CN216822877U - Tea making device and water dispenser - Google Patents

Abstract

The application discloses a tea making device, which comprises a cup body and a valve component, wherein the cup body is provided with a water outlet; the valve assembly is installed on the cup body and comprises a valve core and an operation assembly, the operation assembly comprises an operation piece and a magnetic piece connected with the operation piece, the magnetic piece is in magnetic fit with the valve core, and the operation piece is used for driving the magnetic piece to move so as to drive the valve core to switch between a water passing position for opening the water outlet and a water stopping position for closing the water outlet. The application also discloses a water dispenser, including the host computer and as above the tea making device, the host computer is equipped with the faucet and is located support position or the position of hanging of faucet below, the tea making device can take to put set up in support position or hang the position. The tea making device disclosed by the application can be applied in various occasions, is simple in structure, low in production cost, convenient to operate and good in sealing performance, and improves user experience.

Description

Tea making device and water dispenser

Technical Field

The application relates to the technical field of small household appliances, in particular to a tea making device and a water dispenser.

Background

The faucet of traditional ware of making tea generally lies in upper portion border position, when connecing and getting tea, needs to incline the ware of making tea, just can realize going out water in faucet department, and the lateral wall of the in-process of slope tea making ware touching the tea making ware easily has certain potential safety hazard, moreover, causes the sputter of tea easily, and user experience is relatively poor.

With the increasingly accelerated pace of life and the increasingly improved quality of life, the traditional tea making mode cannot meet the requirements of partial consumers, and some novel tea bar machines or water dispensers with the brewing function, especially water dispensers with the tea making function, on the market at present are popular with consumers. In addition, in order to filter and soak the tea water in the tea making device, an independent opening and closing device for opening or closing a water outlet of the tea making device needs to be arranged between the tea making position and the water receiving position of the machine body, so that the structure of the whole machine is complex, and the cost is increased. And the corresponding structural design of the tea making device applied to the water dispenser only aims at serving the machine type of the water dispenser and the corresponding brewing or filtering function, so that the application scene of the tea making device is limited.

SUMMERY OF THE UTILITY MODEL

The present application provides a tea maker to solve at least one of the above technical problems.

The technical scheme adopted by the application is as follows:

the tea making device comprises a cup body and a valve assembly, wherein the cup body is provided with a water outlet, the valve assembly is installed on the cup body, the valve assembly comprises a valve core and an operation assembly, the operation assembly comprises an operation piece and a magnetic piece connected with the operation piece, the magnetic piece is in magnetic fit with the valve core, and the operation piece is used for driving the magnetic piece to move so as to drive the valve core to open the water passing position of the water outlet and close the water stopping position of the water outlet.

The tea maker in the application also has the following additional technical characteristics:

the operating piece moves along the radial direction of the cup body to drive the valve core to switch between the water passing position and the water stopping position.

The valve assembly further comprises a locking piece which is linked with the operating piece so as to have a locking state that the operating piece is locked to enable the valve core to be in the water passing position and an unlocking state that the operating piece drives the valve core to be switched from the water passing position to the water stopping position.

The locking piece is of a structure made of elastic materials, the locking piece is provided with a positioning end connected with the cup body and a limiting end linked with the operating piece, and the operating piece is provided with a locking position and a releasing position which are matched with the limiting end; in the locking state, the limiting end is clamped into the locking position; in the unlocking state, the limiting end is clamped into the release position; the operating member is further provided with a guide structure extending between the locking position and the release position.

The guide structure comprises a first guide sliding groove, a second guide sliding groove and a third guide sliding groove which are sequentially communicated end to end, the first guide sliding groove and the second guide sliding groove are provided with communicated first ends, the third guide sliding groove and the first guide sliding groove are provided with communicated second ends, the locking position is located in the second guide sliding groove, and the releasing position is located at a position, close to the second ends, of the first guide sliding groove; the groove bottom surface of the first guide sliding groove at the second end position is lower than the groove bottom surface of the third guide sliding groove at the second end position, so that the limit end is switched from the release position to the locking position through the first guide sliding groove; the groove bottom surface of the first guide sliding groove at the first end position is higher than the groove bottom surface of the second guide sliding groove at the first end position, so that the limiting end is switched from the locking position to the releasing position through the third guide sliding groove.

