CN217907221U - Bowl cover structure and intelligent drinking cup - Google Patents

Abstract

The utility model relates to a cup technical field provides a cup cover structure and intelligent drinking cup, and the cup cover structure uses with the cup structure cooperation, and the cup cover structure includes: the shell is in threaded connection with the cup body structure; the intelligent module comprises a control main board, a power supply assembly and a display assembly, wherein the display assembly comprises a lamp panel and a touch copper foil which are fixed on the outer peripheral wall of the shell; the lamp panel, the touch copper foil and the power supply assembly are electrically connected with the control mainboard respectively, and the touch copper foil is used for detecting touch operation of a user and feeding back a detection result to the control mainboard. The utility model provides a bowl cover structure, it detects user's touch operation through setting up touch copper foil to make the control mainboard awaken up display module according to touch operation, effectively reduced the energy consumption of display module and bowl cover structure.

Description

Bowl cover structure and intelligent drinking cup

Technical Field

The utility model relates to a cup technical field, concretely relates to cup cover structure and intelligent drinking cup.

Background

The cup is one of daily necessities frequently used in daily life of people, and along with the improvement of living standard of people and the development of scientific technology, people increasingly hope about the use of the cup, and hope that one cup can be simultaneously suitable for various places or be more intelligent.

In the related art, there have been water cups that implement various functions after being loaded with various kinds of intelligent hardware, such as a main board and a display screen for displaying related function instructions.

However, the display screen has extremely high power consumption, and the cup only loaded with the portable power source is overloaded and needs to be charged frequently, so that more inconvenience is brought to people.

Therefore, it is desirable to provide a solution to the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

To the deficiency existing in the prior art, one of the purposes of the utility model is to provide a cup cover structure, which can effectively reduce the energy consumption of the display component and the cup cover structure.

In a first aspect, to achieve the above objects, the present invention provides the following technical solutions: a cup cover structure, cup cover structure uses with cup structure cooperation, cup cover structure includes:

the shell is in threaded connection with the cup body structure;

the intelligent module is fixed in the shell;

the intelligent module comprises a control main board, a power supply assembly and a display assembly, wherein the display assembly comprises a lamp panel and a touch copper foil which are fixed on the outer peripheral wall of the shell; the lamp plate, touch copper foil, power supply module respectively with control mainboard electric connection, touch copper foil is used for detecting user's touch operation and feeds back the testing result to the control mainboard.

In an embodiment, the lamp plate adopts lamp plate FPC, the display module still includes lamp plate support and shading silica gel, lamp plate support inlays to be located the casing periphery wall, lamp plate FPC fixes on the lamp plate support, shading silica gel cover in lamp plate FPC peripheral surface and with lamp plate support fixed connection.

In an embodiment, the touch copper foil sets up to the adaptation in the frame construction of lamp plate FPC size, the touch copper foil inlays to be established on the casing periphery wall and encloses and locate lamp plate FPC's periphery.

In one embodiment, the intelligent module further comprises a water amount monitoring component for monitoring the amount of water in the cup body structure, a water temperature monitoring component for monitoring the temperature of water in the cup body structure, and a sterilization component for sterilizing the inside of the cup body structure; the control mainboard respectively with water yield monitoring subassembly, temperature monitoring subassembly and the subassembly electric connection that disinfects is used for controlling water yield monitoring subassembly, temperature monitoring subassembly and the subassembly that disinfects.

In one embodiment, multiple control modes are preset in the control main board, and a user can switch and adjust the control modes by touching the touch copper foil.

In one embodiment, the lamp panel FPC employs a dot matrix display screen.

In an embodiment, the control main board further includes a communication module, and the communication module is configured to enable the control main board to establish a communication connection with an external device;

the cup cover structure is provided with an application program capable of running on the mobile terminal, a user can run the application program through the mobile terminal, and the cup cover structure is subjected to mode setting, corresponding function control and cup structure real-time information acquired by the cup cover structure.

In a second aspect, the present invention further provides an intelligent cup, which comprises a cup body structure and a cup cover structure as in the first aspect.

The utility model provides a bowl cover structure, it detects user's touch operation through setting up touch copper foil to make the control mainboard awaken up display module according to touch operation, effectively reduced the energy consumption of display module and bowl cover structure.

Drawings

FIG. 1 is a perspective view of a cup lid structure in an embodiment of the present invention;

fig. 2 is an exploded view of a cup lid structure in an embodiment of the present invention;

FIG. 3 is a cross-sectional view of the cup lid structure taken along one of the angles in an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion A of FIG. 3;

fig. 5 is a schematic structural view of the self-locking bracket of the present invention;

fig. 6 is a schematic structural view of the middle spring cover bracket of the present invention;

fig. 7 is an exploded view of an intelligent cup according to an embodiment of the present invention.

