedly connected to the upper end of the tea outlet groove; the front end of the tea discharging plate extends to the upper part of the circumference of each magnetic conduction block, the rear end of the tea discharging plate extends out of the teapot seat, and the lower surface of the rear end of the tea discharging plate is fixedly connected with a tea discharging magnet a;

a longitudinally arranged tea discharging electromagnet is fixedly arranged at the top in the tea tray and right below the tea discharging magnet a, and an iron core of the tea discharging electromagnet extends upwards to be close to the lower end of the tea discharging magnet a; an iron core through hole for the iron core to pass through is formed in the tea tray;

when the tea-discharging electromagnet is not electrified, the tea-discharging magnet a and the iron core of the tea-discharging electromagnet are attracted tightly, so that the lower valve plate blocks the tea-discharging hole; when the tea discharging electromagnet is in a power-on state, the tea discharging magnet a is repelled with the iron core of the tea discharging electromagnet, so that the lower valve plate is separated from the tea discharging hole to conduct the tea discharging hole, and the lower surface of the front end of the tea discharging plate is abutted against the edge of the bottom of the tea discharging plate accommodating groove;

the teapot seat is rotationally connected with the tea discharging plate through a connecting pin, and a pin hole a for the connecting pin to penetrate through is formed in the teapot seat; a pin hole b which is rotationally connected with the connecting pin is formed at the rear part of the tea discharging plate;

a water collecting tank is formed at the upper end of the left side of the tea tray, a turntable mounting column extending upwards is formed in the middle of the inner bottom of the water collecting tank, and the tea cup turntable is rotatably mounted on the turntable mounting column;

the teacup rotary table comprises a circular table body, a handle fixedly connected to the middle of the upper end of the table body, a plurality of overall L-shaped magnetic conduction blocks fixedly connected to the periphery of the table body at equal intervals, and an annular driven sleeve integrally connected to the middle of the lower end of the table body;

the driven sleeve is rotatably sleeved on the outer wall of the upper part of the turntable mounting column, and a plurality of turntable magnets a are equidistantly connected to the driven sleeve along the circumferential direction; a teacup rotating motor with an output shaft vertically upward is fixedly installed in the turntable installation column, a teacup driving turntable is fixedly connected to the output shaft of the teacup rotating motor, and a turntable magnet b which is matched with each turntable magnet a through magnetic force so as to drive the teacup turntable to rotate is fixedly connected to the outer wall of the teacup driving turntable;

the bottom of the teacup is fixedly connected with a fixed magnet which is tightly attracted with the magnetic conducting block through magnetic force; a Hall sensor c is arranged on the outer wall of the water collecting tank in the tea tray; when the magnetic conduction block with the tea cup placed above passes through the position of the Hall sensor c, the Hall sensor c detects a signal;

the tea tray is internally provided with a controller, the Hall sensor c is electrically connected with a signal input end of the controller, and the teacup rotating motor and the tea outlet electromagnet are electrically connected with an output end of the controller.

As a preferable scheme: an upper convex ring is formed on the periphery of the bottom in the kettle body, and a filter screen made of stainless steel is arranged at the upper end of the upper convex ring in the kettle body.

As a preferable scheme: and a plurality of water drainage holes which are communicated up and down are formed in an annular area between the magnetic conduction block and the driven sleeve on the disk body.

As a preferable scheme: a step part which is connected with the periphery of the lower end of the teacup rotary disc in a sliding way is formed on the tea tray and positioned at the periphery of the upper end of the water collecting tank; a support column which is abutted against the step part is formed on the periphery of the lower end of the teacup rotary disc; liquid passing seams for tea water to flow into the water collecting tank are formed between the inner wall of the water collecting tank and the outer wall of the teacup rotary table and between the support columns and the step parts.

As a preferable scheme: the inner wall of the water collecting tank is of a tank body structure with a wide upper part and a narrow lower part, the lower end of the water collecting tank is connected with a drain pipe, and the drain pipe penetrates out of the side wall of the tea tray; the lower end of the tea tray is connected with a bottom cover.

As a preferable scheme: the upper end of the base of the kettle kit is provided with a power supply seat a for supplying power to the kettle and a power supply seat b for supplying power to the disinfection pot; the power supply seats a and b are provided with power supply electrodes which are arranged in concentric circles, and the middles of the power supply seats a and b are connected with water inlet connectors; the bottom parts of the kettle and the disinfection pot are provided with water inlet connectors which are hermetically sleeved with the water inlet connectors, and one-way valves which are communicated in one way from bottom to top are arranged in the water inlet connectors;

the upper end of the sterilizing pot is provided with a pot cover, a partition plate is longitudinally arranged in the sterilizing pot, one side of the partition plate in the sterilizing pot is a water containing part, and the other side of the partition plate in the sterilizing pot is an air return part; an exhaust hole is formed in the bottom of the air return part, the bottom of the disinfection pot is connected with two sealing rings a which are arranged concentrically, and the exhaust hole is positioned in a space between the two sealing rings a; after the sterilizing pot is arranged on the power supply seat b, the sealing ring a is in sealing connection with the upper end surface of the base;

an exhaust groove is formed in a space between the two sealing rings a at the upper end of the base, an exhaust joint is connected to the base in the exhaust groove, and the exhaust joint is connected with a pipeline e;

a diaphragm pump and an ozone generating pipe are arranged in the base;

the outlet end of the diaphragm pump is respectively connected with the water inlet connectors below the kettle and the disinfection pot through a pipeline a and a pipeline b, a third electromagnetic valve is connected in series on the pipeline a leading to the kettle, and a fourth electromagnetic valve is connected in series on the pipeline b leading to the disinfection pot;

the inlet end of the diaphragm pump is connected with a water barrel joint inserted in a barrel opening at the upper end of the water barrel through a pipeline c and a pipeline d;

the bucket joint comprises a lower joint body and an upper joint body fixedly connected to the upper end of the lower joint body, and a space between the lower joint body and the upper joint body is filled with a water-absorbing resin ball;

the lower joint body comprises a conical insertion part with a wide upper part and a narrow lower part and a supporting part integrally connected to the upper end of the insertion part, and the outer diameter of the supporting part is larger than that of the upper end part of the insertion part; air holes are uniformly formed on the inner bottom surface of the lower joint body; a water pumping pipe and an air return pipe are integrally connected to the bottom in the lower joint body, the upper ends of the water pumping pipe and the air return pipe extend to the upper part in the lower joint body, and the lower end of the water pumping pipe extends to the bottom in the bucket;

a water pumping joint, an air suction joint and an air return joint are integrally formed at the upper end of the upper joint body, the lower end of the water pumping joint is hermetically connected with the upper end of a water pumping pipe, the lower end of the air return joint is hermetically connected with the upper end of an air return pipe, and the air suction joint is communicated with the upper part in the lower joint body;

the pipeline c is connected with a water pumping joint, and a first electromagnetic valve is connected on the pipeline c in series; the pipeline d is connected with the air suction joint, and a second electromagnetic valve is connected on the pipeline d in series; the pipeline e is connected with an air return joint;

the ozone generating pipe is connected between the air suction joint on the pipeline d and the second electromagnetic valve;

the ozone generator is characterized in that a control circuit board is installed in the base, and the power supply seat a, the power supply seat b, the ozone generating tube, the first electromagnetic valve, the second electromagnetic valve, the third electromagnetic valve and the fourth electromagnetic valve are electrically connected with the control circuit board respectively.

