CN219353531U - From multi-functional system of making tea in taking waste water cabin - Google Patents

Abstract

The utility model discloses a multifunctional tea making system with a waste water cabin, which comprises a coupler assembly, a kettle body, a water purifying cabin and a tea water cabin which are arranged in the kettle body, a heating plate and the waste water cabin which are arranged at the bottom of the kettle body, and a filter screen, a tea water discharging assembly and a spray pipe which are arranged on the tea water cabin, wherein the filter screen is arranged on the water tank; the coupler assembly comprises a lower coupler disc and an upper coupler which are connected with the heating disc; the waste water cabin is arranged at the bottom of the heating plate; the tea water cabin is arranged in the water purifying cabin; the top of the tea water cabin is level with the top of the water purifying cabin; the top of the spray pipe is level with the top of the tea water cabin, and the middle of the spray pipe penetrates through the bottom of the tea water cabin and extends downwards into the water purification cabin; the water in the water purifying cabin is boiled through the heating disc, tea leaves on the filter screen are sprayed through the spray pipe under the action of air pressure and enter the bottom of the tea cabin, and the water in the tea cabin is manually or automatically discharged into the waste water cabin or the water purifying cabin through the tea discharging assembly, so that manual or automatic head tea discharge or circular extraction is realized.

Description

From multi-functional system of making tea in taking waste water cabin

Technical Field

The utility model belongs to the technical field of tea making pots, and particularly relates to a multifunctional tea making system with a waste water cabin.

Background

The Chinese people have a long history of drinking tea, and at present, the people drinking tea nationally have more than 6 hundred million people. The tea drinking modes are also various. Teapots and drift cups are a relatively common way. The existing tea making pots are various in types, but the head tea heated to the corresponding temperature needs to be manually poured, namely commonly called tea washing. The elegant cup directly uses external hot water to make tea, and the convenient tea discharging function cannot be realized. The user really drinks the tea, needs to take clean water to wash the tea, then pour the tea and take clean water again to cook the tea or make tea, and a great deal of time is wasted in the process. In addition, the current teapot cannot perform cyclic extraction, so that tea is not thoroughly soaked or coffee is not sufficiently extracted, and a large amount of tea is wasted.

Therefore, there is an urgent need for a multifunctional tea brewing device capable of simultaneously implementing automatic head tea discharge and cyclic extraction to solve the above-mentioned drawbacks of the prior art.

Disclosure of Invention

Aiming at the defects or improvement demands of the prior art, the utility model provides a multifunctional tea making system with a waste water cabin, wherein a water purifying cabin and a tea water cabin are arranged in a kettle body, a heating disc and the waste water cabin are arranged at the bottom of the kettle body, a coupler component is connected to the heating disc, and a filter screen, a tea water discharging component and a spray pipe are arranged in the tea water cabin; the top of the spray pipe is level with the top of the tea water cabin, and the middle of the spray pipe penetrates through the bottom of the tea water cabin and extends downwards into the water purification cabin; the water in the water purifying cabin is sprayed onto tea leaves in the tea cabin through the top of the spray pipe under the action of air pressure and enters the bottom of the tea cabin by heating and boiling through the heating plate; the tea water in the tea water cabin is discharged into the waste water cabin or the water purifying cabin through the tea water discharging assembly, so that the circulating extraction of the head tea or the tea water can be realized; the tea making kettle head row tea in the prior art can be solved, the tea needs to be manually poured off and brewed again, the defects of complex operation and low efficiency exist, and the problems that the tea cannot be circularly extracted, the tea is not thoroughly brewed or the coffee extraction is insufficient, and a large amount of tea is wasted are solved.

In order to achieve the above purpose, the utility model provides a multifunctional tea making system with a waste water cabin, which comprises a coupler assembly, a kettle body, a water purifying cabin and a tea water cabin which are arranged in the kettle body, a heating plate and a waste water cabin which are arranged at the bottom of the kettle body, and a filter screen, a tea water discharging assembly and a spray pipe which are arranged on the tea water cabin; wherein, the liquid crystal display device comprises a liquid crystal display device,

the coupler assembly comprises a lower coupler disc and an upper coupler which are connected with the heating disc;

the top of the kettle body is provided with a rotatable kettle cover and a filter screen cover;

a control button or a control screen is arranged on the handle;