A fixed seat is integrally formed at the bottom of the cup body, the water outlet is arranged on the fixed seat, the fixed seat is provided with a drainage channel communicated with the water containing cavity of the cup body, the valve core is arranged in the drainage channel, and the inner diameter of the drainage channel is smaller than that of the water containing cavity; the operating piece moves along the guide convex rib; the tea making device further comprises a tray, the tray is detachably mounted at the bottom of the fixing seat, the operating part is movably arranged between the tray and the fixing seat, and the tray is provided with avoiding holes opposite to the water outlet.

And a cavity arranged around the drainage channel is arranged in the fixed seat.

The tea making device also comprises a sealing element arranged at the water outlet, and the sealing element is provided with a flow passage communicated with the water containing cavity of the cup body; the sealing element comprises a sealing element body and an upper sealing part fixedly connected with the sealing element body, and the inner diameter of the upper sealing part is sequentially reduced from top to bottom to form a necking structure.

The sealing element is detachably arranged at the water outlet; the cup body with the position department that upper seal position is relative is equipped with convex first spacing protruding muscle, and/or, the upper seal portion towards one side of cup is equipped with convex second spacing protruding muscle, the cup with the upper seal portion passes through first spacing protruding muscle and/or the interference fit of second spacing protruding muscle.

The application also provides a water dispenser, including the host computer and as above the tea making device, the host computer is equipped with the faucet and is located support position or the position of hanging of faucet below, the tea making device can take to put set up in support position or hang the position.

Due to the adoption of the technical scheme, the technical effects obtained by the application are as follows:

1. according to the tea making device, the valve assembly capable of controlling the water outlet of the cup body to be opened or closed is integrally arranged on the cup body, so that the tea making device is higher in independence and convenient to apply in various occasions without being matched with other accessories, for example, a device for opening or closing the water outlet of the tea making device is not required to be additionally arranged, the structure of equipment using the tea making device is facilitated to be simplified, and the production cost is reduced; for another example, when the tea making device is applied to a tea making machine, the water outlet can be opened or closed through a valve component arranged on the tea making device, and the brewing function and the filtering function can be realized in the cup body; if, as a tea making device, as the in-process that ordinary tea making container used, when need pouring tea, the user can hold its top to the water receiving cup, operation valve subassembly is opened the delivery port, can make the water receiving cup acquire the tea that flows from delivery port department, and needn't adopt traditional slope tea making container to realize the operation that tea emptys, reduce probability and the tea of staff contact tea making container's wall and the sputter probability takes place for tea, avoid the production of potential safety hazard, user experience has been promoted.

And the opening or closing of the water outlet is realized by the magnetic attraction matching of the magnetic force piece on the operating piece and the valve core, and the water outlet valve is simple in structure, convenient to install, high in reliability and low in cost. In addition, the cooperation of magnetism is inhaled can be non-contact nature complex form, consequently, has avoided trompil in order to realize being connected of operating part and case on the lateral wall of drainage channel, has both saved sealed cost, has guaranteed again that the structural strength of drainage channel department is not destroyed.

2. As a preferred embodiment of the application, the operating part moves along the radial direction of the cup body to drive the valve core to switch between the water passing position and the water stopping position, and compared with the technical scheme that the operating part swings around the radial direction of the cup body or the axial direction of the cup body, a user can control water outlet and stop water outlet only by simply pressing and pulling the operating part, the operation is convenient and fast, and extra torque cannot be generated to cause the cup body to twist and shake.

3. As a preferred embodiment of the application, the locking piece is linked with the operating piece, so that the operating piece can be locked by the locking piece in a locking state that the valve core is located at the water passing position, the hand is released from the operation that the operating piece needs to be pressed all the time to enable the magnetic piece to be close to the valve core so as to ensure the water outlet to be opened, the problems of increased attention and finger acid swelling caused by the fact that the hand keeps the posture for a long time are avoided, and user experience is improved.

4. As a preferred embodiment of the present application, the locking member is made of an elastic material, so that the locking member can be elastically deformed to be interlocked with the operating member, thereby switching between the locking position and the releasing position on the operating member, and simplifying the structural design of the locking member. The arrangement of the guide structure can enable the locking piece to be smoothly switched between the locking position and the releasing position, and the locking piece is prevented from being abnormally deformed in multiple directions and not reaching the preset position which the locking piece should reach.