As a preferable scheme: the upper end of the kettle is detachably screwed with a kettle cover, the lower end of the kettle cover is integrally connected with a longitudinally arranged exhaust valve pipe, a valve rod is slidably mounted in the exhaust valve pipe, the lower end of the exhaust valve pipe is fixedly connected with a valve pipe sealing cover, the lower end of the valve rod is connected with a magnetic conductive steel sheet, and a spring used for pushing the valve rod upwards is mounted between the lower end of the valve rod and the upper end of the valve pipe sealing cover; a positioning wall for limiting the upward separation of the upper end of the valve rod is formed at the top of the valve pipe;

an air vent a is formed in the side wall of the upper part of the valve pipe, and an L-shaped air vent b communicated with the air vent a is formed in the upper part of the valve rod; when the valve rod moves downwards to the limit position, the side wall at the top of the valve rod seals the vent hole a;

a magnet a is mounted at one side, close to the water outlet pipe, of the bottom of the water boiling kettle, and a Hall sensor for judging the position of the water outlet pipe by detecting the position of the magnet a is mounted at the left side in the base;

a magnetic steel column is mounted at one side of the bottom of the kettle, which is close to the handle, and an electromagnet for magnetizing the magnetic steel column and the magnetic steel sheet is mounted in the base;

the magnetic steel column and the magnetic steel sheet attract each other after being magnetized, and the valve rod is pulled downwards to seal the air vent a;

the Hall sensor and the electromagnet are respectively and electrically connected with the control circuit board.

As a preferable scheme: the controller is electrically connected with the control circuit board in a communication mode through conduction or through radio.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the tea cup rotating motor is arranged to drive the tea cup rotating disc to rotate, and the opening and closing of the lower valve plate are controlled by the tea discharging electromagnet, so that tea in the teapot can be automatically poured into each tea cup on the tea cup rotating disc.

Specifically, when the rear end of the tea discharging plate is pushed upwards by the tea discharging electromagnet through magnetic field repulsion, on one hand, the lower valve plate is separated from the lower end of the tea discharging hole to enable tea soup to flow downwards to the tea discharging groove, and meanwhile, the lifting front end of the rear end of the tea discharging plate is lowered, so that the tea soup can flow into the tea cup at a higher speed.

In addition, the fixed magnet at the bottom of the tea cup is used for positioning the tea cup on the tea cup rotating disc, on the one hand, the fixed magnet can magnetize the magnetic conduction block, before the tea is poured into the teapot, the tea cup rotating disc can be controlled to rotate for a circle through the tea cup rotating motor, the quantity and the position of the tea cups on the tea cup rotating disc can be detected through the Hall sensor c, and therefore the quantity of water added into the teapot by the teapot can be calculated.

In addition, the teacup rotary disc and the teacup rotating motor are driven by magnetic force, so that the teacup rotary disc can be conveniently detached, and the water collection tank can be conveniently cleaned.

The diaphragm pump of the kettle kit can be matched with an electromagnetic valve to pump water, air or ozone gas into the kettle and the sterilizing pan.

When ozone disinfection is needed in the disinfection pot, the diaphragm pump and the ozone generating pipe work simultaneously to enable ozone gas to enter the disinfection pot, and tea sets in the disinfection pot are disinfected and stains are removed.

When the kettle needs to realize automatic water outlet, after the vent hole a on the kettle cover is sealed by the electromagnet, the diaphragm pump leads air into the kettle to increase the air pressure in the kettle so as to lead water to flow out from the water outlet pipe, thereby realizing automatic water outlet.

Therefore, the diaphragm pump provided by the invention is matched with four electromagnetic valves, the ozone generating pipe and the electromagnet to realize multiple functions of water inlet, water outlet and ozone inlet disinfection.

Furthermore, in order to prevent ozone from overflowing into the air to damage the respiratory system of a human body, the invention enables a small part of space on one side of the partition board in the disinfection pot to form an air return part by arranging the partition board in the disinfection pot, ozone gas entering the disinfection pot flows back to the space at the upper part in the bucket through the air return part, the exhaust hole, the exhaust groove, the exhaust joint, the pipeline e, the air return joint and the air return pipe, so that the ozone circulates between the disinfection pot and the bucket before being thoroughly decomposed, as long as the relatively closed state between the bucket joint and the bucket is ensured (the closed state is not equal to sealing, for example, when air is pumped into a diaphragm pump kettle, the air can enter the bucket through a gap between the bucket joint and a bucket opening), most of the ozone gas cannot be diffused into the air.

In addition, when the kettle is used for boiling water, the boiled water is poured into the teapot, so that the position of a water outlet pipe of the kettle needs to be confirmed, and water can be discharged only if the position of the water outlet pipe is correct. The event is at kettle bottom installation magnet an, and the location of kettle outlet pipe is realized to installation hall sensor in the base, after the position of outlet pipe is confirmed, thereby it makes the magnetization of magnetic conduction steel column and then attracts the magnetization of magnetic conduction steel sheet to make magnetic conduction steel sheet and magnetic conduction steel column inhale tightly each other through the electro-magnet messenger magnetic conduction steel column magnetization to make valve rod compression spring move down, and then make valve rod top lateral wall with blow vent a shutoff, further go into the air through the diaphragm pump in to the kettle and make the kettle internal gas pressure increase, thereby make the boiling water flow out from the outlet pipe.

In addition, the water inlet joint at the bottom of the sterilizing pot is used for water inlet and air inlet at the same time, but when ozone is used for sterilizing, in order to enable the ozone to be in full contact with the water in the sterilizing pot, the upper end of the water inlet joint of the sterilizing pot is connected with the water inlet cover, and on the basis of ensuring that the water can be fed at a normal speed, the ozone gas entering the sterilizing pot can be in full contact with the water in the sterilizing pot to increase the solubility.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic exploded view of the present invention.