the waste water cabin is arranged at the bottom of the heating disc; a waste water discharge port is arranged on the side surface of the bottom of the waste water cabin, and a plug is arranged on the waste water discharge port; the tea water cabin is arranged in the water purifying cabin; the top of the tea water cabin is level with the top of the water purifying cabin; the top of the spray pipe is flush with the top of the tea water cabin, and the middle of the spray pipe penetrates through the bottom of the tea water cabin and extends downwards into the water purifying cabin; the spray pipe is fixed with the bottom of the tea water cabin;

the water in the water purifying cabin is boiled through the heating disc, tea leaves on the filter screen are sprayed through the spray pipe under the action of air pressure and enter the bottom of the tea cabin, and the water in the tea cabin is discharged into the waste water cabin or the water purifying cabin through the tea discharging assembly, so that head tea discharge or circulating extraction is realized.

Further, the upper coupler is arranged on the waste water cabin or the heating plate;

when the upper coupler is arranged on the waste water cabin, the lower coupler disc is independently arranged at the bottom of the waste water cabin; when the upper coupler is arranged on the heating disc, the lower coupler disc is arranged on the top of the waste water cabin;

the power supply supplies power to the circuit board on the heating plate through the power line, the lower coupler plate and the upper coupler;

and a temperature detector is arranged on the heating plate.

Further, a handle is arranged on the side face of the kettle body, and a kettle cover spring button is arranged on the handle; the top of the kettle body is provided with a rotatable kettle cover and a filter screen cover; a sealing ring is arranged on the kettle cover;

a water pouring port is arranged at the top of the side surface of the kettle body opposite to the handle; the top edge of the kettle body is provided with a water inlet which is communicated with the water purifying cabin.

Further, a first highest water level line H is arranged on the water purifying cabin, and the height of the first highest water level line H is level with the bottom of the tea water cabin;

the tea water cabin is provided with a second highest water level line H and overflow holes;

the position of the overflow hole is higher than the position of the second highest water level line H;

a third highest water level line H is arranged on the waste water cabin;

the bottommost end of the spray pipe is flush with a fourth highest water level line H in the water purifying cabin;

the fourth highest water level line H has a lower height than the first highest water level line H.

Further, the tea water discharging assembly comprises a waste water discharging pipe communicated with the tea water cabin, and a waste water cabin push rod and a clean water cabin push rod which are arranged in the tea water cabin;

two ends of the waste water discharge pipe are respectively communicated with the tea water cabin and the waste water cabin;

the bottom of the waste water cabin push rod is connected with a first spring valve at the bottom of the tea water cabin; the top of the waste water discharge pipe is fixed under the first spring valve through a hollow silica gel sucker or a screw thread device, and the bottom of the waste water discharge pipe passes through the heating disc and is communicated with the waste water cabin; when the first spring valve is opened, the tea water cabin is communicated with the waste water cabin;

the water purifying cabin push rod is communicated with the water purifying cabin; the bottom of the push rod of the water purifying cabin is connected with a second spring valve at the bottom of the tea water cabin; the connection or disconnection of the tea water cabin and the water purifying cabin can be controlled through the second spring valve;

the kettle cover is provided with a waste water cabin push rod button and a water purification cabin push rod button; the filter screen cover is provided with a through hole for the push rod of the waste water cabin and the push rod of the water purification cabin to pass through;

when the kettle cover is in a closed state, the top of the waste water cabin push rod penetrates through the filter screen cover and is connected with a waste water cabin push rod button on the kettle cover; the top of the water purifying cabin push rod penetrates through the filter screen cover and is connected with a water purifying cabin push rod button on the kettle cover.

Further, the upper coupler is arranged at the bottom of the waste water cabin and is connected with the heating plate.

Further, the upper coupler is arranged at the bottom of the heating plate;

the bottom of the wastewater discharge pipe sequentially passes through the heating disc, the upper coupler and the channel on the lower coupler disc to be communicated with the wastewater cabin.

Further, the tea water discharging assembly comprises a waste water discharging pipe communicated with the bottom of the tea water cabin, a drainage pump connected with the bottom of the waste water discharging pipe, and a drainage tee joint connected with the drainage pump;

one of the two remaining ports of the drainage tee is communicated with the waste water cabin, and the other port of the drainage tee is communicated with the water purifying cabin;

the drainage pump and the drainage tee are connected with a control screen or a control button on the handle; the opening and closing of the drainage pump and the connection and disconnection of the drainage tee are controlled by the control screen or the control button, so that head tea drainage and circulation extraction are realized.