5. In a preferred embodiment of the present invention, the fixing base is integrally formed at the bottom of the cup body, so that the fixing base can be assembled at a reduced cost, and the fixing base is provided with a drain passage for accommodating the valve element, thereby providing a movement space for switching the valve element between the water passage position and the water stop position. The arrangement of the guide convex rib plays a role in guiding the operation piece to move along the radial direction of the cup body, and the phenomenon that the magnetic piece triggers the valve core to lose effectiveness due to the fact that the operation piece deviates in the moving process is avoided. In addition, will the tray detachably install in the bottom of fixing base, the operating parts activity set up in the tray with between the fixing base for if magnetic force spare became invalid, can dismantle the tray in order to make things convenient for dismantling the change to magnetic force spare.

6. As an optimal implementation mode of this application, through be provided with in the fixing base and center on the cavity that drainage channel arranged, drainage channel is to the heat of fixing base outer wall conduction when utilizing this cavity can block out hot water, reduces the temperature of cup wall, and the setting of cavity can also reduce the whole weight of cup, makes the ware of making tea lighter.

7. As an optimal implementation mode of this application, through installing the sealing member in water outlet department, guarantee case and sealing member complex leakproofness, the phenomenon of leaking appears when avoiding the case to seal the delivery port, moreover, through making the internal diameter top-down of going up the sealing reduces in proper order in order to form the throat structure, can form the drainage to tea on the one hand, and on the other hand can form the guide effect to the removal of case for after the magnetic force became invalid, the case can be along throat structure downstream with the shutoff delivery port under the effect of dead weight.

8. In the water dispenser that this application provided, the host computer is in the faucet below is provided with the support position or hangs the position, make tea the ware can get put set up in support the position or hang the position, support the position or hang the setting of position, on the one hand, the placing of the tea ware of being convenient for no longer need lift the tea ware with the hand when the water receiving is made tea, the operation of making tea makes tea more convenient laborsaving, on the other hand, when concrete implementation, for example, when placing the tea ware in the position that hangs that the host computer set up, can leave the space of placing and connect the teacup in the below of the tea making ware, and then made things convenient for and connect the tea operation. In addition, the tea making device can be taken and placed, so that the water dispenser has multiple using states, for example, when the tea making device is taken down, plain boiled water is directly taken from the water outlet nozzle, and when the tea making device is placed in a supporting position or a hanging position, the tea making device is matched with the tea making device to take tea.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural diagram of a water dispenser formed by a main machine and a tea maker provided in the present application;

fig. 2 is an exploded view of a tea maker provided in an embodiment of the present application;

FIG. 3 is a first cross-sectional view of the tea maker according to the embodiment of the present application, showing the valve cartridge at the water passing position;

FIG. 4 is a second sectional view of the tea maker according to the embodiment of the present application, showing a state where the valve body is located at a water passing position;

fig. 5 is a third cross-sectional view of the tea maker provided in the embodiment of the present application, which shows a state where the valve core is located at the water stop position;

fig. 6 is a fourth sectional view of the tea maker provided in the embodiment of the present application, which shows a state where the valve core is located at the water-stopping position;

FIG. 7 is a schematic structural diagram of an operating element according to an embodiment of the present application;

FIG. 8 is a first cross-sectional view of an operating member provided in an embodiment of the present application;

FIG. 9 is a second cross-sectional view of an operating member in accordance with an embodiment of the present application;

FIG. 10 is a third cross-sectional view of an operating member provided in an embodiment of the present application;

FIG. 11 is a first schematic structural view of a cup provided in the embodiments of the present application;

fig. 12 is a second schematic structural view of a cup body according to an embodiment of the present disclosure;

FIG. 13 is a cross-sectional view of a cup provided in accordance with an embodiment of the present application;

FIG. 14 is a schematic structural diagram of a latch according to an embodiment of the present application;

FIG. 15 is a schematic structural diagram of a tray provided in an embodiment of the present application;

FIG. 16 is a schematic structural view of a seal provided in an embodiment of the present application;

FIG. 17 is a cross-sectional view of a seal provided in an embodiment of the present application;

fig. 18 is a schematic structural diagram of a host provided in an embodiment of the present application.