Fig. 3 is a sectional structure schematic view of the tea tray portion.

FIG. 4 is a schematic view of the connection structure of the cup rotating plate, the cup and the cup rotating motor.

Fig. 5 is a schematic exploded view of the teapot portion.

Fig. 6 is a connection block diagram of main components in the kettle kit.

Fig. 7 is a schematic view of the structure of the base portion.

Fig. 8 is a schematic view of the structure inside the base.

Fig. 9 is a schematic sectional view of the water boiling kettle.

Fig. 10 is a schematic view of the structure of the bottom of the kettle.

Fig. 11 is a schematic structural view of a pot lid portion.

Fig. 12 is a sectional structure view of the sterilizing pan.

Fig. 13 is a schematic structural view of the bottom of the sterilizing pan.

Fig. 14 is an exploded view of the sterilizer.

Fig. 15 is a schematic view of an installation structure of a water tub joint.

Fig. 16 is an exploded view of the water tub joint.

Fig. 17 is an exploded view of the intake cover in a cross-sectional view.

Fig. 18 is a schematic structural view of the upper cover.

In the figure: p, a kettle set; 1. a base; 11. an upper housing; 110. a lower housing; 111. a power supply seat a; 112. a power supply base b; 113. an exhaust groove; 114. an exhaust joint; 115. a pipe joint group; 12. an electromagnet; 13. a diaphragm pump; 14. an ozone generating tube; 15. a Hall sensor; 2. a kettle; 20. a handle; 21. a water outlet pipe; 22. a pot lid; 221. a kettle lid handle; 222. an exhaust valve tube; 2221. a vent port a; 223. A valve stem; 2231. a vent b; 224. a spring; 225. sealing the valve pipe; 226. a magnetic conductive steel sheet; 23. a magnetic steel column; 24. a magnet a; 3. sterilizing the pan; 3a, a partition plate; 301. an exhaust hole; 302. a sealing ring a; 31. a pot cover; 32. a water inlet cover; 321. a lower plate body; 3211. an upper convex ring; 3212. an upper raised head; 3213. a connecting bayonet; 322. an upper cover body; 3220. a gas emission plate; 3221. venting; 3222. a hollow floating ring; 3223. sleeving a connecting ring; 3224. a water outlet hole; 3225. a seal ring b; 3226. connecting a chuck; 4. a bucket joint; 41. a lower adapter body; 41a, a support portion; 41b, a plug part; 411. air holes are formed; 412. a water pumping pipe; 413. an air return pipe; 42. an upper joint body; 421. a water pumping joint; 422. a suction connection; 423. a gas return joint; 431. a first solenoid valve; 432. a second solenoid valve; 433. a third electromagnetic valve; 434. a fourth solenoid valve; 40. a water bucket; 51. a tea tray; 510. a bottom cover; 511. a water collection tank; 5111. a step portion; 512. a turntable mounting post; 513. a teapot mounting seat; 515. a positioning seat of the kettle sleeve; 516. a Hall sensor c; 517. punching an iron core; 52. a teacup rotating disc; 521. a handle; 522. a magnetic conduction block; 523. a drain hole; 524. a driven sleeve; 53. a teacup; 531. fixing a magnet; 54. a teapot; 541. a teapot base; 5411. a tea outlet plate containing groove; 5412. a pin hole a; 5413. inserting holes; 542. a tea discharging plate; 5421. discharging from the tea tank; 5422. a pin hole b; 5423. a lower valve plate; 5424. a tea outlet magnet a; 543. a kettle body; 5431. an upper convex ring; 5432. tea outlet holes; 5433. inserting the column; 544. a filter screen; 545. a teapot cover; 5451. a water injection port; 546. a connecting pin; 55. a teacup rotating motor; 551. a teacup driving turntable; 56. an electromagnet for discharging tea; 57. and a water discharge pipe.

Detailed Description

Example 1

Referring to fig. 1 to 5, the present embodiment is an intelligent tea set for automatically adding water and pouring tea, which includes a tea tray 51 integrally formed in a rectangular parallelepiped shape, a kettle set P installed on the right side of the tea tray, a cup turntable 52 rotatably installed on the left side of the tea tray, a plurality of tea cups 53 adsorbed on the cup turntable by magnetic force, and a tea pot 54 installed on the tea tray and located between the kettle set and the cup turntable.

The kettle kit comprises a base 1, a kettle 2 and a disinfection pot 3.

A water outlet pipe 21 is integrally connected to the lower part of the side wall of the kettle, and the water outlet of the water outlet pipe faces to the right lower part; one side of the side wall of the kettle, which is far away from the water outlet pipe, is connected with a handle 20; the teapot is positioned below the water outlet pipe.

The shaping of tea tray right side has and is used for the location kettle external member positioning seat 515 of kettle external member, be close to the shaping of the left position of kettle on the tea tray and be used for the location the teapot mount pad 513 of the circular trough shape of teapot.

The teapot comprises a teapot seat 541 inserted on the teapot mounting seat, a teapot body 543 arranged at the upper end of the teapot seat and a teapot cover 545 arranged at the upper end of the teapot body.

The teapot cover is provided with a water filling port 5451 for a water outlet pipe of the teapot to fill boiled water into the teapot.

A tea outlet 5432 is formed in the center of the bottom surface of the pot body, and more than two insertion columns 5433 are formed at the position, close to the periphery, of the bottom surface of the pot body; the upper end surface of the teapot seat is provided with insertion holes 5413 which are inserted with the insertion columns.

A tea plate accommodating groove 5411 is formed in the upper end of the teapot seat along the extension line direction of the diameter of the teacup rotating disc, and a tea plate 542 is rotatably arranged on one side, far away from the teacup rotating disc, of the teapot seat in the tea plate accommodating groove.

A tea outlet groove 5421 is formed in the upper end of the tea outlet plate along the length direction, and a lower valve plate 5423 capable of plugging the lower end of the tea outlet hole is fixedly connected to the upper end of the tea outlet groove; the tea outlet plate is characterized in that the front end of the tea outlet plate extends to the upper part of the circumference where each magnetic conduction block is located, the rear end of the tea outlet plate extends out of the teapot seat, and a tea outlet magnet a5424 is fixedly connected to the lower surface of the rear end of the tea outlet plate.