Further, the upper coupler is arranged at the bottom of the waste water cabin and is connected with the heating plate.

Further, the lower coupler disc is arranged at the top of the waste water cabin, and the upper coupler is arranged at the bottom of the heating disc; and one port of the drainage tee joint is communicated with the upper coupler, and a channel on the lower coupler disc is communicated with the waste water cabin.

In general, the above technical solutions conceived by the present utility model, compared with the prior art, enable the following beneficial effects to be obtained:

according to the multifunctional tea making system with the waste water cabin, the water purifying cabin and the tea water cabin are arranged in the kettle body, the heating disc and the waste water cabin are arranged at the bottom of the kettle body, the heating disc is connected with the coupler assembly, and the filter screen, the tea water discharging assembly and the spray pipe are arranged in the tea water cabin; the top of the spray pipe is level with the top of the tea water cabin, and the middle of the spray pipe penetrates through the bottom of the tea water cabin and extends downwards into the water purification cabin; the water in the water purifying cabin is sprayed onto tea leaves in the tea cabin through the top of the spray pipe under the action of air pressure and enters the bottom of the tea cabin by heating and boiling through the heating plate; the tea water in the tea water cabin is discharged into the waste water cabin or the water purifying cabin through the tea water discharging assembly, so that the circulating extraction of the head tea or the tea water is realized; the multifunctional tea cup has a simple structure and integrates multiple functions, innovatively adds the functions of head tea and circulating extraction, and simultaneously realizes the functions of an elegant cup and a health preserving kettle; by adopting the air pressure and gravity principle, the waste water cabin, the water purifying cabin and the tea water cabin are integrated, so that the operation is more convenient, the heating efficiency is higher, the energy conservation is facilitated, and the tea drinking waiting time is reduced; the traditional tea making is replaced by spraying under the action of air pressure, so that the tea utilization rate is higher; the concentration of tea soup and the utilization rate of tea are improved by adopting cyclic extraction; by adopting the integrated design, the water leakage phenomenon of the traditional split design can be avoided.

Drawings

FIG. 1 is a schematic diagram of a multifunctional tea making system with a waste water tank according to embodiment 1 of the present utility model;

FIG. 2 is a schematic diagram of a multifunctional tea making system with a waste water tank according to embodiment 2 of the present utility model;

FIG. 3 is a schematic diagram of a multifunctional tea making system with a waste water tank according to embodiment 3 of the present utility model;

fig. 4 is a schematic structural diagram of a multifunctional tea making system with a waste water tank according to embodiment 4 of the present utility model.

Like reference numerals denote like technical features throughout the drawings, in particular: 1-coupler assembly, 11-lower coupler tray, 12-upper coupler, 13-power cord, 2-kettle body, 21-handle, 22-kettle lid latch, 23-kettle lid, 231-gasket, 232-waste bin push button, 233-clean bin push button, 24-filter lid, 25-pouring spout, 26-water inlet, 3-waste bin, 31-waste water drain spout, 32-plug, 4-heating tray, 41-temperature probe, 5-clean bin, 6-tea bin, 61-overflow hole, 62-first spring valve, 63-second spring valve, 7-filter screen, 8-tea water drain assembly, 81-waste water drain pipe, 82-waste bin push rod, 83-clean bin push rod, 84-drain pump, 85-drain tee, 9-shower.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

In the description of the present utility model, it will be understood that when an element is referred to as being "mounted," "disposed," or "disposed" on another element, it can be directly on the other element or be indirectly on the other element unless explicitly stated and limited otherwise. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element; the terms "mounted," "connected," and "provided" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Example 1

