A portable water heating cup without opening the cover

By designing rotating and vibrating components for the lidless kettle, the problems of inconvenient water pouring and limited functionality of portable kettles are solved. It enables automatic dispensing of coffee powder and stirring, meeting diverse drinking needs and improving the user experience.

CN118383649BActive Publication Date: 2026-07-03FOSHAN SHUNDE WOHEYING ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
FOSHAN SHUNDE WOHEYING ELECTRONICS CO LTD
Filing Date
2024-05-07
Publication Date
2026-07-03

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  • Figure CN118383649B_ABST
    Figure CN118383649B_ABST
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Abstract

The application provides a portable water heating cup without opening the cover to heat water, and belongs to the technical field of water cups. The water heating cup comprises a shell, a storage battery is arranged at the bottom end of the inner wall of the shell, a heating module is arranged at the top end of the storage battery, a water storage cavity is arranged at the top end of the heating module, a micro motor is nested at the bottom end of the water storage cavity, a stirring plate is arranged at the top end of the micro motor, and a control switch is arranged on the outer surface of one end of the shell; a rotating assembly is arranged on the inner wall of the top end of the shell, and is used for driving the operation of a storage assembly; and the storage assembly is arranged on the inner wall of the top end of the shell. The linkage of the rotating assembly and the storage assembly meets the different drinking needs of users in daily travel, is convenient and fast to use, and is simple in structure. The vibration assembly is arranged to avoid too much coffee powder or beverage powder remaining on the inner wall of the water storage cavity, so as to affect the drinking taste of the user.
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Description

Technical Field

[0001] This invention relates to the field of water cup technology, and in particular to a portable water kettle that allows for boiling water without opening the lid. Background Technology

[0002] Water cups are commonly used as everyday drinking vessels, but existing water cups can only simply serve as containers for water and cannot directly heat the water. If the tap water in the water cup could be directly heated and boiled, it would greatly facilitate users to drink clean and hygienic drinking water.

[0003] Existing portable kettles require users to open the lid to pour water after boiling, which is inconvenient. Furthermore, users' drinking needs vary during daily outings and may include other beverages besides water. Existing portable kettles have a limited function, requiring users to carry separate powders for other drinks, such as coffee, and also necessitating a separate brewing cup, which is inconvenient for daily travel. Therefore, this application provides a portable kettle that allows boiling water without opening the lid to meet these needs. Summary of the Invention

[0004] The technical problem this invention aims to solve is to provide a portable kettle that allows boiling water without opening the lid. This addresses the inconvenience of existing portable kettles requiring users to open the lid to pour water after boiling. Furthermore, users' drinking needs vary during daily outings and are not limited to water; they may require other beverages. Existing portable kettles have a limited function, requiring users to carry separate powders for other drinks, such as coffee, and also necessitating a separate brewing cup, which is inconvenient for daily travel. Therefore, this application provides a portable kettle that allows boiling water without opening the lid to meet these needs.

[0005] To solve the above-mentioned technical problems, the present invention provides the following technical solution:

[0006] A portable kettle for boiling water without opening the lid includes an outer shell, a battery disposed at the bottom of the inner wall of the outer shell, a heating module disposed at the top of the battery, a water storage chamber disposed at the top of the heating module, a micro motor nested at the bottom of the water storage chamber, a stirring plate disposed at the top of the micro motor, and a control switch disposed on the outer surface of one end of the outer shell; a rotating component, which is fitted onto the inner wall of the top of the outer shell, is used to drive a storage component; a storage component, which is fitted onto the inner wall of the top of the outer shell, is used to store coffee powder and add coffee powder to the water storage chamber; and a vibration component, which is disposed at the top of the inner wall of the outer shell, is used to vibrate the water storage chamber.

[0007] Optionally, the rotating assembly includes a rotating shell, which is fitted onto the inner wall of the outer shell. A rotating ring is provided on one side of the outer surface of the rotating shell, and a slide rail is provided on the inner wall of the rotating shell. One end of the slide rail is arc-shaped, and an arc-shaped toothed ring is provided on one side of the inner wall of the rotating shell.

[0008] Optionally, the storage component includes a storage box fitted onto the inner wall of the top of the outer shell, a cover plate provided on one side of the storage box, one side of the cover plate contacting the inner wall of the rotating shell, a water inlet provided on one side of the top of the cover plate, and a display module provided on one side of the top of the cover plate.

