CN210055515U - Cup body, cup holder and portable intelligent water cup - Google Patents

Abstract

The utility model provides a cup, cup and portable intelligent drinking cup relates to electronic equipment technical field. Portable intelligent drinking cup includes cup and cup, and the cup includes: the heating element, the temperature detector, the conducting ring, the inner container with an opening and the shell. The inner container is arranged in the shell and used for containing liquid, the heating body and the conducting ring are arranged on one side of the inner container, which is far away from the opening, and the conducting ring is electrically connected with the heating body and the temperature detector. The conducting ring is used for supplying power to the heating body when being communicated with the power supply and sending a detection signal fed back by the temperature detector. The heating body is used for heating the inner container based on the power supply of the conducting ring. The temperature detector is used for detecting temperature and feeding back a detection signal to the conducting ring. The cup base can be the cup power supply, and cup base detachable connection. The portable intelligent water cup disclosed by the disclosure is ingenious in structural design, convenient to realize and wide in applicable scene.

Description

Cup body, cup holder and portable intelligent water cup

Technical Field

The utility model relates to the technical field of electronic equipment, particularly, relate to a cup, cup and portable intelligent drinking cup.

Background

The water cups are common containers for containing liquid, and along with the development of intelligent technology, more and more water cups are added with intelligent functions, for example, the automatic heating is realized, and the functions of measuring and reminding water temperature are supported; as another example, a function of recording and prompting the water intake of the user. However, research shows that the convenience of the existing water cup with the intelligent function is to be improved, and the applicable scene is limited.

SUMMERY OF THE UTILITY MODEL

In view of this, this disclosure provides a cup, a cup and portable intelligent drinking cup.

In one aspect, the present disclosure provides a cup body comprising: the heating element, the temperature detector, the conducting ring, the inner container with an opening and the shell;

the inner container is arranged in the shell and used for containing liquid; the heating body and the conducting ring are arranged on one side of the inner container far away from the opening; the conducting ring is electrically connected with the heating body and the temperature detector;

the conducting ring is used for supplying power to the heating body and sending a detection signal fed back by the temperature detector when the power supply is connected; the heating body is used for heating the inner container based on the power supply of the conducting ring; the temperature detector is used for detecting temperature and feeding back a detection signal to the conducting ring.

In one implementation mode, the space between the shell and the inner container is sealed and vacuumized, the cup body further comprises a cup cover, the cup cover is matched with the openings of the shell and the inner container, and a sealed space is formed between the cup cover and the inner container after the cup cover is covered on the opening;

and a first connecting component for connection is arranged on one side of the shell, which is far away from the opening.

In one implementation manner, the heating element is an annular ceramic heating sheet, the annular ceramic heating sheet is attached to one side of the inner container, which is away from the opening, a through hole is formed in one side of the inner container, which is away from the opening, and the detection part of the temperature detector penetrates through the annular ceramic heating sheet and the through hole and stretches into the inner container.

In one implementation, the conductive ring includes a first sub-conductive ring, a second sub-conductive ring, and a third sub-conductive ring;

the first sub-conducting ring and the second sub-conducting ring are respectively electrically connected with the heating element, and the first sub-conducting ring and the second sub-conducting ring are communicated with a power supply to form a positive electrode and a negative electrode which supply power to the heating element; the third sub-conducting ring is electrically connected with the temperature detector, and the third sub-conducting ring is communicated with a power supply and then sends a detection signal fed back by the temperature detector.

On the other hand, this disclosure still provides a cup, with foretell cup adaptation, the cup includes: the circuit board is mounted on the shell, and the key, the conductive thimble and the power socket are mounted on the circuit board and are electrically connected with the circuit board;

the key is used for controlling the working state of the circuit board according to an operation instruction of a user; the power socket is used for connecting a power supply and supplying power to the circuit board, after the cup body is connected with the cup seat, the conductive thimble can be in contact with the conductive ring of the cup body, so that electric energy is provided for the conductive ring, and a detection signal fed back by the conductive ring is sent to the circuit board.