As shown in fig. 1, embodiment 1 of the present utility model provides a multifunctional tea making system with a waste water tank, which can realize the functions of head tea discharge and circulation extraction, and comprises a coupler assembly 1, a kettle body 2, a water purifying tank 5 and a tea water tank 6 which are arranged in the kettle body 2, a heating plate 4 and the waste water tank 3 which are arranged at the bottom of the kettle body 2, and a filter screen 7, a tea water discharging assembly 8 and a spray pipe 9 which are arranged on the tea water tank 6; the coupler assembly 1 comprises a lower coupler disc 11 and an upper coupler 12 connected to the heat-generating disc 4; the top of the kettle body 2 is provided with a rotatable kettle cover 23 and a filter screen cover 24; the waste water cabin 3 is arranged at the bottom of the heating plate 4; the tea water discharging component 8 is used for discharging water in the tea water cabin 6 into the waste water cabin 3 or the purified water cabin 5, the top of the spray pipe 9 is flush with the top of the tea water cabin 6, and the middle part of the spray pipe penetrates through the bottom of the tea water cabin 6 and extends downwards into the purified water cabin 5; the spray pipe 9 is fixed with the bottom of the tea water cabin 6; according to the utility model, the water in the water purifying cabin is boiled through the heating disc, tea leaves on the filter screen are sprayed through the spray pipe under the action of air pressure and enter the bottom of the tea cabin, and the water in the tea cabin is manually or automatically discharged into the waste water cabin or the water purifying cabin through the tea discharging assembly, so that manual or automatic head tea discharge or circular extraction is realized.

Further, as shown in fig. 1, the upper coupler 12 is provided on the waste water tank 3 or the heating plate 4; when the upper coupler 12 is arranged on the waste water tank 3, the lower coupler disc 11 is independently arranged at the bottom of the waste water tank 3; when the upper coupler 12 is arranged on the heating plate 4, the lower coupler plate 11 is arranged on the top of the waste water tank 3.

Further, as shown in fig. 1, a handle 21 is arranged on the side surface of the kettle body 2, and a kettle cover elastic button 22 is arranged on the handle 21; the top of the kettle body 2 is provided with a rotatable kettle cover 23 and a filter screen cover 24; the kettle cover 23 is provided with a sealing ring 231; a control screen or a control button is arranged on the handle 21 so as to facilitate control; a water pouring port 25 is arranged at the top of the side surface of the kettle body 2 opposite to the handle 21; a water inlet 26 is arranged at the top edge of the kettle body 2 and is communicated with the water purifying cabin 5; the filter screen cover 24 is used for preventing water from entering the tea water cabin 6 when water is added from the water inlet; when tea dirt removing substances are placed in the filter screen 7 to replace tea, self-cleaning of tea dirt can be achieved.

Further, as shown in fig. 1, the tea water tank 6 is arranged inside the water purifying tank 5; the top of the tea water cabin 6 is level with the top of the water purifying cabin 5; the heating plate 4 is arranged at the bottom of the kettle body 2; the power supply supplies power to the circuit board on the heating plate 4 through the power line 13, the lower coupler plate 11 and the upper coupler 12, so that the heating plate 4 heats and then the water in the water purifying cabin is boiled; when the air pressure in the water purifying cabin 5 is greater than the air pressure in the tea cabin 6, water in the water purifying cabin enters the top of the tea cabin 6 through the spray pipe 9 and is sprayed onto tea leaves of the filter screen 7, and enters the bottom of the tea cabin 6 through the filter screen 7; the heating plate 4 is provided with a temperature detector 41 which can display the temperature of water in the water purifying cabin in real time; the utility model realizes tea spraying through the action of air pressure.

Further, as shown in fig. 1, the upper coupler 12 is disposed at the bottom of the waste water tank 3 and is connected to the heat-generating plate 4; the pot cover 23 is provided with a control button connected with the tea water discharging component 8; the tea water discharging assembly 8 comprises a wastewater discharging pipe 81 communicated with the tea water cabin 6, a wastewater cabin push rod 82 and a water purifying cabin push rod 83 which are arranged in the tea water cabin 6; the waste water discharge pipe 81 is used for realizing the communication between the tea water cabin 6 and the waste water cabin 3; the bottom of the waste water tank push rod 82 is connected with the first spring valve 62 at the bottom of the tea water tank 6; the connection or disconnection of the tea water tank 6 and the waste water discharge pipe 81 can be controlled through the first spring valve 62; the top of the waste water discharge pipe 81 is fixed under the first spring valve 62 through a hollow silica gel sucker 811 or a screw device, and the bottom of the waste water discharge pipe 81 is communicated with the waste water cabin 3 through the heating disc 4; according to the utility model, the water outlet of the spring valve is covered by the sucker, so that the sealing during water discharge and the easy disassembly during cleaning are realized; the water purifying cabin push rod 83 is communicated with the water purifying cabin 5; the bottom of the water purifying cabin push rod 83 is connected with the second spring valve 63 at the bottom of the tea water cabin 6; the connection or disconnection of the tea tank 6 and the water purifying tank 5 can be controlled by the second spring valve 63.