A longitudinally arranged tea discharging electromagnet 56 is fixedly arranged at the top in the tea tray and right below the tea discharging magnet a, and an iron core of the tea discharging electromagnet extends upwards to be close to the lower end of the tea discharging magnet a; an iron core through hole 517 for the iron core to pass through is formed in the tea tray.

When the tea-discharging electromagnet is not electrified, the tea-discharging magnet a and the iron core of the tea-discharging electromagnet are attracted tightly, so that the lower valve plate blocks the tea-discharging hole; when the tea outlet electromagnet is in a power-on state, the tea outlet magnet a and the iron core of the tea outlet electromagnet repel each other to enable the lower valve plate to be separated from the tea outlet hole to enable the tea outlet hole to be conducted, and the lower surface of the front end of the tea outlet plate abuts against the edge of the bottom of the tea outlet plate containing groove. The lower valve plate is a soft silica gel plate.

The teapot seat is rotationally connected with the tea discharging plate through a connecting pin 546, and a pin hole a5412 for the connecting pin to penetrate through is formed in the teapot seat; and a pin hole b5422 which is rotatably connected with the connecting pin is formed at the rear part of the tea outlet plate.

The tea tray is characterized in that a water collecting groove 511 is formed in the upper end of the left side of the tea tray, a rotary table mounting column 512 extending upwards is formed in the middle of the inner bottom of the water collecting groove, and the tea cup rotary table is rotatably mounted on the rotary table mounting column.

The teacup rotary plate comprises a circular plate body, a handle 521 fixedly connected to the middle of the upper end of the plate body, a plurality of overall L-shaped magnetic conduction blocks 522 fixedly connected to the periphery of the plate body at equal intervals, and an annular driven sleeve 524 integrally connected to the middle of the lower end of the plate body.

The driven sleeve is rotatably sleeved on the outer wall of the upper part of the turntable mounting column, and a plurality of turntable magnets a are equidistantly connected to the driven sleeve along the circumferential direction; a teacup rotating motor 55 with an upward vertical output shaft is fixedly arranged in the turntable mounting column, a teacup driving turntable 551 is fixedly connected to the output shaft of the teacup rotating motor, and a turntable magnet b which is matched with each turntable magnet a through magnetic force so as to drive the teacup turntable to rotate is fixedly connected to the outer wall of the teacup driving turntable.

The bottom of the teacup is fixedly connected with a fixed magnet 531 which is tightly attracted with the magnetic conducting block through magnetic force; a Hall sensor c516 is arranged on the outer wall of the water collecting tank in the tea tray; when the magnetic conduction block with the tea cup placed above passes through the position of the Hall sensor c, the Hall sensor c detects a signal because the fixed magnet magnetizes the magnetic conduction block.

The tea tray is internally provided with a controller, and the controller is based on a single chip microcomputer. The Hall sensor c is electrically connected with a signal input end of the controller, and the teacup rotating motor and the tea-discharging electromagnet are electrically connected with an output end of the controller.

An upper convex ring 5431 is formed on the periphery of the bottom in the kettle body, and a filter screen 544 made of stainless steel is arranged at the upper end of the upper convex ring in the kettle body.

A plurality of water drainage holes 523 which are communicated up and down are formed in the annular area between the magnetic conduction block and the driven sleeve on the disk body.

A step part 5111 which is in sliding connection with the periphery of the lower end of the teacup rotary disc is formed on the tea tray and positioned at the periphery of the upper end of the water collecting tank; and a support column which is abutted against the step part is formed on the periphery of the lower end of the teacup rotary disc. Liquid passing seams for tea water to flow into the water collecting tank are formed between the inner wall of the water collecting tank and the outer wall of the teacup rotary table and between the support columns and the step parts. When the residual tea water in the tea cup is poured onto the tea cup rotating disc, part of the tea water flows into the water collecting tank from a liquid passing seam between the tea cup rotating disc and the water collecting tank.

The inner wall of the water collecting tank is of a tank body structure with a wide upper part and a narrow lower part, the lower end of the water collecting tank is connected with a drain pipe 57, and the drain pipe penetrates out of the side wall of the tea tray; the lower end of the tea tray is connected with a bottom cover 510.

According to the invention, the tea cup rotating motor is arranged to drive the tea cup rotating disc to rotate, and the opening and closing of the lower valve plate are controlled by the tea discharging electromagnet, so that tea in the teapot can be automatically poured into each tea cup on the tea cup rotating disc.

Specifically, when the rear end of the tea discharging plate is pushed upwards by the tea discharging electromagnet through magnetic field repulsion, on one hand, the lower valve plate is separated from the lower end of the tea discharging hole to enable tea soup to flow downwards to the tea discharging groove, and meanwhile, the lifting front end of the rear end of the tea discharging plate is lowered, so that the tea soup can flow into the tea cup at a higher speed.

In addition, the fixed magnet at the bottom of the tea cup is used for positioning the tea cup on the tea cup rotating disc, on the one hand, the fixed magnet can magnetize the magnetic conduction block, before the tea is poured into the teapot, the tea cup rotating disc can be controlled to rotate for a circle through the tea cup rotating motor, the quantity and the position of the tea cups on the tea cup rotating disc can be detected through the Hall sensor c, and therefore the quantity of water added into the teapot by the teapot can be calculated.

In addition, the teacup rotary disc and the teacup rotating motor are driven by magnetic force, so that the teacup rotary disc can be conveniently detached, and the water collection tank can be conveniently cleaned.

Example 2

With reference to fig. 6 to 16, the present embodiment is modified from embodiment 1 as follows: the upper end of the base of the kettle kit is provided with a power supply seat a111 for supplying power to the kettle and a power supply seat b112 for supplying power to the disinfection pot; the power supply seats a and b are provided with power supply electrodes which are arranged in concentric circles, and the middles of the power supply seats a and b are connected with water inlet connectors; the bottom of kettle, disinfection pot installs the water supply connector who cup joints with the water supply connector is sealed, install the check valve of one-way conduction from bottom to top in the water supply connector.

In the prior art, a heater and a temperature sensor are installed in a base of the kettle, and a power supply seat a usually comprises two power supply electrodes for supplying power to the heater and 2-3 electrodes connected with the temperature sensor at the bottom of the kettle. Correspondingly, the bottoms of the kettle and the disinfection pot are correspondingly provided with power receiving seats which are arranged in a concentric circle mode, and the water inlet joint is located in the middle of the power receiving seats. Since this part of the technology is common knowledge in the art, it is not described in detail herein.