Reference numerals:

1, a tea making device, 11 cup bodies, 111 water outlets, 112 fixing seats, 1121 drainage channels, 1122 guide convex ribs, 1123 cavities, 1124 first limiting convex ribs, 1125 positioning holes, 113 hooks, 12 valve cores, 13 operation components, 131 operation parts, 1311 locking positions, 1312 releasing positions, 1313 first guide sliding grooves, 1314 second guide sliding grooves, 1315 third guide sliding grooves, 132 magnetic force parts, 133 protection cover shells, 14 locking parts, 141 positioning ends, 142 limiting ends, 15 trays, 151 avoiding holes, 16 sealing parts, 161 sealing part bodies, 162 upper sealing parts and 17 springs;

2 host, 21 hanging bit.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like refer to orientations or positional relationships illustrated in the drawings, which are used for convenience in describing the present application and to simplify the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting of the present application.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the prior art, the tea making device is widely applied, for example, a tea bar machine, a water dispenser, an electric ceramic stove, a tea boiling machine and the like.

In the embodiment of the present application, a tea making device and a water dispenser as shown in fig. 1 are provided, and for convenience of illustration and understanding, the following contents are provided on the basis of the product structure shown in the drawings. Of course, it is understood by those skilled in the art that the above-described structure is only used as a specific example and illustrative illustration, and does not constitute a specific limitation to the technical solution provided by the present application.

Specifically, as shown in fig. 2, the tea maker 1 comprises a cup body 11 and a valve assembly, wherein the cup body 11 is provided with a water outlet 111; the valve assembly is mounted on the cup body 11, the valve assembly comprises a valve core 12 and an operating assembly 13, the operating assembly 13 comprises an operating member 131 and a magnetic member 132 connected with the operating member 131, the magnetic member 132 is in magnetic fit with the valve core 12, and the operating member 131 is used for driving the magnetic member 132 to move so as to drive the valve core 12 to switch between a water-passing position for opening the water outlet 111 and a water-stopping position for closing the water outlet 111. As shown in fig. 3 and 4, the magnetic member 132 is magnetically engaged with the valve core 12 to open the water outlet 111; as shown in fig. 5 and 6, the magnetic member 132 and the valve element 12 are disengaged from each other to close the water outlet 111.

In the tea making device 1 that this application provided, open or the confined valve module integration sets up on cup 11 through the delivery port 111 that will control cup 11, and this kind of integrated form design makes tea making device 1's independence higher, is convenient for use under multiple occasion, and need not to arrange with other annexs.

For example, a device for opening and closing the water outlet of the tea making device is not required to be additionally arranged, so that the structure of equipment applying the tea making device is simplified, and the production cost is reduced; for another example, when the tea making device is applied to a tea making machine, the water outlet can be opened or closed through a valve component arranged on the tea making device, and the brewing function and the filtering function can be realized in the cup body; if, as a tea making device, as the in-process that ordinary tea making container used, when need pouring tea, the user can hold its top to the water receiving cup, operation valve subassembly is opened the delivery port, can make the water receiving cup acquire the tea that flows from delivery port department, and needn't adopt traditional slope tea making container to realize the operation that tea emptys, reduce probability and the tea of staff contact tea making container's wall and the sputter probability takes place for tea, avoid the production of potential safety hazard, user experience has been promoted.

Moreover, the opening or closing of the water outlet 111 is realized by the magnetic attraction matching of the magnetic force piece 132 on the operating piece 131 and the valve core 12, and the water outlet is simple in structure, convenient to install, high in reliability and low in cost. In addition, the magnetic attraction fit can be a non-contact fit, so that a hole is avoided being formed in the side wall of the drainage channel 1121 to connect the operation member 131 and the valve core 12, thereby saving the sealing cost and ensuring that the structural strength of the drainage channel 1121 is not damaged.

It should be noted that, the moving manner of the operating element is not specifically limited in the present application, for example, the operating element may rotate around the radial direction of the cup body or swing around the axial direction of the cup body to switch between two positions, so that the magnetic element drives the valve element to switch between the water passing position and the water stopping position, and further, the operating element may move along the radial direction of the cup body to drive the valve element to switch between the water passing position and the water stopping position. Of course, the operating member may be moved relative to the cup body in other suitable ways to effect water flow or water stop.

As a preferred embodiment of the present application, the operating member 131 may be moved in a radial direction of the cup 11 to switch the valve element 12 between the water passage position and the water stop position.