Further, as shown in fig. 1, the pot cover 23 is provided with a waste water tank push rod button 232 and a clean water tank push rod button 233; the filter screen cover 24 is provided with a through hole for the waste water cabin push rod 82 and the clean water cabin push rod 83 to pass through; when the pot cover 23 is in a closed state, the top of the waste water tank push rod 82 passes through the filter screen cover 24 and is connected with a waste water tank push rod button 232 on the pot cover 23; the top of the water purifying cabin push rod 83 passes through the filter screen cover 24 and is connected with a water purifying cabin push rod button 233 on the kettle cover 23; a wastewater discharge port 31 is arranged on the side surface of the bottom of the wastewater cabin 3, and a plug 32 is arranged on the wastewater discharge port 31; the waste water cabin push rod button 232 is pressed to push the waste water cabin push rod 82 to push up the first spring valve 62, so that waste tea water is discharged into the waste water cabin 3 through the waste water discharge pipe 81, and head tea discharge is realized; pushing the water purifying cabin push rod button 233 to push the water purifying cabin push rod 83 to push the second spring valve 63 open, so that tea water remained in the tea water cabin 6 is discharged into the water purifying cabin 5 through the opened second spring valve 63; according to the utility model, the push rod pushes the spring valve to discharge the retained tea water in the tea water cabin into the waste water cabin or the water purifying cabin, so that the head tea discharge or the circulating extraction is realized.

Further, as shown in fig. 1 to 4, a first highest water level line H1 is provided on the water purifying cabin 5, and the height of the first highest water level line H1 is level with the bottom of the tea water cabin 6; the tea water cabin 6 is clamped at the top of the water purifying cabin 5; the filter screen cover 24 is matched with the top of the tea water cabin 6; the tea water cabin 6 is provided with a second highest water level line H2 and an overflow hole 61; the position of the overflow hole 61 is higher than the position of the second highest water level line H2, and circulating extraction of tea water in the tea water cabin in the heating process is realized by arranging the overflow hole 61; a third highest water level line H3 is arranged on the waste water tank 3; the bottommost end of the spray pipe 9 is flush with a fourth highest water level line H4 in the water purifying cabin 5; the fourth highest water level H4 is lower than the first highest water level H1.

The embodiment 1 of the utility model provides a working process of a multifunctional tea making system with a waste water cabin, which comprises the following steps:

tea for head arrangement and tea treatment: after water enters from the water inlet 26 to enable the water in the water purifying cabin 5 to reach a first highest water level line H1, the water in the water purifying cabin 5 is heated by the heating disc 4 and boiled, the air pressure in the water purifying cabin 5 is larger than the air pressure in the tea cabin 6, the water in the water purifying cabin enters the top of the tea cabin 6 through the spray pipe 9 and is sprayed onto tea leaves of the filter screen 7, and enters the bottom of the tea cabin 6 through the filter screen 7 until the water level in the tea cabin 6 reaches the highest water level H2; pushing the waste bin push rod 82 to push the first spring valve 62 by pressing the waste bin push rod button 232 so that waste tea water is discharged into the waste bin 3 through the waste water discharge pipe 81; when the water in the waste water cabin 3 reaches the third highest water level H3 in the waste water cabin, opening a plug 32 on a waste water discharge port 31 of the waste water cabin 3, and introducing an external waste water barrel into a connecting pipeline on the waste water discharge port 31 to drain water outwards; after the discharge is finished, the push button 232 of the waste water cabin is released, and the first spring valve 62 automatically rebounds to close the bottom of the tea cabin 6, so that head tea discharge is finished;

and (3) cyclic extraction: after the tea is discharged, the heating disc 4 is continuously started to enable the water in the water purifying cabin 5 to be boiled, and then the water continuously enters the tea of the filter screen 7 at the top of the tea cabin 6 through the spray pipe 9 under the action of pressure difference until the water level in the tea cabin 6 is more than or equal to the height of the overflow hole 61 on the side wall of the tea cabin 6, and the tea in the tea cabin 6 is automatically discharged into the water purifying cabin 5 through the overflow hole 63; after the tea is boiled, the heating plate is powered off; pushing the water purifying cabin push rod button 233 to push the water purifying cabin push rod 83 to push the second spring valve 63 open, so that tea water reserved in the tea water cabin 6 is discharged into the water purifying cabin 5 through the opened second spring valve 63, and circulation extraction of tea is completed.