Reference numerals:

100. a cup cover structure; 200. a cup body structure; 1. a housing; 2. an intelligent module; 3. a control main board; 5. a water quantity monitoring component; 6. a water temperature monitoring assembly; 7. a sterilization assembly; 8. a laser sensor; 9. A silica gel sleeve; 10. a lens holder; 11. a quartz lens; 12. a sterilization window; 13. a temperature detection plate; 14. an ultraviolet germicidal lamp; 15. a separator plate; 16. a measurement window; 17. a lens silicone piece; 18. a Hall switch module; 19. a thimble assembly; 22. a flip cover holder; 23. a spring; 25. a spring cover; 26. a top cover; 27. a pressing part; 28. a movable portion; 29. an abutment flange; 30. a first seal ring; 31. a fixed part; 32. a flow guide part; 33. an inner edge end; 34. a water outlet; 35. a self-locking bracket; 351. a bracket gasket; 36. a self-locking pin; 37. a stent body; 38. a sliding groove; 39. a locking member; 40. a pin slot; 41. A first sliding part; 42. a second sliding part; 43. a limiting part; 44. a bracket mounting post; 45. a spring mounting groove; 46. a reinforcement column; 47. a reinforcing trough body; 48. a first housing; 49. a second housing; 50. a water outlet channel; 51. a first water outlet groove; 52. a second water outlet groove; 53. a second seal groove; 54. a second seal ring; 55. fixing grooves; 56. a temperature sensing probe; 57. a rechargeable battery; 58. a charging connection member; 59. A power panel; 60. a charging interface; 61. a silica gel protective plug; 62. an installation part; 63. a vibration motor; 64. A communication module; 65. a display component; 66. a lamp panel support; 67. a lamp panel FPC; 68. shading silica gel; 69. touching the copper foil; 70. a top silica gel outer ring; 71. a top silica gel inner ring; 72. silica gel at the cup mouth; 73. Silica gel is arranged at the bottom of the cup body; 74. five metals cup.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Example 1: as shown in fig. 1-6, the present embodiment provides a structural schematic diagram of a cup lid structure 100. The cup lid structure 100 is used in cooperation with the cup body structure 200, so that the common cup body structure 200 has corresponding functions after being provided with the cup lid structure 100, and becomes an intelligent water cup. As one of the embodiments, the cup lid structure 100 comprises a shell 1 fixed to the cup body structure 200 in a threaded connection manner and an intelligent module 2 installed inside the shell 1, wherein the intelligent module 2 comprises a control main board 3, a power supply assembly, a water amount monitoring assembly 5 for monitoring the water amount in the cup body structure 200, a water temperature monitoring assembly 6 for monitoring the water temperature in the cup body structure 200, and a sterilization assembly 7 for sterilizing the inside of the cup body structure 200. The control mainboard 3 is respectively electrically connected with the power supply assembly, the water quantity monitoring assembly 5, the water temperature monitoring assembly 6 and the sterilization assembly 7 and is used for controlling the water quantity monitoring assembly 5, the water temperature monitoring assembly 6 and the sterilization assembly 7 to be opened or closed, or is used for controlling the water quantity monitoring assembly 5, the water temperature monitoring assembly 6 and the sterilization assembly 7 to respectively work according to preset programs.

The bowl cover structure 100 that this embodiment provided can pass through threaded connection with the cup structure 200 of size adaptation fixed, can make ordinary cup structure 200 possess multiple functions after the bowl cover is adorned, also can produce, sell and maintain with cup structure 200 split simultaneously, has effectively solved current intelligent drinking cup maintenance, has changed inconvenient, the problem with high costs.

As shown in fig. 1-6, in one embodiment, the water level monitoring assembly 5 includes a laser sensor 8 and a silicone sleeve 9 for encasing the laser sensor 8. For example, the laser sensor 8 may employ a TMF8801 laser ranging chip that provides high precision depth accuracy detection by sub-nanosecond light pulse and anti-aliasing stopwatch methods, which calculates depth by measuring the round trip time of the pulse. Specifically, in the present embodiment, the depth of the water level in the cup body structure 200 is monitored by laser, the water amount value in the cup body structure 200 is calculated according to the built-in algorithm, and the water amount value is fed back to the control main board 3.