As shown in fig. 4, in a state where the magnetic member 132 is magnetically engaged with the valve element 12 to open the water outlet 111 when the operating member 131 is close to the valve element 12, and in a state where the magnetic member 132 is disengaged from the valve element 12 to close the water outlet 111 when the operating member 131 is far from the valve element 12, as shown in fig. 5, it can be seen that the operating member 131 is moved along the radial direction of the cup body 11 to drive the valve element 12 to switch between the water passing position and the water stopping position, compared with the technical scheme that the operating member 131 swings around the radial direction of the cup body 11 or the axial direction of the cup body 11, a user can control water outlet and water stop outlet only by simply pressing and pulling the operating member 131, the operation is convenient and fast, and additional torque is not generated to cause torsional shaking of the cup body 11. Preferably, as shown in fig. 2 and 3, a protective cover 133 may be fitted to the outside of the operating element 131, and the operating element may be protected by the protective cover 133.

As a preferred example of the present embodiment, as shown in fig. 2, 4 and 6, the valve assembly may further include a lock member 14, and the lock member 14 may be interlocked with the operating member 131 to have a locked state in which the operating member 131 is locked at the water passage position of the valve body 12 and an unlocked state in which the operating member 131 moves the valve body 12 from the water passage position to the water stop position.

As shown in fig. 4, in a state where the operating element 131 is locked by the locking element 14, at this time, the operating element 131 cannot automatically drive the magnetic element 132 to move away from the valve element 12, and the valve element 12 is positioned at the water passing position, so that the water outlet 111 is always in an open state; as shown in fig. 6, in a state that the operating element 131 is unlocked by the locking element 14, the operating element 131 can drive the magnetic element 132 to move away from the valve element 12, so that the magnetic element 132 is released from magnetic attraction with the valve element 12, and the valve element 12 falls to the water stopping position to close the water outlet 111. Therefore, the locking member 14 is linked with the operating member 131, so that the operating member 131 can be locked by the locking member 14 in a locked state in which the valve element 12 is in the water passing position, and a human hand is released from an operation that the operating member 131 needs to be pressed all the time to enable the magnetic member 132 to be close to the valve element 12 to ensure that the water outlet 111 is opened, thereby avoiding the problems of increased attention and finger soreness caused by the fact that the human hand keeps the posture for a long time, and improving user experience.

As a preferred embodiment, as shown in fig. 5, a spring 17 may be disposed between the cup 11 and the operating element 131, so that after the operating element 131 is unlocked, the operating element 131 is driven by the elastic force of the spring 17 to automatically drive the magnetic element 132 to move away from the valve element 12 to close the water outlet 111, and the operating element 131 does not need to be pulled by a human hand, thereby further improving user experience.

In this embodiment, regarding the manner of locking the operating element 131 by the locking member 14, in a preferred embodiment, as shown in fig. 7 and 14, the locking member 14 may be made of an elastic material, the locking member 14 has a positioning end 141 connected to the cup 11 and a limiting end 142 interlocked with the operating element 131, and the operating element 131 is provided with a locking position 1311 and a releasing position 1312 adapted to the limiting end 142; in the locked state, the limiting end 142 is clamped into the locking position 1311; in the unlocked state, the position-limiting end 142 is clamped into the release position 1312; the operating member 131 is further provided with a guiding structure extending between the locking position 1311 and the release position 1312. In a specific implementation, as shown in fig. 12, a positioning hole 1125 may be formed on the cup body to match with the positioning end 141.

As shown in fig. 4, in order to lock the operating element 131 by the lock member 14 in a locked state in which the valve core 12 is in the water passing position, at this time, the limit end 142 is clamped into the lock position 1311 of the operating element 131, so that the operating element 131 is limited in the position and is prevented from automatically moving; as shown in fig. 6, in the unlocked state in which the operating element 131 is unlocked by the lock member 14 so that the valve body 12 is in the water stop position, the stopper end 142 is caught in the release position 1312 of the operating element 131.

By making the locking member 14 of a structure made of an elastic material, the locking member 14 can be interlocked with the operating member 131 by elastic deformation of itself, so that the locking position 1311 and the releasing position 1312 on the operating member 131 can be switched, and the structural design of the locking member 14 is simplified. The guiding structure is arranged to smoothly switch the lock member 14 between the lock position 1311 and the release position 1312, and prevent the lock member 14 from being deformed abnormally in multiple directions and from being unable to reach the preset position that it should reach.