[0009] Optionally, the storage box has a bottom plate at its bottom end, a hinge at one end of the bottom plate, and the bottom plate is connected to the storage box via the hinge. A telescopic rod is provided at one end of the bottom plate, a pin is sleeved at one end of the telescopic rod, a push rod is sleeved at one end of the pin, the push rod is located on one side of the storage box, and a slider is provided on one side of the top of the push rod. One end of the slider contacts the inner wall of the slide rail.

[0010] Optionally, a flat gear is provided on one side of the cover plate, the flat gear meshes with an arc-shaped gear ring, and a bevel gear set is provided at the top of the flat gear.

[0011] Optionally, one end of the bevel gear set is nested in the inner wall of the cover plate, and one end of the bevel gear set is fitted with a suction tube, which is nested in the opening at the top of the cover plate.

[0012] Optionally, the vibration assembly includes a second bevel gear set, one end of which is sleeved on the outer surface of the top of the micro motor, and one end of which is connected to a third bevel gear set, which is disposed on one side of the bottom of the water storage chamber.

[0013] Optionally, the bevel gear set has a screw at each of its three top ends, a sliding ring is sleeved on the outer surface of the screw, and protrusions are provided at equal angles on the inner wall of the sliding ring.

[0014] Optionally, one end of the protrusion contacts a pressure block, and one end of the pressure block is provided with a spring.

[0015] Optionally, the spring is elastically disposed on one side of the water storage cavity, and the pressure block is elastically disposed on one side of the water storage cavity via the spring, with the pressure block arranged at equal angles on one side of the water storage cavity.

[0016] Compared with the prior art, the present invention has at least the following beneficial effects:

[0017] In the above solution, a rotating component is installed, with slide rails and arc-shaped toothed rings on the inner wall of the rotating shell. This, combined with the linkage of the storage component, allows users to control the opening and closing of the storage box and the base plate by rotating the ring. This controls the release of coffee powder from the storage box. Users can store different beverage powders in the storage box according to their preferences, eliminating the need to carry extra powders and reducing the weight they need for daily travel. This solution caters to various beverage needs, including brewed drinks like coffee and milk. After brewing, the user's rotation of the ring causes a straw to extend from the top opening of the lid, allowing the user to drink the beverage. The solution is convenient, quick, and structurally simple.

[0018] By setting up a vibration component, the linkage between the micro motor and the second set of bevel gears, combined with the force of the micro motor driving the stirring plate, and the linkage between the second and third sets of bevel gears driving the screw to rotate, the force of the sliding ring sliding on the outer surface of the screw, through the interval squeezing between the protrusions, multiple sets of pressure blocks and springs, applies a vibration effect to one side of the water storage chamber. This prevents coffee powder and other beverage powders from remaining on the inner wall of the water storage chamber when brewing, avoiding excessive residue of coffee powder and other beverage powders on the inner wall of the water storage chamber, which would be difficult to clean after drinking and would also avoid affecting the taste of the brewed coffee powder and other beverage powders. Attached Figure Description

[0019] The accompanying drawings, which are incorporated herein and form part of the specification, illustrate embodiments of the invention and, together with the specification, further serve to explain the principles of the invention and enable those skilled in the art to practice and use the invention.

[0020] Figure 1 A three-dimensional cross-sectional diagram of a portable kettle for boiling water without opening the lid;

[0021] Figure 2 A top-down view of a portable kettle designed for boiling water without opening the lid;

[0022] Figure 3 This is a schematic diagram of the three-dimensional structure of the rotating component;

[0023] Figure 4 This is a top view of the rotating assembly.

[0024] Figure 5 This is a cross-sectional structural diagram of the storage components;

[0025] Figure 6 for Figure 5 A magnified structural diagram of A in the middle;

[0026] Figure 7 This is a schematic diagram of the structure of some components of the limit switch assembly;

[0027] Figure 8 This is a top view of some components of the limiting assembly.

[0028] Figure 9 This is a schematic diagram of the cross-sectional structure of the vibration assembly;

[0029] Figure 10 This is a schematic diagram of the structure of some components of the vibration assembly.