As shown in fig. 1-6, in an embodiment, the sterilizing assembly 7 includes an ultraviolet germicidal lamp 14, a lens holder 10 and a quartz lens 11, the lens holder 10 is fixed to the housing 1 and defines a sterilizing window 12, and the sterilizing window 12 is located at an end of the lid structure 100 facing the cup structure 200. The quartz lens 11 is embedded in the lens holder 10 and is used for sealing the sterilization window 12, the ultraviolet germicidal lamp 14 is disposed above the quartz lens 11, and ultraviolet light emitted by the ultraviolet germicidal lamp 14 passes through the quartz lens 11 and then is emitted toward the inside of the cup structure 200.

As shown in fig. 1-6, in an embodiment, the water temperature monitoring assembly 6 includes a temperature detecting plate 13 electrically connected to the control main board 3, and the temperature detecting plate 13 is fixed inside the casing 1 by screws and is used for detecting the water temperature inside the cup body structure 200 and feeding back the water temperature data to the control main board 3.

As shown in fig. 1-6, in an embodiment, the top of the lens holder 10 is fixed to the temperature detecting plate 13, a partition plate 15 is disposed inside the lens holder 10, and a measurement cavity and a sterilization cavity that are independent of each other are formed inside the lens holder 10 through the partition plate 15, and the laser sensor 8 is wrapped by the silica gel sleeve 9 and then fixed on one side of the temperature detecting plate 13 facing the cup body structure 200 and located inside the measurement cavity; one end of the measuring cavity close to the cup body structure 200 is provided with a measuring window 16, and laser emitted by the laser sensor 8 penetrates through the measuring window 16 and is emitted into the cup body structure 200. Ultraviolet germicidal lamp 14 is fixed and is being visited temperature board 13 towards cup structure 200 one side and be located the intracavity that disinfects, and the sterilization chamber is kept away from and is visited temperature board 13 one end and has been seted up sterilization window 12, and ultraviolet germicidal lamp 14 sends ultraviolet light through this sterilization window 12 to the water disinfection of disinfecting in the cup structure 200. In order to ensure the waterproof effect of the internal components of the lens holder 10, a lens silicone member 17 is embedded between the quartz lens 11 and the lens holder 10.

1-6, in one embodiment, lid structure 100 further includes a spike assembly 19 for detecting whether lid structure 100 is separated from cup structure 200, spike assembly 19 is electrically connected to control motherboard 3, spike assembly 19 is disposed at an end of lid structure 100 facing cup structure 200, cup structure 200 includes a fitting cup 74, and when lid structure 100 is rotatably connected to cup structure 200, spike assembly 19 disposed on lid structure 100 contacts cup 74 and is turned on by fitting cup 74. In another embodiment, a contact assembly matched with the thimble assembly 19 may be disposed at a corresponding position of the cup structure 200, and the opening/closing relationship between the lid structure 100 and the cup structure 200 is determined by detecting the connection and disconnection states of the thimble assembly 19 and the contact assembly, and the related functions of the sterilization assembly 7 may be controlled by combining with a program preset in the control motherboard 3.

Illustratively, the sterilization assembly 7 is configured to activate the sterilization assembly 7 when the lid structure 100 and the cup structure 200 are closed, i.e., when the spike assembly 19 is in contact with the contact assembly, so as to sterilize the inside of the cup structure 200 in a state where the lid structure 100 and the cup structure 200 are closed. When the cap structure 100 is opened, i.e. the thimble assembly 19 is separated from the contact assembly, the sterilization operation is stopped. The arrangement can automatically monitor the state between the cup cover structure 100 and the cup body structure 200, automatically turn on or off the sterilization function, and realize intelligent management. It will be appreciated that the sterilization assembly 7 employs an ultraviolet lamp which sterilizes the inside of the cup body structure 200 by emitting ultraviolet light. And ultraviolet light all can produce certain harm to people's eye or skin for a long time, consequently set up above-mentioned monitoring procedure to sterilization subassembly 7 to when making bowl cover structure 100 and cup structure 200 be in the closure state, just start sterilization subassembly 7 and disinfect to cup structure 200 is inside, avoid sterilization subassembly 7 during operation user probably eyes inject ultraviolet light or skin by the problem that ultraviolet light shines.