In one implementation mode, the cup holder further comprises a light component, a light guide part and a buzzer, wherein the light component, the light guide part and the buzzer are electrically connected with the circuit board;

the circuit board is used for controlling the color change of the light component according to the operation instruction, light emitted by the light component is displayed through the light guide piece, the circuit board is used for receiving a detection signal fed back by the conducting ring, and the buzzer is controlled to remind after the heating is determined to be completed according to the detection signal.

In one implementation, the key is disposed at a middle position within the housing.

In one implementation mode, the circuit board is integrated with a control chip and a power supply chip, the power supply chip is electrically connected with the power supply socket, and the control chip is electrically connected with the power supply chip and the conductive thimble;

the control chip is a Bluetooth chip or a single chip microcomputer chip which can communicate with the user terminal; the power supply chip supports a PD protocol; the power socket is a USBC type interface.

In one implementation, the casing is provided with a second connecting structure member for connection, and the cup body and the cup holder can be detachably connected with the second connecting structure member on the cup holder through the first connecting structure member on the cup body.

In another aspect, the present disclosure provides a portable intelligent water cup, which comprises the above cup body and cup holder, wherein the cup body and the cup holder are detachably connected.

The utility model provides a cup, cup and portable intelligent drinking cup, cup and cup detachable connection, cup and cup connection back cup can realize the heating function conveniently, and based on the disconnect-type design of cup and cup, in the use, the user can take and place the cup conveniently, and it is comparatively convenient to realize, and suitable scene is wider.

Further, according to the cup body, the cup base and the portable intelligent water cup, the shell and the inner container of the cup body are sealed and vacuumized, so that internal and external heat exchange is effectively reduced, the heat insulation effect is ensured, the heat preservation time of the cup body is longer, the energy consumption in the heating process is effectively reduced, and the cup body, the cup base and the portable intelligent water cup are environment-friendly and energy-saving. The cup body and the cup seat are detachably connected through the first connecting structural part and the second connecting structural part, and the cup body and the cup seat are connected together based on the coupling mode of the structural parts, so that the cup is convenient to carry outside. The cup holder adopts a USBC type interface as a power socket, and a power chip supports a PD protocol, so that 12V power supply heating can be realized by adopting a mobile phone adapter supporting a quick-charging PD protocol, a vehicle-mounted charger and the like, and the cup holder is convenient for a user to use in various scenes such as families, offices, vehicles and the like.

In order to make the aforementioned objects, features and advantages of the present disclosure more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

To more clearly illustrate the technical solutions of the present disclosure, the drawings needed for the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present disclosure, and therefore should not be considered as limiting the scope, and those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic cross-sectional structure view of a portable intelligent water cup provided by the present disclosure.

Fig. 2 is a schematic structural view of a side of the cup body connected with the cup holder provided by the present disclosure.

Fig. 3 is a schematic structural view of a connecting side of a cup holder and a cup body provided by the present disclosure.

Fig. 4 is an overall structural schematic diagram of a portable intelligent water cup provided by the present disclosure.

Icon: 1-portable intelligent water cup; 10-cup body; 11-a housing; 12-inner container; 13-a heating element; 14-a temperature detector; 15-a conductive ring; 16-a first connecting member; 20-a cup holder; 21-a housing; 22-a circuit board; 23-a key; 24-a conductive thimble; 25-a power socket; 26-a light assembly; 27-a light guide; 28-a second connecting structure; 30-a cup cover; 31-the cup cover body; 32-an upper cover body; 33-a bouncing structure; 34-lower cover.

Detailed Description

The technical solutions in the present disclosure will be described clearly and completely with reference to the accompanying drawings in the present disclosure, and it is to be understood that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. The components of the present disclosure, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present disclosure, presented in the figures, is not intended to limit the scope of the claimed disclosure, but is merely representative of selected embodiments of the disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the disclosure without making creative efforts, shall fall within the protection scope of the disclosure.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

As shown in FIG. 1, the present disclosure provides a portable intelligent water cup 1, which comprises a cup body 10 and a cup base 20, wherein the cup body 10 and the cup base 20 are detachably connected. Based on this kind of cup 10 and cup stand 20's disconnect-type design, in the use, the user can take and place cup 10 conveniently, and it is comparatively convenient to carry.