As to the specific form of the guiding structure, in a preferred example, as shown in fig. 7 to 10, the guiding structure may include a first guiding chute 1313, a second guiding chute 1314 and a third guiding chute 1315 which are sequentially communicated end to end, the first guiding chute 1313 and the second guiding chute 1314 have a first end communicated, the third guiding chute 1315 and the first guiding chute 1313 have a second end communicated, the locking position 1311 is located in the second guiding chute 1314, and the releasing position 1312 is located at a position of the first guiding chute 1313 close to the second end.

Furthermore, as shown in fig. 8 and 9, the groove bottom surface of the first guide runner 1313 at the second end position may be lower than the groove bottom surface of the third guide runner 1315 at the second end position, so that the stopper 142 is switched from the release position 1312 to the lock position 1311 via the first guide runner 1313; the groove bottom surface of the first guide runner 1313 at the first end position is higher than the groove bottom surface of the second guide runner 1314 at the first end position, so that the stopper 142 is switched from the locking position 1311 to the release position 1312 through the third guide runner 1315.

Compared with the mode that the limit end 142 switches from the release position 1312 to the lock position 1311 along the first guide sliding groove 1313 and from the lock position 1311 to the release position 1312 along the third guide sliding groove 1315, the mode that the limit end 142 switches from the release position 1312 to the lock position 1311 and from the lock position 1311 to the release position 1312 along the same guide sliding groove can be compared with the mode that the limit end 142 switches from the release position 1312 to the lock position 1311 and from the lock position 1311 to the release position 1312 along the same guide sliding groove, guide inclined surfaces which are adapted to the sliding of the limit end 142 can be arranged in the first guide sliding groove 1313 and the third guide sliding groove 1315 respectively, the two guide inclined surfaces cannot interfere with each other, and the limit of the height of the groove bottom surface of each guide sliding groove 1312 forms a stop and a guide for the elastic deformation direction of the limit end 142, so that the switch between the lock position 1311 and the release position according to a preset track.

In this embodiment, although the drawings do not show the manner of locking the operating element 131 by the locking element 14, in an alternative embodiment, the locking element may be configured to lock the operating element 131 by other manners, for example, a locking manner similar to a push-type ball pen may be adopted, and for example, a lock hole may be provided on the cup body, the locking element is fixedly disposed on the operating element, when the operating element drives the magnetic element to move so that the magnetic element cooperates with the valve core to open the water outlet, the locking element cooperates with the lock hole in a limiting manner to limit the movement of the operating element to position the valve core at the water passing position, the locking element is disengaged from the lock hole by pressing the locking element to unlock the operating element, and the operating element can move away from the valve core, so that the valve core is switched to the water stopping position.

As a preferred embodiment of the present application, as shown in fig. 3, 11 and 13, a fixed seat 112 may be integrally formed at the bottom of the cup body 11, the water outlet 111 is disposed on the fixed seat 112, the fixed seat 112 is provided with a water drainage channel 1121 communicating with a water containing cavity of the cup body 11, the valve element 12 is disposed in the water drainage channel 1121, and an inner diameter of the water drainage channel 1121 is smaller than an inner diameter of the water containing cavity; the fixed seat 112 is integrally and fixedly connected with a guide rib 1122, and the operating element 131 moves along the guide rib 1122; as shown in fig. 2, fig. 3 and fig. 15, the tea maker 1 further includes a tray 15, the tray 15 is detachably mounted at the bottom of the fixing seat 112, the operating member 131 is movably disposed between the tray 15 and the fixing seat 112, and the tray 15 is provided with an avoiding hole 151 opposite to the water outlet 111.

The fixing seat 112 is integrally formed at the bottom of the cup body 11, so that the assembly cost of the fixing seat 112 can be reduced, and the drain passage 1121 for accommodating the valve element 12 is provided in the fixing seat 112 to provide a moving space for switching the valve element 12 between the water passing position and the water stopping position. The guiding ribs 1122 are provided to guide the radial movement of the operating member 131 along the cup body 11, so as to prevent the magnetic member 132 from triggering the valve element 12 to fail due to the deviation of the operating member 131 in the moving process.