As shown in FIGS. 1-6, in one embodiment, the lid structure 100 further includes a flip cover assembly, the housing 1 has a threaded structure that is threadedly engaged with the bowl structure 200, the lid structure 100 is threadedly engaged and secured with the bowl structure 200, and the lid structure 100 has a water outlet passage 50 therein that communicates with the bowl structure 200. The elastic cover assembly is fixed with the shell 1 and can be ejected out after being pressed by external force so as to enable the cup cover structure 100 to be communicated with the external space of the cup cover structure 100, water in the cup body structure 200 can flow out through the water outlet channel 50 inside the cup cover structure 100, the problem that the cup cover structure 100 and the cup body structure 200 need to be separated to drink water is avoided, the operation can be carried out by one hand, and the use convenience of the water cup is further improved. After the water is drunk, the elastic cover assembly is pressed by one hand, and then the elastic cover assembly is reset, so that the cup cover structure 100 can be restored to a sealing state, water in the cup body structure 200 can be effectively protected, and the cup body structure is prevented from being polluted by the outside.

As shown in fig. 1-6, in one embodiment, the flip assembly includes a flip bracket 22, a spring 23, a self-locking assembly, a flip 25, and a top cover 26; the elastic cover bracket 22 is fixed with the inside of the shell 1, and the top cover 26 is fixed with the shell 1 and then positioned above the elastic cover bracket 22; the elastic cover 25 is fixed with the elastic cover bracket 22 through the self-locking assembly, and two ends of the spring 23 are respectively abutted against the elastic cover 25 and face one side of the elastic cover bracket 22 and face one side of the elastic cover 25. The elastic cover 25 is abutted or separated with the top cover 26 through a self-locking assembly, so that the cup body structure 200 connected with the cup cover structure 100 is communicated with the outside through the cup cover structure 100, and water in the cup body structure 200 can flow out through the cup cover structure 100.

The bowl cover structure 100 that this embodiment provided can use with cup structure 200 cooperation to sealed or open effect to the cup has been realized through bullet lid 25 subassembly and auto-lock subassembly, makes the water accessible in the cup structure 200 simple press the operation back and flow out through bowl cover structure 100, can effectively solve the inconvenient problem of current drinking cup uncap operation.

As shown in fig. 1-6, in one embodiment, the elastic cover 25 includes a pressing portion 27 and a movable portion 28 fixed at the bottom of the pressing portion 27 and connected to the self-locking assembly. Illustratively, the pressing portion 27 is configured as a circular plate-shaped structure, a contact flange 29 is disposed at a bottom portion close to an outer edge of the pressing portion 27, a first sealing groove is formed between the contact flange 29 and the pressing portion 27, and a first sealing ring 30 is disposed in the first sealing groove. The top cover 26 comprises a fixing portion 31 fixed with the shell 1 and a flow guide portion 32 arranged in the middle of the fixing portion 31, the flow guide portion 32 is formed by extending the fixing portion 31 in the direction away from the shell 1, the flow guide portion 32 comprises an inner edge end 33 formed at the joint of the fixing portion 31, the inner edge end 33 corresponds to the pressing portion 27 and is circular and provided with a water outlet 34, and the elastic cover 25 is in a butt joint state or a separation state with the inner edge end 33 through a self-locking assembly so that the water outlet 34 is opened or sealed.

As shown in fig. 1-6, in an embodiment, the self-locking assembly includes a self-locking bracket 35 and a self-locking pin 36 fixed to the elastic cover bracket 22, the self-locking bracket 35 includes a bracket body 37, and a sliding groove 38 and a locking member 39 provided on the bracket body 37, the movable portion 28 is provided with a pin groove 40 matching with the self-locking pin 36, one end of the self-locking pin 36 is embedded in the pin groove 40, and the other end is located in the sliding groove 38, and by applying a downward external force to the pressing portion 27, the pressing portion 27 drives the movable portion 28 to move downward, so that the self-locking pin 36 embedded in the pin groove 40 slides in the sliding groove 38, and a locking or resetting state is achieved under the guidance of the locking member 39. It can be understood that when the self-locking pin 36 is in a locked state, the elastic cover 25 is separated from the top cover 26, and the water outlet 34 is in an open state; when the self-locking pin 36 is in a reset state, the elastic cover 25 is abutted against the top cover 26, and the water outlet 34 is in a sealing state.

As shown in fig. 1 to 6, for example, the locking member 39 includes a first sliding portion 41, a second sliding portion 42 and a limiting portion 43, the first sliding portion 41 and the second sliding portion 42 are arranged side by side at an interval, the second sliding portion 42 is arranged below the limiting portion 43 and arranged at an interval with the limiting portion 43, the first sliding portion 41, the second sliding portion 42 and the limiting portion 43 are respectively provided with a slope structure for guiding the self-locking pin 36, a sliding groove 38 for the self-locking pin 36 to slide is formed between the first sliding portion 41, the second sliding portion 42, the limiting portion 43 and the bracket body 37, and the self-locking pin 36 can slide in the sliding groove 38 and realize a locking or resetting state under the action of the first sliding portion 41, the second sliding portion 42 and the limiting portion 43.