[0030] [Figure Labels]

[0031] 1. Outer shell; 2. Battery; 20. Heating module; 3. Water storage chamber; 4. Micro motor; 5. Stirring plate; 6. Control switch; 7. Rotating assembly; 71. Rotating shell; 72. Rotating ring; 73. Slide rail; 74. Arc-shaped toothed ring; 8. Storage assembly; 81. Storage box; 82. Cover plate; 83. Water inlet; 84. Display module; 85. Base plate; 850. Hinge; 86. Telescopic rod; 87. Pin; 88. Push rod; 89. Slider; 810. Flat gear; 811. Bevel gear set one; 812. Straw; 9. Vibration assembly; 91. Bevel gear set two; 92. Bevel gear set three; 93. Screw; 94. Sliding ring; 95. Protrusion; 96. Pressure block; 97. Spring.

[0032] As shown in the figure, specific structures and devices are marked in the figure to clearly illustrate the structure of the embodiments of the present invention. However, this is only for illustrative purposes and is not intended to limit the present invention to this specific structure, device and environment. Those skilled in the art can adjust or modify these devices and environments according to specific needs. Detailed Implementation

[0033] The portable kettle for boiling water without opening the lid provided by the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. It should also be noted that, in order to make the embodiments more detailed, the following embodiments are the best and preferred embodiments, and those skilled in the art can also use other alternative methods to implement some known technologies; moreover, the accompanying drawings are only for more specific description of the embodiments and are not intended to specifically limit the present invention.

[0034] It should be noted that the use of terms such as "an embodiment," "an embodiment," "an exemplary embodiment," and "some embodiments" in the specification indicates that the described embodiment may include a specific feature, structure, or characteristic, but not every embodiment necessarily includes that specific feature, structure, or characteristic. Furthermore, when a specific feature, structure, or characteristic is described in connection with an embodiment, implementing such a feature, structure, or characteristic in conjunction with other embodiments (whether explicitly described or not) should be within the knowledge of those skilled in the art.

[0035] Generally, terms can be understood at least partly from their use in context. For example, depending at least partly on the context, the term "one or more" as used herein can be used to describe any feature, structure, or characteristic in a singular sense, or a combination of features, structures, or characteristics in a plural sense. Additionally, the term "based on" can be understood not necessarily to convey an exclusive set of factors, but rather, alternatively, depending at least partly on the context, to allow for the presence of other factors that are not necessarily explicitly described.

[0036] It is understood that the meanings of “on”, “above”, and “above” in this invention should be interpreted in the broadest manner, such that “on” means not only “directly on” something, but also includes the meaning of being “on” something with an intervening feature or layer, and that “above” or “above” means not only “on” something, but also includes the meaning of being “on” something without an intervening feature or layer.

[0037] Furthermore, spatially related terms such as “below,” “under,” “lower,” “above,” and “upper” are used herein for convenience to describe the relationship of one element or feature to one or more other elements or features, as illustrated in the accompanying drawings. Spatially related terms are intended to cover different orientations in the use or operation of the device other than those depicted in the accompanying drawings. The device may be oriented in other ways, and the spatially related descriptive terms used herein can be interpreted similarly.

[0038] like Figure 1 and Figure 2As shown, an embodiment of the present invention provides a portable kettle for boiling water without opening the lid, comprising a shell 1, a battery 2 disposed at the bottom of the inner wall of the shell 1, a heating module 20 disposed at the top of the battery 2, a water storage cavity 3 disposed at the top of the heating module 20, a micro motor 4 nested at the bottom of the water storage cavity 3, a stirring plate 5 disposed at the top of the micro motor 4, and a control switch 6 disposed on the outer surface of one end of the shell 1; a rotating component 7, which is fitted on the inner wall of the top of the shell 1, and is used to drive a storage component 8; a storage component 8, which is fitted on the inner wall of the top of the shell 1, and is used to store coffee powder and add coffee powder to the water storage cavity 3; and a vibration component 9, which is located at the top of the inner wall of the shell 1. A vibration component 9 is provided to vibrate the water storage chamber 3. A rotating component 7 is provided, with a slide rail 73 and an arc-shaped toothed ring 74 respectively installed on the inner wall of the rotating shell 71. By continuously rotating the rotating shell 71, the function of the storage component 8 can be switched, and the coffee powder in the storage box 81 can be stored and released. At the same time, the force of the user rotating the rotating ring 72 causes the straw 812 to extend from the top opening of the cover plate 82. The user can drink coffee through the straw 812. It is convenient, quick and easy, and the structure is simple. By setting the linkage between the micro motor 4 and the vibration component 9, a vibration effect is applied to one side of the water storage chamber 3, which prevents coffee powder from remaining on the inner wall of the water storage chamber 3 when it falls, and prevents the residual coffee powder from affecting the taste of the brewed coffee.