Moreover, by making the inner diameter of the drainage channel 1121 smaller than that of the water containing cavity, the tea water can be discharged in a relatively gentle flowing state, and the splashing of the tea water can be avoided compared with a mode that the tea water flows out by being poured out from a large opening, and in addition, the valve core 12 placed in the drainage channel 1121 can be prevented from moving in a large range, so that the position switching of the valve core 12 is easier to control and more sensitive. Of course, the inner diameter of the drainage channel 1121 needs to be slightly larger than the outer diameter of the valve core 12 to realize the switching between the water passing position and the water stopping position of the valve core 12, and the tea water can flow out along the drainage channel 1121 when the valve core 12 is in the water passing position.

In addition, the tray 15 is detachably mounted at the bottom of the fixing seat 112, and the operating part 131 is movably disposed between the tray 15 and the fixing seat 112, so that if the magnetic member 132 fails, the tray 15 can be detached to facilitate detachment and replacement of the magnetic member 132. Moreover, when the tea making device 1 is placed on the table board, the tea making device 1 can be flatly placed through the contact of the tray 15 and the table board, and the phenomenon that the tea making device 1 is inclined to cause overflow of tea water is avoided.

It should be noted that the detachable connection manner of the tray 15 and the fixing base 112 is not limited in this application, and includes, but is not limited to, screwing, fastening connection with screws, etc., snap-fit of a buckle and a buckle position, screwing of a screw and a screw groove, etc.

As a preferred example of the present embodiment, as shown in fig. 11, a cavity 1123 disposed around the drainage channel 1121 may be provided in the fixing base 112.

By arranging the cavity 1123 around the drainage channel 1121 in the fixed seat 112, the cavity 1123 can block heat conducted from the drainage channel 1121 to the outer wall of the fixed seat 112 when hot water is discharged, so as to reduce the temperature of the cup wall of the cup body 11, and the weight of the cavity 1123 on the whole cup body 11 makes the tea maker 1 lighter.

As a preferred embodiment of the present application, as shown in fig. 5, 16 and 17, all the previous embodiments and examples of the present application can further make the tea maker 1 further include a sealing member 16 installed at the water outlet 111, wherein the sealing member 16 has a flow passage communicating with the water containing cavity of the cup body 11; the sealing member 16 includes a sealing member body 161 and an upper sealing portion 162 fixedly connected to the sealing member body 161, wherein an inner diameter of the upper sealing portion 162 is sequentially reduced from top to bottom to form a necking structure.

The setting of sealing member 16, through case 12 and the cooperation of sealing member 16, the phenomenon of leaking appears when avoiding case 12 to seal delivery port 111, moreover, through making the internal diameter top-down of upper seal portion 162 reduces in proper order in order to form the throat structure, can form the drainage to tea on the one hand, and on the other hand can form the guide effect to the removal of case 12 for after the magnetic force became invalid, case 12 can move down along the throat structure with shutoff delivery port 111 under the effect of dead weight.

Further, the sealing member 16 may be detachably mounted at the water outlet 111.

The seal 16 is removable so that when the seal 16 becomes worn or damaged to cause the seal to fail, the seal 16 can be replaced to ensure sealing performance at the outlet 111.

Specifically, as shown in fig. 13, a first protruding limiting rib 1124 is disposed at a position of the cup 11 opposite to the position of the upper sealing portion 162, and the cup 11 and the upper sealing portion 162 are in interference fit via the first limiting rib 1124, so as to improve the sealing performance of the sealing element 16 on the water outlet 111. Of course, as an alternative, a second protruding limiting rib (not shown in the figure) may be disposed on one side of the upper sealing portion 162 facing the cup body 11, so that the cup body 11 and the upper sealing portion 162 are in interference fit with each other through the second protruding limiting rib or the cup body 11 and the upper sealing portion 162 are in interference fit with each other through the first protruding limiting rib 1124 and the second protruding limiting rib.

Regarding the water dispenser provided by the present application, the water dispenser includes a main machine 2 and the tea making device 1 in all the embodiments, the main machine 2 is provided with a water outlet nozzle and a supporting position or a hanging position located below the water outlet nozzle, and the tea making device 1 is arranged in the supporting position or the hanging position in a removable manner.

The tea making device 1 is designed to be removable, so that the water dispenser has multiple use states, for example, when the tea making device 1 is removed, plain boiled water is directly collected from the water outlet nozzle, and when the tea making device 1 is placed in a supporting position or a hanging position, the tea making device 1 is matched to collect tea.