As shown in fig. 1 to 6, exemplarily, a bracket mounting post 44 for mounting the self-locking bracket 35 and a spring mounting groove 45 formed around the bracket mounting post 44 are provided in the middle of the elastic cover bracket 22, the self-locking bracket 35 is fixed on the bracket mounting post 44 by a screw and a bracket gasket 351, the movable portion 28 of the elastic cover 25 is connected with the self-locking bracket 35 by a self-locking pin 36, and the spring 23 is sleeved outside the movable portion 28, so that two ends of the spring 23 are respectively abutted to the bottom of the pressing portion 27 and the bottom of the spring mounting groove 45.

As shown in fig. 1-6, in an embodiment, the elastic cover 25 further has a reinforcing column 46, the elastic cover bracket 22 is correspondingly provided with a reinforcing groove 47, the reinforcing column 46 is disposed on a side surface of the pressing portion 27 facing the elastic cover bracket 22, and when the elastic cover 25 is assembled with the elastic cover bracket 22, the reinforcing column 46 is embedded in the reinforcing groove 47 and can move up and down in the reinforcing groove 47 along with the up and down movement of the elastic cover 25. The connection strength and the position stability of the elastic cover bracket 22 and the elastic cover 25 are further enhanced through the matching of the reinforcing column 46 and the reinforcing groove body 47, and the problem that the elastic cover 25 and the elastic cover bracket 22 are staggered after the use time is prolonged and the pressing times are increased is avoided; in addition, a certain auxiliary effect can be provided for the up-and-down movement of the self-locking pin 36, which is beneficial to maintaining the movement stability of the self-locking pin 36, and finally, the components in the cup cover structure 100 can stably operate and accurately reset while realizing stable assembly.

As shown in fig. 1-6, in an embodiment, the smart module 2 further includes a hall switch module 18 and a magnet (not shown) for detecting the opening/closing state of the elastic cover 25 assembly, the magnet is disposed inside the reinforcing column 46, and the hall switch module 18 is electrically connected to the control main board 3 and disposed at a position corresponding to the position of the reinforcing column 46. When the elastic cover 25 moves up and down under the driving of the self-locking assembly, the magnet piece in the reinforcing column 46 moves up and down along with the elastic cover 25, and the hall switch module 18 judges whether the elastic cover 25 is opened or not by detecting the approach or the distance of the magnet piece and feeds back the detection result to the control main board 3. Illustratively, the Hall switch module 18 may employ a BL-HE-DH627S sensor.

Illustratively, the water level monitoring assembly 5 is activated to monitor the water level in the cup structure 200 by detecting whether the elastic cover 25 is opened. It can be understood that when the elastic cover 25 is opened, it means that the user needs to drink water or add water into the cup body structure 200, that is, the amount of water in the cup body structure 200 will change, and the amount of water therein needs to be monitored. Based on this, can set up corresponding monitoring program, monitor the operation of opening and closing of bullet lid 25, when monitoring that bullet lid 25 opens and when opening the back and close, just start water yield monitoring assembly 5 and monitor the water yield value in cup structure 200, the monitoring operation to the water yield in cup structure 200 can not launched automatically in all the other times. The device can reduce the water quantity monitoring times and effectively reduce the power consumption and the error detection probability of the whole machine. It can be understood that, here the elastic cover 25 is opened as an example, as long as whether the cup structure 200 is converted into the sealing state by the non-sealing state based on the above monitoring, and then the design of the principle of monitoring the water level inside the cup structure 200 all belongs to the protection scope of the present invention.

In other embodiments, a three-axis acceleration sensor may be disposed in the lid structure 100 or the cup structure 200 to monitor the physical state of the lid structure 100 or the cup structure 200, and feed back the monitoring result to the control motherboard 3, and the control motherboard 3 determines the physical state (stable standing or moving or tilting, etc.) of the cup structure 200 or the lid structure 100 according to the monitoring result. When the cup body structure 200 is in a horizontal standing state, the main board 3 is controlled to start the water amount monitoring assembly 5 to monitor the water amount value in the cup body structure 200. This setting is just to start the water yield monitoring when guaranteeing that cup structure 200 is in the level state of stewing, because the surface of water in cup structure 200 is steady, relatively level this moment, and laser sensor 8 can detect the water yield in cup structure 200 according to the laser rangefinder principle more accurately. Illustratively, the three-axis acceleration sensor can adopt an SC7A20 digital three-axis acceleration sensor chip.