The upper end of the sterilizing pot is provided with a pot cover 31, a partition plate 3a which is longitudinally arranged is formed in the sterilizing pot, one side of the partition plate in the sterilizing pot is a water containing part, and the other side of the partition plate in the sterilizing pot is an air return part; an exhaust hole 301 is formed in the bottom of the air return part, two sealing rings a302 which are arranged concentrically are connected to the bottom of the disinfection pot, and the exhaust hole is positioned in a space between the two sealing rings a; after the sterilizing pot is arranged on the power supply seat b, the sealing ring a is in sealing connection with the upper end face of the base.

An exhaust groove 113 is formed in the space between the two sealing rings a at the upper end of the base, an exhaust joint 114 is connected to the base in the exhaust groove, and the exhaust joint is connected with a pipeline e.

A diaphragm pump 13 and an ozone generating tube 14 are installed in the base.

The outlet end of the diaphragm pump is respectively connected with the water inlet connectors below the kettle and the disinfection pot through a pipeline a and a pipeline b, a third electromagnetic valve 433 is connected in series on the pipeline a leading to the kettle, and a fourth electromagnetic valve 434 is connected in series on the pipeline b leading to the disinfection pot.

The inlet end of the diaphragm pump is connected with a bucket joint 4 inserted into a bucket opening at the upper end of the bucket through a pipeline c and a pipeline d.

The cask connects including lower connector 41 and the last connector 42 of fixed connection in lower connector upper end, the space intussuseption between lower connector and the last connector is filled with water-absorbing resin ball. The water-absorbing resin ball is made of a high-molecular water-absorbing resin material, so that gas passing through the ozone generating pipe is dry, and the normal work of the ozone generating pipe is ensured.

The lower joint body comprises a conical insertion part 41b with a wide upper part and a narrow lower part and a supporting part 41a integrally connected to the upper end of the insertion part, and the outer diameter of the supporting part is larger than that of the upper end part of the insertion part; air holes 411 are uniformly formed on the inner bottom surface of the lower joint body; bottom an organic whole is connected with drinking-water pipe 412 and muffler 413 in the lower joint body, drinking-water pipe, muffler upper end extend to the internal upper portion of lower joint, the drinking-water pipe lower extreme extends to the bottom in the cask.

The part of the water pumping pipe below the bottom surface of the lower joint body can be a hose. The conical insertion part is convenient to insert into the bung hole, and the supporting part abuts against the upper end of the bung hole.

Go up joint body upper end integrated into one piece and have water pumping connector 421, suction connector 522 and return-air connector 423, water pumping connector lower extreme and drinking-water pipe upper end sealing connection, return-air connector lower extreme and return-air pipe upper end sealing connection, suction connector and lower joint body inner upper portion intercommunication.

The pipeline c is connected with a water pumping joint, and a first electromagnetic valve 431 is connected to the pipeline c in series; the pipeline d is connected with an air suction joint, and a second electromagnetic valve 432 is connected to the pipeline d in series; and the pipeline e is connected with an air return joint.

The ozone generating pipe is connected between the air suction joint on the pipeline d and the second electromagnetic valve.

The ozone generator is characterized in that a control circuit board is installed in the base, and the power supply seat a, the power supply seat b, the ozone generating tube, the first electromagnetic valve, the second electromagnetic valve, the third electromagnetic valve and the fourth electromagnetic valve are electrically connected with the control circuit board respectively.

The control circuit board can adopt a single chip microcomputer as a controller, the work of controlling the electromagnetic valve, the electromagnet, the heater, the ozone generating tube and the like by matching the single chip microcomputer with the relay is conventional technology in the prior art, the work can be easily realized by a person skilled in the art according to the functional description in the text, and the specific circuit control part is not the key point of the invention and is not described in the text.

A water outlet pipe 21 is integrally connected to the lower part of the side wall of the kettle, and the water outlet of the water outlet pipe faces to the right lower part; one side of the side wall of the kettle, which is far away from the water outlet pipe, is connected with a handle 20.

The upper end of the kettle is detachably screwed with a kettle cover 22, the lower end of the kettle cover is integrally connected with a longitudinally arranged exhaust valve pipe 222, a valve rod 223 is arranged in the exhaust valve pipe in a sliding mode, the lower end of the exhaust valve pipe is fixedly connected with a valve pipe sealing cover 225, the lower end of the valve rod is connected with a magnetic steel sheet 226, and a spring 224 used for pushing the valve rod upwards is arranged between the lower end of the valve rod and the upper end of the valve pipe sealing cover; and a positioning wall for limiting the upward separation of the upper end of the valve rod is formed at the top of the valve pipe.

The side wall of the upper part of the valve pipe is formed with an air vent a2221, and the upper part of the valve rod is formed with an L-shaped air vent b2231 communicated with the air vent a; when the valve rod moves downwards to the limit position, the side wall at the top of the valve rod seals the vent hole a.

Magnet a24 is installed to the bottom of kettle near outlet pipe one side, thereby the left side is installed through detecting the hall sensor 15 that magnet a position judged the outlet pipe position in the base.

And a magnetic steel column 23 is arranged at one side of the bottom of the kettle, which is close to the handle, and is positioned right below the magnetic steel sheet, and an electromagnet 12 for magnetizing the magnetic steel column and the magnetic steel sheet is arranged in the base. Specifically, after the electromagnet magnetizes the magnetic steel column, the magnetic steel column attracts the magnetic steel sheet.

And the magnetic steel column and the magnetic steel sheet attract each other after being magnetized, and the valve rod is pulled downwards to plug the air vent a.

The Hall sensor and the electromagnet are respectively and electrically connected with the control circuit board.

A rotary joint part is formed at the upper part of the inner wall of the kettle, and a convex strip which is matched and connected with the rotary joint part is formed on the outer wall of the kettle cover; a sealing ring a is sleeved on the outer wall of the kettle cover and is in sealing and abutting contact with the upper end of the kettle; the kettle cover handle is connected to the middle position of the upper end of the kettle cover and extends towards one side of the water outlet pipe. The handle is convenient for users to distinguish the direction of the kettle cover.

The base includes an upper housing 11 and a lower housing 110 connected to a lower end of the upper housing by screws.

And a pipe joint group 115 is arranged on the side wall of the upper shell and comprises three pipes which are respectively connected with a pipeline c, a pipeline d and a pipeline e in series.

The control circuit board comprises a step-up transformer, and the high-voltage output end of the step-up transformer is electrically connected with the ozone generating tube.

In addition, the control circuit board is electrically connected with the controller through a lead or through radio.

And a control key group is arranged at one side of the upper end of the base, which is close to the kettle, and the control key group is electrically connected with the control circuit board.