The cup body 10 that can be applied to above-mentioned portable intelligent drinking cup 1 that this disclosure provides includes: a heating body 13, a temperature detector 14, a conductive ring 15, an inner container 12 having an opening, and a case 11.

Wherein the inner container 12 is disposed in the outer casing 11 for containing liquid. The heating element 13 and the conductive ring 15 are mounted on the side of the inner container 12 away from the opening. The conductive ring 15 is electrically connected to the heating element 13 and the temperature detector 14. The conductive ring 15 is used for supplying power to the heating element 13 and sending a detection signal fed back by the temperature detector 14 when the power supply is connected. The heating element 13 is configured to heat the inner container 12 based on power supplied from the conductive ring 15. The temperature detector 14 is used for detecting temperature and feeding back a detection signal to the conductive ring 15.

In order to ensure the heat preservation effect, the space between the shell 11 and the inner container 12 can be sealed and vacuumized. The housing 11 and the inner container 12 may be made of various materials, for example, stainless steel.

The cup body 10 can further comprise a cup cover 30, the cup cover 30 is matched with the openings of the shell 11 and the inner container 12, and a sealed space is formed between the cup cover 30 and the inner container 12 after the cup cover 30 is covered on the openings. The cup cover 30 can be connected to the opening in various ways, for example, the cup cover 30 can be buckled at the opening, for example, an external thread can be arranged at a position of the inner container 12 close to the opening, an internal thread can be arranged on the cup cover 30, and the cup cover 30 is rotatably connected to the opening of the inner container 12 through the thread.

To improve the convenience of the cup 10, the lid 30 may be designed to be operated with one hand, for example, the lid 30 may be designed to be a pop-up lid, such as a pop-up lid including a lid body 31, an upper lid body 32, a pop-up structure 33, and a lower lid body 34. The bouncing structure 33 is triggered to act by pressing the upper cover body 32, so that the cup cover 30 is opened or closed. For example, when the upper lid 32 is pressed, the lower lid 34 moves along with the upper lid 32, so that a gap through which liquid in the inner container 12 can flow out is formed between the lower lid 34 and the lid main body 31. For example, when the upper lid 32 is pressed, the bouncing structure 33 locks to seal the lower lid 34 and the lid body 31 to prevent the liquid in the inner container 12 from flowing out. Thereby opening or closing the cap 30 by one-handed operation.

The heating element 13 may be various, and for example, may be a heating coil, a heating rod, a heating sheet, a heating film, or the like. Based on volume and cost considerations, in one implementation, the heat generating body 13 may be a heat generating sheet, such as a ceramic heat generating sheet. The heating body 13 may be provided in various shapes according to the required heating power. For example, the heating element 13 may be an annular ceramic heating sheet attached to one side of the inner container 12 away from the opening, one side of the inner container 12 away from the opening has a through hole, and the detection portion of the temperature detector 14 penetrates through the annular ceramic heating sheet and the through hole to penetrate into the inner container 12, so that the temperature detector 14 can directly contact with the liquid in the inner container 12 for temperature measurement. For another example, the side of the inner container 12 away from the opening may not be provided with a through hole, and the temperature detector 14 is directly mounted on the cup body 10 through a structural member to perform temperature measurement, for example, the temperature detector 14 is pressed against the bottom of the inner container 12 through a spring to perform temperature measurement.

The heating element 13 can be disposed on the side of the inner container 12 away from the opening in various ways. For example, this can be achieved by means of glue or structural fixing. If the heating element 13 is a PI (polyimide film), the PI film may be attached to the bottom of the inner container 12 by a back adhesive method. Under the condition that the heating body 13 is a ceramic heating sheet, the ceramic heating sheet can be attached to the bottom of the inner container 12 (far from the opening side) in a structure fixing mode, and a heat conduction material such as heat conduction silicone grease is arranged between the ceramic heating sheet and the bottom of the inner container 12.