[0039] As one implementation method in this embodiment, such as Figure 3 and Figure 4As shown, the rotating assembly 7 includes a rotating shell 71, which is fitted onto the inner wall of the outer shell 1. A rotating ring 72 is provided on one side of the outer surface of the rotating shell 71, and a slide rail 73 is provided on the inner wall of the rotating shell 71. One end of the slide rail 73 is arc-shaped, and an arc-shaped toothed ring 74 is provided on one side of the inner wall of the rotating shell 71. The user first opens the water inlet 83 on one side of the top of the cover plate 82 and fills water into the water storage chamber 3 through the water inlet 83. The user can monitor the water level in the water storage chamber 3 in real time through the display module 84. After the water filling is completed, the user starts the heating module 20 through the control switch 6. The heating module 20 heats the water in the water storage chamber 3 at the bottom of the water storage chamber 3. The water in the storage chamber 3 gradually heats up and boils, and the generated steam is discharged through the water inlet 83. After the water in the storage chamber 3 is heated, the user rotates the rotating ring 72 to drive the rotating shell 71 to rotate. At the same time, the rotating shell 71 drives the slide rail 73 and the arc-shaped toothed ring 74 on the inner wall to rotate synchronously. The slide rail 73 and the arc-shaped toothed ring 74 are respectively set on the inner wall of the rotating shell 71. By continuously rotating the rotating shell 71, the function of the storage component 8 can be switched. By specially designing one end of the slide rail 73 as arc-shaped, the storage component 8 is opened and closed by the difference in the rotation state of the slide rail 73, and the coffee powder in the storage box 81 is stored and released. The mechanism is simple.

[0040] As one implementation method in this embodiment, such as Figures 5 to 8 As shown, the storage assembly 8 includes a storage box 81, which is fitted onto the inner wall of the top of the outer shell 1. A cover plate 82 is provided on one side of the storage box 81, and one side of the cover plate 82 contacts the inner wall of the rotating shell 71. A water inlet 83 is provided on one side of the top of the cover plate 82, and a display module 84 is provided on one side of the top of the cover plate 82. A base plate 85 is provided at the bottom of the storage box 81, and a hinge 850 is provided at one end of the base plate 85. The base plate 85 is connected to the storage box 81 through the hinge 850. A telescopic rod 86 is provided at one end of the base plate 85, and a pin is fitted on one end of the telescopic rod 86. Shaft 87, pin 87 is fitted with a push rod 88 at one end, push rod 88 is located on one side of storage box 81, push rod 88 is located on one side of the top of push rod 88 with a slider 89, one end of slider 89 is in contact with the inner wall of slide rail 73, cover plate 82 is provided with a flat gear 810 on one side, flat gear 810 meshes with arc-shaped gear ring 74, flat gear 810 is provided with a bevel gear set 811 at the top, bevel gear set 811 is nested at one end of cover plate 82 with a straw 812 fitted at one end of bevel gear set 811, straw 812 is nested at the top opening of cover plate 82.

[0041] In this embodiment, as the slide rail 73 rotates, its inner wall contacts the slider 89. When the slide rail 73 rotates to the arc section, the top of the inner wall of the slide rail 73 presses against the top of the slider 89 and pushes the slider 89 downward. As the slider 89 slides, it drives the push rod 88 to press down. As the push rod 88 presses down, it drives the pin 87 to press down synchronously. As the pin 87 presses down, it drives one end of the base plate 85 to slide downward and tilt open through the telescopic rod 86. At this time, the coffee powder stored in the storage box 81 falls into the water storage cavity 3 along the tilt direction of the base plate 85 and begins to mix with the water in the water storage cavity 3. Similarly, when the coffee powder in the storage box 81 has completely fallen into the water storage cavity 3, the user continues to rotate the rotating ring 72. The rotating shell 71 drives the slide rail 73 to continue rotating, so that the arc section of the slide rail 73 moves away from the slider 89. The slider 89 drives the push rod 88 to slide upward and reset. The push rod 88 drives the base plate 85 to reset through the telescopic rod 86, so that the base plate 85 resets and closes.