The control key group comprises a power switch key, a kettle water adding key, a kettle water boiling key, a kettle water outlet key, a disinfection pot water adding key, a disinfection pot disinfection key and a disinfection pot heating key.

Under the control of the control circuit board, the following operations are executed according to the setting:

the power switch key is pressed once, so that other keys can be continuously operated; and pressing the power switch key again, wherein other keys cannot be input.

The water adding key of the kettle is pressed once, the first electromagnetic valve and the third electromagnetic valve are conducted, and the diaphragm pump works; and pressing the water adding key of the kettle again, stopping the diaphragm pump, and stopping the first electromagnetic valve and the third electromagnetic valve.

The water boiling key of the kettle is pressed once, and the power supply seat a is electrified to enable the heater in the kettle to heat the water in the kettle; the power supply seat a is powered off when the water boiling key of the kettle is pressed down again.

The water adding key of the disinfection pot is pressed once, the first electromagnetic valve and the fourth electromagnetic valve are conducted, and the diaphragm pump works; and pressing the water adding key of the disinfection pot again, stopping the diaphragm pump, and stopping the first electromagnetic valve and the fourth electromagnetic valve.

The disinfection key of the disinfection pot is pressed once, the second electromagnetic valve and the fourth electromagnetic valve are conducted, and the diaphragm pump and the ozone generating pipe work; and pressing the disinfection key of the disinfection pot again, stopping the diaphragm pump and the ozone generating pipe, and stopping the second electromagnetic valve and the fourth electromagnetic valve.

The heating key of the sterilizing pot is pressed once, and the power supply seat b is electrified to enable the heater in the sterilizing pot to heat the water in the sterilizing pot; and pressing the heating key of the sterilizing pot again to cut off the power supply seat b.

The water outlet key of the kettle is pressed once, if the Hall sensor detects a signal, the position of a water outlet pipe of the kettle is proved to be correct, the electromagnet is electrified, the magnetic conductive steel column and the magnetic conductive steel sheet are magnetized, the magnetic conductive steel sheet and the magnetic conductive steel column are attracted by magnetic force, so that the valve rod is pulled downwards, the side wall of the top of the valve rod is plugged with the air vent a, then the second electromagnetic valve and the third electromagnetic valve are conducted, the diaphragm pump works, the air pressure in the kettle is raised, and water in the kettle flows out from the water outlet pipe under the action of the; and the water outlet key of the kettle is pressed again, the electromagnet and the diaphragm pump stop working, and the second electromagnetic valve and the third electromagnetic valve are stopped.

If the Hall sensor does not detect a signal, the position of the water outlet pipe of the kettle is proved to be incorrect, and the control circuit board gives an alarm through a buzzer electrically connected with the control circuit board to prompt a user to adjust the position of the kettle.

The mode of pressing the water outlet key of the kettle can be used for manually making tea.

And continuously pressing the water outlet key of the kettle twice within 2 seconds to enter an automatic tea making mode. Specifically, the control circuit board sends a signal to the controller, the controller controls the work of the teacup rotating motor to enable the teacup rotating disc to rotate 360 degrees, the magnetic conducting block with the teacup is detected by the Hall sensor c when passing through the Hall sensor c, and the controller can know the number of the teacups on the teacup rotating disc, so that the amount of water added into the teapot is determined;

and then, the control circuit board controls the kettle to enter a water outlet program, the judging step before water outlet is the same as the step of manually making tea, and the difference is that the water outlet time of the water outlet pipe is adjusted according to the quantity information of the tea cups returned by the controller, namely, the time of pumping air into the kettle by the diaphragm pump is controlled.

After the teakettle finishes adding water into the teapot, the controller controls the tea-discharging electromagnet to work, namely when the Hall sensor c detects that a tea cup reaches a station where the teapot is located, the rear end of the tea-discharging plate is driven to be lifted up and the front end of the tea-discharging plate is driven to be lowered down through the tea-discharging electromagnet, so that the tea-discharging hole is conducted for a period of time (1.5-3 s). It should be noted that the hall sensor c is most conveniently installed on the central connecting line of the teapot and the tea cup turntable, and if the hall sensor c is installed at other positions, after the hall sensor c detects the tea cup, the tea cup needs to be controlled by the tea cup rotating motor to continue to rotate by an angle (the angle is equal to the included angle between the central connecting line of the current tea cup and the tea cup turntable and the central connecting line of the teapot and the tea cup turntable), so that the tea outlet channel of the tea cup and the tea outlet channel of the teapot are aligned.

If the number of the tea cups is large and the capacity of the teapot is not enough to fill all the tea cups at one time, the teapot needs to add water twice or even three times, and only the flow of adding water and discharging tea needs to be repeated.

In order to ensure that the tea concentration poured into each tea cup is consistent or the concentration difference is small, half cup of tea can be poured into each tea cup firstly, and the tea cup turntable rotates reversely to continue to add the other half cup of tea into the tea cup in sequence until half cup of tea is poured into each tea cup. The above mode enables the concentration of each cup of tea to be kept close because the longer the tea leaf soaking time is, the higher the concentration of the tea water is.

Example 3

With reference to fig. 17 and 18, the present embodiment is modified from embodiment 1 as follows: the upper end of the water inlet joint in the sterilizing pot is connected with a water inlet cover 32; the water inlet cover comprises a lower plate body 321 and an upper cover body 322 which is sleeved on the periphery of the lower plate body in a sliding manner.

The upper end periphery of lower plate body is the equidistance shaping and is had a plurality of upper nipples 3212, the upper plate body upper end is located the interior peripheral shaping of upper nipples and has last clamping ring 3211, the periphery of lower plate body is the equidistance shaping and is had 2 or 3 connection bayonet 3213.

The upper cover body comprises a circular air bleeding plate 3220, an annular hollow floating ring 3222 connected to the periphery of the air bleeding plate, and a sleeving ring 3223 integrally connected to the lower end of the air bleeding plate.

The air bleeding plate is uniformly provided with air bleeding holes 3221, the inner periphery of the socket ring is in sliding connection with the outer periphery of the lower plate body, and the socket ring is uniformly provided with water outlet holes 3224; the area of the vent hole is smaller than 1/10 of the area of the water outlet hole. The area of the apopore is 0.1-0.5cm has been transferred.

The lower end of the air exhaust plate is connected with a sealing ring b3225 corresponding to the position of the upper convex ring, and the lower end part of the inner periphery of the sleeving ring is provided with connecting clamping heads 3226 with the same number as the connecting clamping ports.