It is understood that the inner container 12 is located in the outer container 11, the heating element 13 and the temperature detector 14 are located between the inner container 12 and the outer container 11, and a structure for fixing the heating element 13 and the temperature detector 14 may be provided on a side of the outer container 11 facing the inner container 12. The conductive ring 15 is disposed at the bottom (the side away from the opening) of the housing 11 and is electrically connected to the heating element 13 and the temperature detector 14, respectively, for example, by wires.

Referring to fig. 2, the conductive ring 15 of the present disclosure may include a first sub-conductive ring 15, a second sub-conductive ring 15, and a third sub-conductive ring 15. The first sub-conducting ring 15 and the second sub-conducting ring 15 are respectively electrically connected to the heating element 13, and the first sub-conducting ring 15 and the second sub-conducting ring 15 are connected to a power supply to form a positive electrode and a negative electrode for supplying power to the heating element 13. The third sub conductive ring 15 is electrically connected to the temperature detector 14, and the third sub conductive ring 15 sends a detection signal fed back by the temperature detector 14 after being connected to a power supply. The detection signal may be a voltage signal, and the temperature detector 14 feeds back different voltage signals according to different temperatures detected.

In order to facilitate the connection of the cup 10 with a cup holder 20 or the like capable of supplying power, a first connecting member 16 is provided on a side of the housing 11 away from the opening for connection. The first connecting member 16 may be a flexible choice, for example, a fastener for fastening, or a boss (a boss structure is shown in fig. 2) disposed on the periphery of the housing 11 for screwing.

Referring to fig. 1, 3 and 4, the present disclosure also provides a cup holder 20, wherein the cup holder 20 is adapted to the cup body 10 and can supply power to the cup body 10. The cup holder 20 includes: the shell 21, the circuit board 22, the keys 23, the conductive pins 24 and the power socket 25. The circuit board 22 is mounted on the housing 21, and the keys 23, the conductive pins 24 and the power socket 25 are mounted on the circuit board 22 and electrically connected to the circuit board 22.

The key 23 is used for controlling the working state of the circuit board 22 according to an operation instruction of a user. The power socket 25 is used for connecting a power supply and supplying power to the circuit board 22, and after the cup body 10 is connected with the cup base 20, the conductive thimble 24 can be in contact with the conductive ring 15 of the cup body 10 to provide power for the conductive ring 15, and a detection signal fed back by the conductive ring 15 is sent to the circuit board 22.

Considering that the cup holder 20 may have a dark light when it is mounted in a vehicle or the like, for convenience of operation, the cup holder 20 may further include a light assembly 26, a light guide 27, and a buzzer (not shown) electrically connected to the circuit board 22. The circuit board 22 is configured to control color change of the light assembly 26 according to the operation instruction, light emitted by the light assembly 26 is displayed through the light guide member 27, and the circuit board 22 is configured to receive a detection signal fed back by the conductive ring 15 and control the buzzer to remind after it is determined that heating is completed according to the detection signal.

The positions of the Light guide 27, the Light module 26, the keys 23, etc. may be flexibly set, for example, the Light module 26 may include LED (Light Emitting Diode) lamps, each LED lamp may be disposed at the edge of the housing 21, correspondingly, the Light guide 27 is also disposed at the edge of the housing 21, and the Light guide 27 transmits Light emitted by the LED lamp. The key 23 may be provided at a central position within the housing 21. By providing the keys 23 at a central location within the housing 21, the user is able to more conveniently operate the keys 23 when placing the cup holder 20 in a cavity that accommodates a cup, such as in a vehicle.