Example 2

As shown in fig. 1 and 2, embodiment 2 of the present utility model provides a multifunctional tea making system with a waste water tank, which can realize automation of head tea discharge and cyclic extraction, and is different from embodiment 1 in that: the lower coupler disc 11 is arranged at the top of the waste water cabin 3, and the upper coupler 12 is arranged at the bottom of the heating disc 4; the bottom of the waste water discharge pipe 81 sequentially passes through the heating plate 4, the upper coupler 12 and the channels on the lower coupler plate 11 to be communicated with the waste water cabin 3.

Example 3

As shown in fig. 1 and 3, embodiment 3 of the present utility model provides a multifunctional tea making system with a waste water tank, which can realize automation of head tea discharge and cyclic extraction, and is different from embodiment 1 in that: the tea water discharging assembly 8 comprises a waste water discharging pipe 81 communicated with the bottom of the tea water cabin 6, a draining pump 84 connected with the bottom of the waste water discharging pipe 81, and a draining tee joint 85 connected with the draining pump 84; one of the two remaining ports of the water discharge tee joint 85 is communicated with the waste water cabin 3, and the other port is communicated with the water purification cabin 5; the draining pump 84 and the draining tee 85 are connected with a control screen or a control button on the handle; the opening and closing of the drainage pump and the connection and disconnection of the drainage tee are controlled by a control screen or a control button, so that head tea drainage and circulating extraction are realized; according to the utility model, the drainage pump and the three-way valve are arranged at the bottom of the wastewater discharge pipe 81 to replace a push rod and a spring valve, so that automation of head tea discharge and circulating extraction can be realized.

The embodiment 3 of the utility model provides a working process of a multifunctional tea making system with a waste water cabin, which comprises the following steps:

tea for head arrangement and tea treatment: after water enters from the water inlet 26 to enable the water in the water purifying cabin 5 to reach a first highest water level line H1, the water in the water purifying cabin 5 is heated by the heating disc 4 and boiled, the air pressure in the water purifying cabin 5 is larger than the air pressure in the tea cabin 6, the water in the water purifying cabin enters the top of the tea cabin 6 through the spray pipe 9 and is sprayed onto tea leaves of the filter screen 7, and enters the bottom of the tea cabin 6 through the filter screen 7 until the water level in the tea cabin 6 reaches a second highest water level H2; the draining pump 84 is started through a control screen or a control button on the handle, so that the draining tee joint 85 is communicated with the waste water cabin 3, and head tea water in the tea water cabin 6 is pumped and drained into the waste water cabin 3 through the draining pump 84; when the water in the waste water cabin 3 reaches the third highest water level H3 in the waste water cabin, the waste water can be emptied by opening the plug 32 on the waste water discharge port 31 of the waste water cabin 3, for example, an external waste water bucket can be led in to drain water outwards by connecting a pipeline on the waste water discharge port 31; after the drainage is finished, the drainage pump 84 is closed, so that the drainage tee joint 85 is disconnected from the waste water cabin and communicated with the water purification cabin 5, and head tea drainage is finished;

and (3) cyclic extraction: after the tea is discharged, the heating disc 4 is continuously started to enable the water in the water purifying cabin 5 to be boiled, and then the water continuously passes through the spraying pipe 9 to enter the tea of the top spraying filter screen 7 of the tea cabin 6 under the action of pressure difference until the water level in the tea cabin 6 is more than or equal to the height of the overflow hole 63 on the side wall of the tea cabin 6, the tea in the tea cabin 6 is automatically discharged into the water purifying cabin 5 through the overflow hole 63, the heating disc is continuously heated, and the tea continuously circulates according to the process; after circulation, the heating plate is powered off, the drainage pump 84 is started, so that tea water in the tea water cabin 6 is pumped by the drainage pump 84 and then is discharged into the water purification cabin 5 through the drainage tee joint 85, the above operation is circulated according to actual needs, and circulation extraction of tea is completed.