As shown in fig. 1, fig. 12 and fig. 18, this application is schematically in the lateral wall of host computer 2 has set up the position 21 that hangs that is used for placing tea making device 1, set up on cup 11 be used for with hang position 21 complex couple 113, hang the setting of position 21, the placing of tea making device 1 of being convenient for, no longer need to hold up tea making device 1 with the hand when water receiving is made tea, the operation of making tea is more convenient laborsaving, moreover, place tea making device 1 in hanging position 21, can leave the space of placing the tea receiving cup in the below of tea making device 1, and then made things convenient for the operation of receiving tea.

Where not mentioned in this application, can be accomplished using or referencing existing technology.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A tea maker, comprising:

the cup body is provided with a water outlet;

the valve assembly is installed on the cup body and comprises a valve core and an operating assembly, the operating assembly comprises an operating part and a magnetic part connected with the operating part, the magnetic part is in magnetic fit with the valve core, and the operating part is used for driving the magnetic part to move so as to drive the valve core to switch between a water passing position for opening the water outlet and a water stopping position for closing the water outlet.

2. A tea maker according to claim 1,

the operating piece moves along the radial direction of the cup body to drive the valve core to switch between the water passing position and the water stopping position.

3. A tea maker according to claim 2,

the valve assembly further comprises a locking piece which is linked with the operating piece so as to have a locking state that the operating piece is locked to enable the valve core to be in the water passing position and an unlocking state that the operating piece drives the valve core to be switched from the water passing position to the water stopping position.

4. A tea maker according to claim 3,

the locking piece is of a structure made of elastic materials, the locking piece is provided with a positioning end connected with the cup body and a limiting end linked with the operating piece, and the operating piece is provided with a locking position and a releasing position which are matched with the limiting end; in the locking state, the limiting end is clamped into the locking position; in the unlocking state, the limiting end is clamped into the release position; the operating member is further provided with a guide structure extending between the locking position and the release position.

5. A tea maker according to claim 4,

the guide structure comprises a first guide sliding groove, a second guide sliding groove and a third guide sliding groove which are sequentially communicated end to end, the first guide sliding groove and the second guide sliding groove are provided with communicated first ends, the third guide sliding groove and the first guide sliding groove are provided with communicated second ends, the locking position is located in the second guide sliding groove, and the releasing position is located at a position, close to the second ends, of the first guide sliding groove;

a groove bottom surface of the first guide chute at the second end position is lower than a groove bottom surface of the third guide chute at the second end position, so that the limit end is switched from the release position to the lock position through the first guide chute; the groove bottom surface of the first guide sliding groove at the first end position is higher than the groove bottom surface of the second guide sliding groove at the first end position, so that the limiting end is switched from the locking position to the releasing position through the third guide sliding groove.

6. A tea maker according to claim 1,

a fixed seat is integrally formed at the bottom of the cup body, the water outlet is arranged on the fixed seat, the fixed seat is provided with a drainage channel communicated with the water containing cavity of the cup body, the valve core is arranged in the drainage channel, and the inner diameter of the drainage channel is smaller than that of the water containing cavity; the operating piece moves along the guide convex rib;

the tea making device further comprises a tray, the tray is detachably mounted at the bottom of the fixing seat, the operating piece is movably arranged between the tray and the fixing seat, and the tray is provided with avoiding holes opposite to the water outlet.

7. A tea maker according to claim 6,

and a cavity arranged around the drainage channel is arranged in the fixed seat.

8. A tea maker according to any one of claims 1 to 7,

the tea making device also comprises a sealing element arranged at the water outlet, and the sealing element is provided with a flow passage communicated with the water containing cavity of the cup body;

the sealing element comprises a sealing element body and an upper sealing part fixedly connected with the sealing element body, and the inner diameter of the upper sealing part is sequentially reduced from top to bottom to form a necking structure.

9. A tea maker according to claim 8,

the sealing element is detachably arranged at the water outlet;

the cup body with the position department that upper seal position is relative is equipped with convex first spacing protruding muscle, and/or, the upper seal portion towards one side of cup is equipped with convex second spacing protruding muscle, the cup with the upper seal portion passes through first spacing protruding muscle and/or the interference fit of second spacing protruding muscle.

10. A water dispenser, characterized in that, it comprises a main machine and the tea maker as claimed in any one of claims 1 to 9, the main machine is provided with a water outlet nozzle and a supporting position or a hanging position below the water outlet nozzle, the tea maker can be arranged in the supporting position or the hanging position in a pick-and-place manner.

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