To further enhance the convenience of operation and the experience of use of the cup holder 20, controlling the color change of the light assembly 26 according to the operation command may include: the user selects different heating temperatures through the operation keys 23, and the control light assembly 26 displays different colors according to different selected heating temperatures, for example, when the selected heating temperature is lower than 40 degrees, the control light assembly 26 can display green, when the selected heating temperature is higher than 40 degrees and lower than 60 degrees, the control light assembly 26 can display blue, and when the selected heating temperature is higher than 60 degrees, the control light assembly 26 can display red and the like, so that the user can conveniently know the selected heating temperature. In addition, the buzzer is controlled to remind after the heating is determined to be completed, so that a user can conveniently know whether the heating is completed.

In order to realize the functions of the cup holder 20, the circuit board 22 may be integrated with a control chip and a power chip, the power chip is electrically connected to the power socket 25, and the control chip is electrically connected to the power chip and the conductive pins 24. The control chip can be a Bluetooth chip or a single chip microcomputer chip which can communicate with the user terminal. The power chip may support a PD protocol. The power socket 25 may be a USBC Type (Type-C) interface.

The USBC type interface is used as the power socket 25, and the power chip supports the PD protocol, so that 12V power supply heating can be realized by adopting a mobile phone adapter supporting the quick-charging PD protocol, a vehicle-mounted charger and the like, a user can use the power socket conveniently in various scenes such as families, offices, vehicles and the like, and an independent adapter does not need to be purchased.

It can be understood that the circuit board 22, the key 23, the conductive thimble 24, the power socket 25, the light assembly 26, the light guide 27, the buzzer, the control chip and the power chip in the cup holder 20 are all disposed in the casing 21, wherein the key 23 is located on a side where the cup holder 20 is connected to the cup 10, and the casing 21 is provided with an opening through which the conductive thimble 24 is exposed and an opening through which the power socket 25 is exposed. The conductive pin 24 may be a metal pin, and the conductive pin 24 is exposed from the opening of the shell 21 so as to contact the conductive ring 15 on the cup 10. When the conducting rings 15 on the cup body 10 include a first sub-conducting ring, a second sub-conducting ring and a third sub-conducting ring, the conducting pins 24 may also include a first sub-conducting pin, a second sub-conducting pin and a third sub-conducting pin, and the three sub-conducting pins are electrically connected to the three sub-conducting rings one to one.

In order to facilitate the connection of the cup holder 20 to the cup body 10, a second connecting structure 28 is provided on the housing 21 for connection, and the cup body 10 and the cup holder 20 can be detachably connected to the second connecting structure 28 on the cup holder 20 through the first connecting structure 16 on the cup body 10. The second connection structure 28 can be designed flexibly as long as a convenient connection can be achieved. For example, if the first connecting member 16 is a fastener for fastening, the second connecting structure 28 is a fastener adapted to the first connecting member 16. For another example, if the first connecting member 16 is a boss for screwing, the second connecting member is a connecting groove (fig. 3 shows a connecting groove) for screwing connection of the boss.

In order to more clearly illustrate the implementation structure of the portable intelligent water cup 1 in the present disclosure, the following scenario is taken as an example to explain the structure and the use of the portable intelligent water cup 1 in the present disclosure.

The portable intelligent water cup 1 provided by the disclosure comprises a cup body 10, a cup base 20 and a cup cover 30. The cup body 10 includes a shell 11 and a liner 12 (for convenience of description, a bottom of the liner 12 away from the opening is named as a bottom plate, and a portion of the shell 11 covering the bottom plate is named as a bottom shell), the shell 11 and the liner 12 have openings, and the liner 12 is located in the shell 11.