Three situations are included, one is to only provide a three-axis acceleration sensor in the lid structure 100, the other is to only provide a three-axis acceleration sensor in the cup structure 200, and the other is to provide a three-axis acceleration sensor in both the lid structure 100 and the cup structure 200. It can be understood that, if the water level monitoring device is only arranged in the lid structure 100, the control main board 3 needs to determine the open or closed state of the lid structure 100 and the cup structure 200 by combining the above-mentioned thimble assembly 19 in the preset program, that is, when the lid structure 100 and the cup structure 200 are in the closed state and the lid structure 100 is in the horizontal state, the water level monitoring is started.

In the second case, because the laser sensor 8 is fixed in the lid structure 100, if the lid structure 100 and the cup structure 200 are in the open state, the laser sensor 8 cannot directly irradiate the inside of the cup structure 200, and therefore, the lid structure 100 and the cup structure 200 are also guaranteed to be in the closed state, and the accuracy of monitoring the water amount by the laser sensor 8 can be ensured. In a similar manner, the control main board 3 also needs to determine the open or closed state of the cup lid structure 100 and the cup body structure 200 by combining the above-mentioned thimble assembly 19 in the preset program, that is, when the cup lid structure 100 and the cup body structure 200 are in the closed state, and the cup body structure 200 is in the horizontal state, the water amount monitoring is started.

In the third situation, the preset program can judge whether the cup lid structure 100 and the cup body structure 200 are in the horizontal state directly according to the three-axis acceleration sensor without monitoring whether the cup lid structure 100 and the cup body structure 200 are in the closed state, and when the two are in the horizontal state, the water amount monitoring is started. It can be understood that the third case is an expansion scheme based on the inventive concept of the present application, and is not a preferred embodiment of the present application. The first and second cases are preferred.

As shown in fig. 1-6, in one embodiment, the housing 1 includes a first housing 48 and a second housing 49. The first shell 48 and the second shell 49 are connected and fixed, and the elastic cover 25 assembly is fixed with the first shell 48 and the second shell 49 and then positioned on the top of the first shell 48 and forms a water outlet channel 50 for water in the cup body structure 200 to flow between the first shell 48 and the elastic cover 25 assembly.

As shown in fig. 1-6, in an embodiment, the first housing 48 is connected to the elastic cover bracket 22 and has a first water outlet groove 51 at the connection position, the elastic cover bracket 22 is correspondingly provided with a second water outlet groove 52, the first water outlet groove 51 is communicated with the second water outlet groove 52 to form a water outlet passage 50 for water in the cup structure 200 to flow to the first housing 48 and the elastic cover 25 assembly, when the elastic cover 25 is separated from the top cover 26, the water outlet passage 50 is communicated with the external space of the elastic cover 25, so that the water in the cup structure 200 sequentially passes through the first housing 48, the elastic cover bracket 22 and the second housing 49 and then flows out from the water outlet 34 between the elastic cover 25 and the top cover 26.

Illustratively, the first water outlet grooves 51 and the second water outlet grooves 52 may be configured as arc-shaped grooves, and two sets of water outlet grooves may be simultaneously configured, where two sets of first water outlet grooves 51 and two sets of second water outlet grooves 52 are respectively disposed oppositely, and the intelligent module 2 and the self-locking assembly are located between the two sets of first water outlet grooves 51 and the two sets of second water outlet grooves 52.

As shown in fig. 1 to 6, further, the end of the first housing 48 having the first water outlet groove 51 is provided with a second sealing groove 53, and a second sealing ring 54 is embedded in the second sealing groove 53, so that the first housing 48 and the portion of the elastic cover bracket 22 outside the first water outlet groove 51 and the second water outlet groove 52 are sealed. It will be appreciated that the second seal ring 54 is provided in the form of a corresponding arcuate ring.

As shown in fig. 1-6, in one embodiment, the first housing 48 is provided with a fixing groove 55 for fixing the lens holder 10, through holes corresponding to the sterilization window 16 and the measurement window 12 are formed at the bottom of the fixing groove 55, the lens holder 10 is fixed in the fixing groove 55, and light emitted from the uv sterilization lamp 14 and the laser sensor 8 can be emitted into the cup structure 200 through the through holes. The water temperature monitoring assembly 6 further includes a temperature sensing probe 56 electrically connected to the temperature sensing plate 13, and the temperature sensing probe 56 is fixed at an end of the first shell 48 facing the cup structure 200. Illustratively, the power supply assembly includes a rechargeable battery 57, a charging connector 58 and a power board 59, the charging connector 58 is electrically connected to the power board 59, the rechargeable battery 57 is electrically connected to the power board 59, a charging interface 60 is provided on the housing 1, and the rechargeable battery 57 is charged by connecting an external power supply to the charging connector 58. Illustratively, the charging connector 58 is a Type-C charging plug-in. It can be understood that a silicone protective plug 61 is arranged at the charging interface 60 to prevent water and dust.