The middle of the lower plate body is connected to the upper end of the water inlet joint through threads. The upper cover body is connected with the lower cover body through 2-3 pairs of connecting bayonets and connecting chucks, and the positions of the connecting bayonets and the connecting chucks are staggered after connection, so that the probability of separation of the upper cover body and the lower cover body is very low during normal use, and the upper cover body can be conveniently detached when the disinfection pot needs to be thoroughly cleaned.

The water inlet joint at the bottom of the sterilizing pot is used for water inlet and air inlet at the same time, but when ozone is used for sterilizing, in order to ensure that the ozone can be fully contacted with the water in the sterilizing pot, the upper end of the water inlet joint of the sterilizing pot is connected with the water inlet cover, and on the basis of ensuring that the water can be fed at normal speed, the ozone gas entering the sterilizing pot can be fully contacted with the water in the sterilizing pot to increase the solubility.

Specifically, in the water inlet process of the sterilizing pot, the upper cover body is pushed upwards by water flow, and water enters the sterilizing pot from the air outlet hole and the water outlet hole; along with the rise of the water level in the sterilizing pot, the hollow floating ring of the upper cover body enables the whole upper cover body to float upwards under the buoyancy action of water, so that the water outlet hole is in a completely opened state; because most of water flows into the disinfection pot from the water outlet hole with larger caliber, the resistance is relatively small, and the speed of the water flowing into the disinfection pot can not be obviously influenced. When an object to be disinfected is placed in the disinfection pot, the upper cover body is pressed to move downwards, so that the sealing ring b is in sealing contact with the upper sealing ring, when ozone gas is introduced into the disinfection pot, the gas can only emerge from the gas emitting holes in a communicated state, and the gas emitting holes with smaller diameters increase the contact area of the ozone gas and water, thereby improving the disinfection and stain removal effects.

Claims (7)

1. The utility model provides an automatic add intelligent teathings external member of water pouring, its characterized in that: the tea pot comprises a tea tray which is integrally in a cuboid shape, a teakettle external member which is arranged on the right side of the tea tray, a teacup rotating disc which is rotatably arranged on the left side of the tea tray, a plurality of teacups which are adsorbed on the teacup rotating disc through magnetic force, and a teapot which is arranged on the tea tray and is positioned between the teakettle external member and the teacup rotating disc;

the kettle kit comprises a base, a kettle and a sterilizing pan;

a water outlet pipe is integrally connected to the lower part of the side wall of the kettle, and a water outlet of the water outlet pipe faces to the right lower part; one side of the side wall of the kettle, which is far away from the water outlet pipe, is connected with a handle; the teapot is positioned below the water outlet pipe;

a teapot external member positioning seat for positioning the teapot external member is formed on the right side of the tea tray, and a teapot mounting seat for positioning the teapot in the shape of a circular groove is formed on the tea tray close to the left side of the teapot;

the teapot comprises a teapot seat inserted on the teapot mounting seat, a teapot body arranged at the upper end of the teapot seat and a teapot cover arranged at the upper end of the teapot body;

a water filling port for filling boiled water into the teapot from a water outlet pipe of the teapot is formed on the teapot cover;

a tea outlet is formed in the center of the bottom surface of the kettle body, and more than two insertion columns are formed at the position, close to the periphery, of the bottom surface of the kettle body; the upper end surface of the teapot seat is provided with insertion holes which are inserted with the insertion columns;

a tea outlet plate accommodating groove is formed in the upper end of the teapot seat along the extension line direction of the diameter of the teacup rotating disc, and a tea outlet plate is rotatably arranged on one side, far away from the teacup rotating disc, of the teapot seat in the tea outlet plate accommodating groove;

a tea outlet groove is formed in the upper end of the tea outlet plate along the length direction, and a lower valve plate capable of plugging the lower end of the tea outlet hole is fixedly connected to the upper end of the tea outlet groove; the front end of the tea discharging plate extends to the upper part of the circumference of each magnetic conduction block, the rear end of the tea discharging plate extends out of the teapot seat, and the lower surface of the rear end of the tea discharging plate is fixedly connected with a tea discharging magnet a;

a longitudinally arranged tea discharging electromagnet is fixedly arranged at the top in the tea tray and right below the tea discharging magnet a, and an iron core of the tea discharging electromagnet extends upwards to be close to the lower end of the tea discharging magnet a; an iron core through hole for the iron core to pass through is formed in the tea tray;

when the tea-discharging electromagnet is not electrified, the tea-discharging magnet a and the iron core of the tea-discharging electromagnet are attracted tightly, so that the lower valve plate blocks the tea-discharging hole; when the tea discharging electromagnet is in a power-on state, the tea discharging magnet a is repelled with the iron core of the tea discharging electromagnet, so that the lower valve plate is separated from the tea discharging hole to conduct the tea discharging hole, and the lower surface of the front end of the tea discharging plate is abutted against the edge of the bottom of the tea discharging plate accommodating groove;

the teapot seat is rotationally connected with the tea discharging plate through a connecting pin, and a pin hole a for the connecting pin to penetrate through is formed in the teapot seat; a pin hole b which is rotationally connected with the connecting pin is formed at the rear part of the tea discharging plate;

a water collecting tank is formed at the upper end of the left side of the tea tray, a turntable mounting column extending upwards is formed in the middle of the inner bottom of the water collecting tank, and the tea cup turntable is rotatably mounted on the turntable mounting column;

the teacup rotary table comprises a circular table body, a handle fixedly connected to the middle of the upper end of the table body, a plurality of overall L-shaped magnetic conduction blocks fixedly connected to the periphery of the table body at equal intervals, and an annular driven sleeve integrally connected to the middle of the lower end of the table body;

the driven sleeve is rotatably sleeved on the outer wall of the upper part of the turntable mounting column, and a plurality of turntable magnets a are equidistantly connected to the driven sleeve along the circumferential direction; a teacup rotating motor with an output shaft vertically upward is fixedly installed in the turntable installation column, a teacup driving turntable is fixedly connected to the output shaft of the teacup rotating motor, and a turntable magnet b which is matched with each turntable magnet a through magnetic force so as to drive the teacup turntable to rotate is fixedly connected to the outer wall of the teacup driving turntable;

the bottom of the teacup is fixedly connected with a fixed magnet which is tightly attracted with the magnetic conducting block through magnetic force; a Hall sensor c is arranged on the outer wall of the water collecting tank in the tea tray; when the magnetic conduction block with the tea cup placed above passes through the position of the Hall sensor c, the Hall sensor c detects a signal;

a controller is installed in the tea tray, the Hall sensor c is electrically connected with a signal input end of the controller, and the teacup rotating motor and the tea outlet electromagnet are electrically connected with an output end of the controller;