Wherein, the shell 11 and the inner container 12 are both made of stainless steel 304 or 316, and a vacuum layer is formed between the shell 11 and the inner container 12 as well as between the shell and the bottom sheet by sealing and vacuumizing. The inner container 12 is provided with threads, and the cup cover 30 is rotatably connected with the inner container 12 through the threads. The side of the bottom plate facing the bottom shell is provided with a heating body 13 and a temperature detector 14. The heating body 13 is a circular ring-shaped ceramic heating piece with power of 30W, the ceramic heating piece is fixed below the bottom plate (away from the opening) through a structural component on the bottom shell, and heat-conducting silicone grease is coated between the ceramic heating piece and the bottom shell, so that heat conduction is more uniform, and heat efficiency is higher. The temperature detector 14 is fixed in the middle of the annular ceramic heating sheet through a spring structural member on the bottom shell to measure the temperature. The bottom shell is also provided with a structural part for fixing the bottom shell. The welding may be performed by ultrasonic waves in order to allow a secure connection of the bottom shell to the rest of cup 10. The lower part (one side far away from the opening) of the bottom shell is provided with 3 concentric conductive copper rings (conductive rings 15), and the 3 conductive copper rings are respectively connected with the ceramic heating sheet and the temperature detector 14 through leads. The peripheral side of drain pan is provided with 3 boss structures and is used for being connected with cup stand 20, through rotatory cup 10 and/or cup stand 20, can be with boss screw in cup stand 20 the spread groove structure in coupling connection, makes things convenient for cup 10 and cup stand 20 integrative taking away, perhaps takes away alone after separating cup 10. In order to ensure the accuracy of the detection of the temperature detector 14, a through hole may be formed in the bottom plate, and the detection portion of the temperature detector 14 may be brought into contact with the liquid in the cup body 10 through the through hole to measure the temperature.

The cup holder 20 includes a housing 21 (for convenience of description, a portion of the housing 21 adjacent to the cup holder 20 is named as a top surface member), a key 23, a light guide member 27, a circuit board 22, a metal thimble (conductive thimble 24), and a USB socket (power socket 25). The shell 21 is a U-shaped barrel, the top surface member is located at an opening of the U-shaped barrel, the light guide member 27 and the like are installed inside the shell 21, the key structure member of the operation key 23 is installed on the top surface member, and the top surface member is provided with 3 openings for exposing the metal thimble, so that the metal thimble can contact and be electrically connected with the conductive copper ring on the bottom shell of the cup body 10. The shell 21 is provided with 3 connecting slots adapted to bosses on the bottom shell of the cup body 10 for rotatably connecting with the bosses on the bottom shell. The bottom of casing 21 (the part of keeping away from the top surface spare) still is equipped with the trompil of USBC standard socket, makes things convenient for the vacancy of plug USBC plug, makes things convenient for the trough that the USB line passes through, and the bottom still can set up anti-skidding silica gel. Electronic components such as a metal thimble, a key 23, a USBC socket, an LED lamp bead (a light component 26), a control chip, a power chip, a buzzer and the like are arranged on the circuit board 22 and are positioned in the shell 21. The control chip is a Bluetooth chip, and a user can connect the Bluetooth chip through an applet on the smart phone and perform smart cup control. The power supply chip is a power supply management chip supporting a PD protocol, can be connected with a quick-charging power adapter or a vehicle-mounted charger, and realizes 12V power supply input. The user can select different heating temperature after pressing button 23 through the key structure spare of operation on the top surface spare, and different heating temperature corresponds the LED lamp light colour that shows difference, and the light colour passes through light guide 27 and shows and indicate, still crosses the bee calling organ after the heating is accomplished and buzzes and remind.

The cup cover 30 is a bouncing type cup cover 30, and comprises a cup cover main body 31, an upper cover body 32, a bouncing structure 33, a lower cover body 34 and threads, and the cup cover 30 can be opened or closed by one-hand operation. Specifically, the lid 30 can be opened or closed by pressing the lid body 32 above the lid 30. After the upper cover body 32 of the cup cover 30 is pressed, the lower cover body 34 moves along with the upper cover body 32, and after the bounce structure 33 is locked, a gap or a seal can be formed between the lower cover body 34 and the cup cover main body 31, and water can be poured out from the gap when the gap is formed.

In the description of the present disclosure, it is to be noted that the terms "disposed," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. Either mechanically or electrically. They may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present disclosure can be understood in specific instances by those of ordinary skill in the art.