In one embodiment, the rechargeable battery 57 is a lithium battery with an output voltage of typically 3.7V. Based on this, intelligence module 2 still includes constant current control circuit module, its and lithium cell, ultraviolet germicidal lamp 14 electric connection to a current value for adjusting input ultraviolet germicidal lamp 14. Illustratively, the constant current control circuit module comprises a constant current chip and a boost chip, wherein the boost chip is used for connecting a lithium battery and boosting the voltage of the circuit to 6-7V, and the constant current chip is used for adjusting the current of the boosted circuit section to be a constant output 100mA current and then connecting the ultraviolet germicidal lamp 14 and driving the ultraviolet germicidal lamp 14 to work. It can be understood that the lithium battery, the boost chip, the constant current chip and the ultraviolet germicidal lamp 14 are connected in series, and the "circuit in this section" in the above description is a driving circuit that is connected to the ultraviolet germicidal lamp 14 through the lithium battery. The constant current control circuit module can effectively solve the problem of adaptation of the lithium battery and the ultraviolet germicidal lamp 14 and can ensure that the ultraviolet germicidal lamp 14 works normally. Illustratively, the boost chip adopts an FP6298 boost IC or an FP6291 boost IC; the constant current chip can adopt a NU501-100mA constant current driving chip.

Illustratively, after the water amount monitoring assembly 5, the water temperature monitoring assembly 6 and the sterilization assembly 7 are assembled and fixed through the lens support 10 and the temperature detection plate 13, the rechargeable battery 57 is fixed above the temperature detection plate 13, a mounting column for fixing the control main board 3 is further arranged in the first housing 48, and the control main board 3 is fixed on the mounting column through screws and is suspended above the rechargeable battery 57. A mounting part 62 for mounting the power supply board 59 and the charging connecting piece 58 is arranged between the two groups of first water outlet grooves 51. The flip cover bracket 22 is fixed on the top of the first housing 48 and is abutted against the top of the mounting part 62, and the mounting part 62, the flip cover bracket 22 and the first housing 48 enclose a containing space for sealing the intelligent module 2.

In an embodiment, the intelligent module 2 further includes a vibration motor 63 electrically connected to the control motherboard 3, and the control motherboard 3 is configured to control the vibration motor 63 to vibrate according to a preset program, so as to remind a user.

In an embodiment, the control motherboard 3 further includes a communication module 64, and the communication module 64 may employ a bluetooth chip for accessing a wireless network and enabling the control motherboard 3 to establish a communication connection with an external device. For example, the lid structure 100 is provided with an application program (APP for short) that can be run on a mobile terminal such as a mobile phone or a tablet, and a user can run the APP through the mobile terminal, perform mode setting and corresponding function control on the lid structure 100, and also receive real-time information of the cup structure 200, such as the amount of water in the cup structure 200, the temperature of the water, and the sterilization status, obtained by the lid structure 100. Illustratively, the communication module 64 may employ a SYD8811 module.

As shown in fig. 1-6, in an embodiment, the smart module 2 further includes a display module 65, and the display module 65 includes a lamp panel bracket 66, a lamp panel FPC67 (flexible circuit board), a light-shielding silica gel 68, and a touch copper foil 69. Lamp plate support 66 inlays and establishes at 49 periphery walls of second casing, and lamp plate FPC67 is fixed on lamp plate support 66, and shading silica gel 68 covers in lamp plate FPC67 peripheral surface and with lamp plate support 66 fixed connection, and touch copper foil 69 inlays and locates on 49 periphery walls of second casing. Illustratively, the touch copper foil 69 is provided as a frame structure that fits the size of the lamp panel FPC67, and the touch copper foil 69 is embedded on the outer peripheral wall of the second housing 49 and surrounds the outer periphery of the lamp panel FPC 67.