Example 4

As shown in fig. 3 and 4, embodiment 4 of the present utility model provides a multifunctional tea making system with a waste water tank, which can realize automation of head tea discharge and cyclic extraction, and is different from embodiment 3 in that: the lower coupler disc 11 is arranged at the top of the waste water cabin 3, and the upper coupler 12 is arranged at the bottom of the heating disc 4; one port of the water discharge tee 85 is communicated with the upper coupler 12, and a channel on the lower coupler disc 11 is communicated with the waste water cabin 3.

The multifunctional tea making system with the waste water cabin is simple in structure, integrates multiple functions, innovatively adds head tea discharging and circulating extraction functions, and simultaneously achieves the functions of an elegant cup and a health preserving kettle; the waste water cabin, the water purifying cabin and the tea water cabin are integrated into a whole by adopting the air pressure and gravity principle, so that the operation is convenient, the heating efficiency is higher, the energy conservation is facilitated, and the waiting time is reduced; the traditional tea making is replaced by spraying under the action of air pressure, so that the tea utilization rate is higher; the concentration of tea soup and the utilization rate of tea are improved by adopting cyclic extraction; by adopting an integrated design, the water leakage phenomenon of the traditional split design can be avoided; the utility model can solve the problems that tea leaves are not fully brewed or coffee extraction is insufficient and a large amount of tea leaves are wasted because the tea leaves are required to be manually poured off and brewed again in the tea making kettle row head tea in the prior art, which has the defects of complex operation and low efficiency and cannot be circularly extracted.

It will be readily appreciated by those skilled in the art that the foregoing description is merely a preferred embodiment of the utility model and is not intended to limit the utility model, but any modifications, equivalents, improvements or alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (10)

1. A from multi-functional tea making system in taking waste water cabin which characterized in that: the tea water purifying device comprises a coupler assembly (1), a kettle body (2), a water purifying cabin (5) and a tea water cabin (6) which are arranged in the kettle body (2), a heating disc (4) and a waste water cabin (3) which are arranged at the bottom of the kettle body (2), and a filter screen (7), a tea water discharging assembly (8) and a spray pipe (9) which are arranged on the tea water cabin (6); wherein, the liquid crystal display device comprises a liquid crystal display device,

the coupler assembly (1) comprises a lower coupler disc (11) and an upper coupler (12) which are connected with the heating disc (4);

the top of the kettle body (2) is provided with a rotatable kettle cover (23) and a filter screen cover (24);

a handle (21) is arranged on the side surface of the kettle body (2), and a control button or a control screen is arranged on the handle (21);

the waste water cabin (3) is arranged at the bottom of the heating disc (4); a waste water discharge port (31) is arranged on the side surface of the bottom of the waste water cabin (3), and a plug (32) is arranged on the waste water discharge port (31); the tea water cabin (6) is arranged in the water purifying cabin (5); the top of the tea water cabin (6) is level with the top of the water purifying cabin (5); the top of the spray pipe (9) is flush with the top of the tea water cabin (6), and the middle of the spray pipe penetrates through the bottom of the tea water cabin (6) and extends downwards into the water purifying cabin (5); the spray pipe (9) is fixed with the bottom of the tea water cabin (6);

the water in the water purifying cabin (5) is boiled through the heating disc (4), tea leaves on the filter screen (7) are sprayed through the spray pipe (9) under the action of air pressure and enter the bottom of the tea cabin (6), and the water in the tea cabin (6) is discharged into the waste water cabin (3) or the water purifying cabin (5) through the tea discharging component (8), so that head tea discharge or circular extraction is realized.

2. A multi-functional tea making system with a waste tank according to claim 1, characterized in that: the upper coupler (12) is arranged on the waste water cabin (3) or the heating plate (4);

when the upper coupler (12) is arranged on the waste water cabin (3), the lower coupler disc (11) is independently arranged at the bottom of the waste water cabin (3); when the upper coupler (12) is arranged on the heating disc (4), the lower coupler disc (11) is arranged at the top of the waste water cabin (3);

the power supply supplies power to the circuit board on the heating plate (4) through the power line (13), the lower coupler plate (11) and the upper coupler (12);

the heating plate (4) is provided with a temperature detector (41).

3. A multi-functional tea making system with a waste tank according to claim 2, characterized in that: the handle (21) is provided with a pot cover elastic button (22); a sealing ring (231) is arranged on the kettle cover (23);

a water pouring opening (25) is arranged at the top of the side surface of the kettle body (2) opposite to the handle (21); the top edge of the kettle body (2) is provided with a water inlet (26) which is communicated with the water purifying cabin (5).