In the description of the present disclosure, it should also be noted that the terms "upper", "lower", "inner", "outer", "etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships conventionally found in use of the products, and are only used for convenience in describing and simplifying the present disclosure, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present disclosure.

The above description is only a preferred embodiment of the present disclosure and is not intended to limit the present disclosure, and various modifications and changes may be made to the present disclosure by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims (10)

1. A cup body, comprising: the heating element, the temperature detector, the conducting ring, the inner container with an opening and the shell;

the inner container is arranged in the shell and used for containing liquid; the heating body and the conducting ring are arranged on one side of the inner container far away from the opening; the conducting ring is electrically connected with the heating body and the temperature detector;

the conducting ring is used for supplying power to the heating body and sending a detection signal fed back by the temperature detector when the power supply is connected; the heating body is used for heating the inner container based on the power supply of the conducting ring; the temperature detector is used for detecting temperature and feeding back a detection signal to the conducting ring.

2. The cup body according to claim 1, wherein the space between the shell and the liner is sealed and vacuumized, the cup body further comprises a cup cover, the cup cover is matched with the openings of the shell and the liner, and a sealed space is formed between the cup cover and the liner after the cup cover is covered on the opening;

and a first connecting component for connection is arranged on one side of the shell, which is far away from the opening.

3. The cup body according to claim 1, wherein the heating element is an annular ceramic heating sheet, the annular ceramic heating sheet is attached to one side of the inner container away from the opening, a through hole is formed in one side of the inner container away from the opening, and the detection part of the temperature detector penetrates through the annular ceramic heating sheet and the through hole and extends into the inner container.

4. The cup of claim 1, wherein the conductive ring comprises a first sub-conductive ring, a second sub-conductive ring, and a third sub-conductive ring;

the first sub-conducting ring and the second sub-conducting ring are respectively electrically connected with the heating element, and the first sub-conducting ring and the second sub-conducting ring are communicated with a power supply to form a positive electrode and a negative electrode which supply power to the heating element; the third sub-conducting ring is electrically connected with the temperature detector, and the third sub-conducting ring is communicated with a power supply and then sends a detection signal fed back by the temperature detector.

5. A cup holder adapted to fit the cup of any one of claims 1 to 4, the cup holder comprising: the circuit board is mounted on the shell, and the key, the conductive thimble and the power socket are mounted on the circuit board and are electrically connected with the circuit board;

the key is used for controlling the working state of the circuit board according to an operation instruction of a user; the power socket is used for connecting a power supply and supplying power to the circuit board, after the cup body is connected with the cup seat, the conductive thimble can be in contact with the conductive ring of the cup body, so that electric energy is provided for the conductive ring, and a detection signal fed back by the conductive ring is sent to the circuit board.

6. The cup holder according to claim 5, further comprising a light assembly, a light guide and a buzzer electrically connected to the circuit board;

the circuit board is used for controlling the color change of the light component according to the operation instruction, light emitted by the light component is displayed through the light guide piece, the circuit board is used for receiving a detection signal fed back by the conducting ring, and the buzzer is controlled to remind after the heating is determined to be completed according to the detection signal.

7. The cup holder according to claim 5, wherein the key is disposed at a central position within the housing.

8. The cup holder according to claim 5, wherein the circuit board integrates a control chip and a power chip, the power chip is electrically connected to the power socket, and the control chip is electrically connected to the power chip and the conductive pins;

the control chip is a Bluetooth chip or a single chip microcomputer chip which can communicate with the user terminal; the power supply chip supports a PD protocol; the power socket is a USBC type interface.

9. A cup holder according to claim 5, wherein the housing is provided with a second connecting structure for connection, and the cup body and the cup holder are detachably connectable with the second connecting structure on the cup holder via the first connecting structure on the cup body.

10. A portable intelligent water cup, which is characterized by comprising the cup body as claimed in any one of claims 1 to 4 and the cup seat as claimed in any one of claims 5 to 9, wherein the cup body and the cup seat are detachably connected.

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