Touch copper foil 69 and lamp plate FPC67 respectively with control mainboard 3 electric connection, the user awakens up lamp plate FPC67 through touch copper foil 69, and lamp plate FPC67 shows information such as corresponding function, parameter according to the program that control mainboard 3 was preset, or, carries out the function switch through touch operation. It can be understood that when the user does not touch the touch copper foil 69 or control the control main board 3 through the mobile terminal, the display module 65 is in a standby state, and the lamp panel FPC67 is in a light-off state; when the user touches the touch copper foil 69, the lamp panel FPC67 is woken up and displays a relevant preset pattern according to a program mode preset in the control main board 3. This sets up the energy consumption that can effectively reduce the power and ensure lamp plate FPC 67's life. Illustratively, the touch copper foil 69 is electrically connected to the touch driving chip LW6235, and when the user touches the touch copper foil 69, the touch driving chip LW6235 determines whether there is a finger touch operation by sensing a capacitance change on the touch copper foil 69, and sends a related signal to the control motherboard 3.

Illustratively, the lamp panel FPC67 adopts a dot-matrix display screen, which is composed of a plurality of micro beads distributed in an array and arranged according to a certain rule, and can form corresponding display information by turning on and off the micro beads at a target position. Illustratively, a 5 x 24 dot matrix display screen may be employed. It can be understood that the display assembly 65 can be used to display information such as water temperature, water amount, sterilization duration and sterilization status in the cup structure 200.

It can be understood that, in order to enhance the waterproof performance of the cup lid structure 100, any two structural joints may be provided with a sealing structure, for example, a top silicone outer ring 70 is provided at the joint between the elastic cover support 22 and the second housing 49, a top silicone inner ring 71 is provided at the joint between the top cover 26 and the elastic cover support 22, and a cup rim silicone 72 is provided at the end of the first housing 48 facing the cup body structure 200.

Example 2: the utility model also provides an intelligent water cup, it includes as embodiment 1 bowl cover structure 100 and cup structure 200, cup structure 200 includes five metals cup 74 and sets up the bottom of cup silica gel 73 in five metals cup 74 bottom.

To sum up, the utility model provides a bowl cover structure, it detects user's touch operation through setting up touch copper foil to make the control mainboard awaken up display module according to touch operation, effectively reduced the energy consumption of display module and bowl cover structure.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (8)

1. The utility model provides a cup cover structure, its characterized in that, cup cover structure uses with cup structure cooperation, the cup cover structure includes:

the shell is in threaded connection with the cup body structure;

the intelligent module is fixed in the shell;

the intelligent module comprises a control main board, a power supply assembly and a display assembly, wherein the display assembly comprises a lamp panel and a touch copper foil which are fixed on the outer peripheral wall of the shell; the lamp plate, touch copper foil, power supply module respectively with control mainboard electric connection, touch copper foil is used for detecting user's touch operation and feeds back the testing result to the control mainboard.

2. The cup cover structure according to claim 1, wherein the lamp panel adopts a lamp panel FPC, the display assembly further comprises a lamp panel support and shading silica gel, the lamp panel support is embedded in the outer peripheral wall of the shell, the lamp panel FPC is fixed on the lamp panel support, and the shading silica gel covers the outer peripheral surface of the lamp panel FPC and is fixedly connected with the lamp panel support.

3. The cup cover structure according to claim 2, wherein the touch copper foil is arranged to be a frame structure adapted to the size of the FPC on the lamp panel, and the touch copper foil is embedded on the outer peripheral wall of the shell and surrounds the outer periphery of the FPC on the lamp panel.

4. The cup lid structure of claim 1, wherein the intelligent module further comprises a water amount monitoring component for monitoring the amount of water in the cup body structure, a water temperature monitoring component for monitoring the temperature of water in the cup body structure, and a sterilization component for sterilizing the interior of the cup body structure; the control mainboard respectively with the water yield monitoring subassembly, the water temperature monitoring subassembly and the subassembly electric connection that disinfects is used for controlling the water yield monitoring subassembly, the water temperature monitoring subassembly and the subassembly that disinfects.

5. The cup cover structure of claim 1, wherein the control main board has a plurality of preset control modes, and a user can switch and adjust the control modes by touching the touch copper foil.

6. The cup cover structure of claim 2 or 3, wherein the lamp panel FPC adopts a dot matrix display screen.

7. The cup cover structure of claim 1, wherein the control motherboard further comprises a communication module, and the communication module is configured to establish communication connection between the control motherboard and an external device;

the cup cover structure is provided with an application program capable of running on the mobile terminal, and a user can run the application program through the mobile terminal, set the mode of the cup cover structure, perform corresponding function control and receive the real-time information of the cup body structure acquired by the cup cover structure.

8. A smart water cup comprising a cup body structure and the cup cover structure of any one of claims 1-7.

Images