4. A multi-functional tea making system with a waste tank according to claim 3, characterized in that: the water purifying cabin (5) is provided with a first highest water level line H1, and the height of the first highest water level line H1 is level with the bottom of the tea water cabin (6);

the tea water cabin (6) is provided with a second highest water level line H2 and overflow holes (61);

the position of the overflow hole (61) is higher than the position of the second highest water level line H2;

a third highest water level line H3 is arranged on the waste water cabin (3);

the bottommost end of the spray pipe (9) is positioned in the water purifying cabin (5) to be level with a fourth highest water level line H4;

the fourth highest water level H4 is lower than the first highest water level H1.

5. A self-contained waste pod multi-functional tea brewing system according to any one of claims 1-4, wherein: the tea water discharging assembly (8) comprises a waste water discharging pipe (81) communicated with the tea water cabin (6), a waste water cabin push rod (82) and a water purifying cabin push rod (83) which are arranged in the tea water cabin (6);

two ends of the waste water discharge pipe (81) are respectively communicated with the tea water cabin (6) and the waste water cabin (3);

the bottom of the waste water cabin push rod (82) is connected with a first spring valve (62) at the bottom of the tea water cabin (6); the top of the waste water discharge pipe (81) is fixed under the first spring valve (62) through a hollow silica gel sucker (811) or a screw thread device, and the bottom of the waste water discharge pipe (81) passes through the heating disc (4) and is communicated with the waste water cabin (3); when the first spring valve (62) is opened, the tea water cabin (6) is communicated with the waste water cabin (3);

the water purifying cabin push rod (83) is communicated with the water purifying cabin (5); the bottom of the water purifying cabin push rod (83) is connected with a second spring valve (63) at the bottom of the tea water cabin (6); the connection or disconnection of the tea water cabin (6) and the water purifying cabin (5) can be controlled through the second spring valve (63);

a waste water tank push rod button (232) and a water purifying tank push rod button (233) are arranged on the kettle cover (23); the filter screen cover (24) is provided with a through hole for a waste water cabin push rod (82) and a purified water cabin push rod (83) to pass through;

when the pot cover (23) is in a closed state, the top of the waste water tank push rod (82) penetrates through the filter screen cover (24) and is connected with a waste water tank push rod button (232) on the pot cover (23); the top of the water purifying cabin push rod (83) penetrates through the filter screen cover (24) and is connected with a water purifying cabin push rod button (233) on the kettle cover (23).

6. The self-contained waste pod multifunctional tea brewing system of claim 5, wherein: the upper coupler (12) is arranged at the bottom of the waste water cabin (3) and is connected with the heating plate (4).

7. The self-contained waste pod multifunctional tea brewing system of claim 5, wherein: the upper coupler (12) is arranged at the bottom of the heating plate (4);

the bottom of the wastewater discharge pipe (81) sequentially penetrates through the heating disc (4), the upper coupler (12) and the channel on the lower coupler disc (11) to be communicated with the wastewater cabin (3).

8. A self-contained waste pod multi-functional tea brewing system according to any one of claims 1-4, wherein: the tea water discharging assembly (8) comprises a waste water discharging pipe (81) communicated with the bottom of the tea water cabin (6), a draining pump (84) connected with the bottom of the waste water discharging pipe (81), and a draining tee joint (85) connected with the draining pump (84);

one of the two remaining ports of the water discharge tee joint (85) is communicated with the waste water cabin (3), and the other port is communicated with the water purification cabin (5);

the drainage pump (84) and the drainage tee (85) are connected with a control screen or a control button on the handle; the opening and closing of the drainage pump and the connection and disconnection of the drainage tee are controlled by the control screen or the control button, so that head tea drainage and circulation extraction are realized.

9. The self-contained waste pod multifunctional tea brewing system of claim 8, wherein: the upper coupler (12) is arranged at the bottom of the waste water cabin (3) and is connected with the heating plate (4).

10. The self-contained waste pod multifunctional tea brewing system of claim 8, wherein: the lower coupler disc (11) is arranged at the top of the waste water cabin (3), and the upper coupler (12) is arranged at the bottom of the heating disc (4); one port of the drainage tee joint (85) is communicated with the upper coupler (12) and a channel on the lower coupler disc (11) is communicated with the waste water cabin (3).