the upper end of the base of the kettle kit is provided with a power supply seat a for supplying power to the kettle and a power supply seat b for supplying power to the disinfection pot; the power supply seats a and b are provided with power supply electrodes which are arranged in concentric circles, and the middles of the power supply seats a and b are connected with water inlet connectors; the bottom parts of the kettle and the disinfection pot are provided with water inlet connectors which are hermetically sleeved with the water inlet connectors, and one-way valves which are communicated in one way from bottom to top are arranged in the water inlet connectors;

the upper end of the sterilizing pot is provided with a pot cover, a partition plate is longitudinally arranged in the sterilizing pot, one side of the partition plate in the sterilizing pot is a water containing part, and the other side of the partition plate in the sterilizing pot is an air return part; an exhaust hole is formed in the bottom of the air return part, the bottom of the disinfection pot is connected with two sealing rings a which are arranged concentrically, and the exhaust hole is positioned in a space between the two sealing rings a; after the sterilizing pot is arranged on the power supply seat b, the sealing ring a is in sealing connection with the upper end surface of the base;

an exhaust groove is formed in a space between the two sealing rings a at the upper end of the base, an exhaust joint is connected to the base in the exhaust groove, and the exhaust joint is connected with a pipeline e;

a diaphragm pump and an ozone generating pipe are arranged in the base;

the outlet end of the diaphragm pump is respectively connected with the water inlet connectors below the kettle and the disinfection pot through a pipeline a and a pipeline b, a third electromagnetic valve is connected in series on the pipeline a leading to the kettle, and a fourth electromagnetic valve is connected in series on the pipeline b leading to the disinfection pot;

the inlet end of the diaphragm pump is connected with a water barrel joint inserted in a barrel opening at the upper end of the water barrel through a pipeline c and a pipeline d;

the bucket joint comprises a lower joint body and an upper joint body fixedly connected to the upper end of the lower joint body, and a space between the lower joint body and the upper joint body is filled with a water-absorbing resin ball;

the lower joint body comprises a conical insertion part with a wide upper part and a narrow lower part and a supporting part integrally connected to the upper end of the insertion part, and the outer diameter of the supporting part is larger than that of the upper end part of the insertion part; air holes are uniformly formed on the inner bottom surface of the lower joint body; a water pumping pipe and an air return pipe are integrally connected to the bottom in the lower joint body, the upper ends of the water pumping pipe and the air return pipe extend to the upper part in the lower joint body, and the lower end of the water pumping pipe extends to the bottom in the bucket;

a water pumping joint, an air suction joint and an air return joint are integrally formed at the upper end of the upper joint body, the lower end of the water pumping joint is hermetically connected with the upper end of a water pumping pipe, the lower end of the air return joint is hermetically connected with the upper end of an air return pipe, and the air suction joint is communicated with the upper part in the lower joint body;

the pipeline c is connected with a water pumping joint, and a first electromagnetic valve is connected on the pipeline c in series; the pipeline d is connected with the air suction joint, and a second electromagnetic valve is connected on the pipeline d in series; the pipeline e is connected with an air return joint;

the ozone generating pipe is connected between the air suction joint on the pipeline d and the second electromagnetic valve;

the ozone generator is characterized in that a control circuit board is installed in the base, and the power supply seat a, the power supply seat b, the ozone generating tube, the first electromagnetic valve, the second electromagnetic valve, the third electromagnetic valve and the fourth electromagnetic valve are electrically connected with the control circuit board respectively.

2. The intelligent tea set capable of automatically adding water to pour tea as claimed in claim 1, wherein: an upper convex ring is formed on the periphery of the bottom in the kettle body, and a filter screen made of stainless steel is arranged at the upper end of the upper convex ring in the kettle body.

3. The intelligent tea set capable of automatically adding water to pour tea as claimed in claim 1, wherein: and a plurality of water drainage holes which are communicated up and down are formed in an annular area between the magnetic conduction block and the driven sleeve on the disk body.

4. The intelligent tea set capable of automatically adding water to pour tea as claimed in claim 1, wherein: a step part which is connected with the periphery of the lower end of the teacup rotary disc in a sliding way is formed on the tea tray and positioned at the periphery of the upper end of the water collecting tank; a support column which is abutted against the step part is formed on the periphery of the lower end of the teacup rotary disc; liquid passing seams for tea water to flow into the water collecting tank are formed between the inner wall of the water collecting tank and the outer wall of the teacup rotary table and between the support columns and the step parts.

5. The intelligent tea set capable of automatically adding water to pour tea as claimed in claim 1, wherein: the inner wall of the water collecting tank is of a tank body structure with a wide upper part and a narrow lower part, the lower end of the water collecting tank is connected with a drain pipe, and the drain pipe penetrates out of the side wall of the tea tray; the lower end of the tea tray is connected with a bottom cover.

6. The intelligent tea set capable of automatically adding water to pour tea as claimed in claim 1, wherein: the upper end of the kettle is detachably screwed with a kettle cover, the lower end of the kettle cover is integrally connected with a longitudinally arranged exhaust valve pipe, a valve rod is slidably mounted in the exhaust valve pipe, the lower end of the exhaust valve pipe is fixedly connected with a valve pipe sealing cover, the lower end of the valve rod is connected with a magnetic conductive steel sheet, and a spring used for pushing the valve rod upwards is mounted between the lower end of the valve rod and the upper end of the valve pipe sealing cover; a positioning wall for limiting the upward separation of the upper end of the valve rod is formed at the top of the valve pipe;

an air vent a is formed in the side wall of the upper part of the valve pipe, and an L-shaped air vent b communicated with the air vent a is formed in the upper part of the valve rod; when the valve rod moves downwards to the limit position, the side wall at the top of the valve rod seals the vent hole a;

a magnet a is mounted at one side, close to the water outlet pipe, of the bottom of the water boiling kettle, and a Hall sensor for judging the position of the water outlet pipe by detecting the position of the magnet a is mounted at the left side in the base;

a magnetic steel column is mounted at one side of the bottom of the kettle, which is close to the handle, and an electromagnet for magnetizing the magnetic steel column and the magnetic steel sheet is mounted in the base;

the magnetic steel column and the magnetic steel sheet attract each other after being magnetized, and the valve rod is pulled downwards to seal the air vent a;

the Hall sensor and the electromagnet are respectively and electrically connected with the control circuit board.

7. The intelligent tea set capable of automatically adding water to pour tea as claimed in claim 1, wherein: the controller is electrically connected with the control circuit board in a communication mode through conduction or through radio.

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