[0042] Once the coffee powder and water in the water storage chamber 3 are fully mixed, the user turns off the micro motor 4 via the control switch 6. Then, the user continuously rotates the rotating ring 72, which drives the rotating shell 71 to rotate continuously. As the rotating shell 71 rotates, it drives the arc-shaped toothed ring 74 to gradually approach and mesh with the spur gear 810. As the spur gear 810 rotates, it drives the input end of the bevel gear set 811 to rotate. As the input end of the bevel gear set 811 rotates, it meshes with the output end of the bevel gear set 811 to rotate. As the output end of the bevel gear set 811 rotates, it drives the straw 812 to extend from the top opening of the cover plate 82. At this time, the user can drink the coffee in the water storage chamber 3 through the straw 812.

[0043] By setting up a sliding engagement between the slide rail 73 and the slider 89, and utilizing the linkage between the base plate 85, the telescopic rod 86, the pin 87, and the push rod 88, the user can switch the opening and closing state between the storage box 81 and the base plate 85 by rotating the rotating ring 72. This controls the dropping of coffee powder from the storage box 81. Users can store different beverage powders in the storage box 81 according to their drinking preferences, eliminating the need to carry extra beverage powders. Furthermore, by setting up a linkage between the flat gear 810, the bevel gear set 811, and the straw 812, after the beverage powder is brewed, the user's rotation of the rotating ring 72 causes the straw 812 to extend from the top opening of the cover plate 82, allowing the user to drink coffee through the straw 812. This design is convenient, quick, and simple in structure.

[0044] As one implementation method in this embodiment, such as Figure 9 and Figure 10As shown, the vibration assembly 9 includes a second bevel gear set 91, one end of which is sleeved on the outer surface of the top of the micro motor 4. A third bevel gear set 92 is connected to one end of the second bevel gear set 91. The third bevel gear set 92 is located on one side of the bottom of the water storage chamber 3. A screw 93 is located at the top of the third bevel gear set 92. A sliding ring 94 is sleeved on the outer surface of the screw 93. Protrusions 95 are provided at equal angles on the inner wall of the sliding ring 94. One end of each protrusion 95 contacts a pressure block 96. A spring 97 is provided at one end of the pressure block 96. The spring 97 has elasticity. Located on one side of the water storage chamber 3, the pressure block 96 is elastically positioned on one side of the water storage chamber 3 via a spring 97. The pressure block 96 is arranged at an equal angle on one side of the water storage chamber 3. When the coffee powder in the storage box 81 completely falls into the water storage chamber 3, the user turns on the micro motor 4 via the control switch 6. The micro motor 4 drives the stirring plate 5 to rotate and stir at the bottom of the water storage chamber 3, fully mixing the coffee powder and water in the water storage chamber 3 and accelerating the dissolution speed of the coffee powder in the water storage chamber 3. At the same time, the micro motor 4 drives the input end of the bevel gear set 2 91 to rotate. The rotation of the input end of the bevel gear set 2 91 meshes and drives the output end of the bevel gear set 2 91 to rotate synchronously. The rotation of the output end of the bevel gear set 2 91 drives the input end of the bevel gear set 3 92 to rotate synchronously. The rotation of the input end of the bevel gear set 3 92 meshes and drives the output end of the bevel gear set 3 92 to rotate synchronously. The rotation of the output end of the bevel gear set 3 92 drives the screw 93 to rotate synchronously. As the screw 93 rotates, the sliding ring 94 sleeved on the outer surface of the screw 93 moves in the water storage chamber 3. As the sliding ring 94 slides, it drives the protrusion 95 to press multiple sets of pressure blocks 96 at intervals. The pressure blocks 96 are compressed by the spring 97 and contract. When the protrusion 95 and the pressure block 96 are no longer in contact, the spring 97 extends and pushes the pressure block 96 back to its original position. When the multiple sets of springs 97 extend and retract at intervals, vibration is generated, which applies a vibration effect to the water storage cavity 3. This causes the coffee powder that has fallen and adhered to the inner wall of the water storage cavity 3 to fall into the water in the water storage cavity 3. Combined with the rotation effect of the stirring plate 5, the coffee powder and the water in the water storage cavity 3 are fully mixed.

[0045] By setting up the linkage between the micro motor 4 and the bevel gear set 91, the micro motor 4 drives the stirring plate 5. The linkage between the bevel gear set 91 and the bevel gear set 92 drives the screw 93 to rotate. The sliding ring 94 slides on the outer surface of the screw 93. Through the interval squeezing between the protrusion 95, multiple pressure blocks 96 and spring 97, a vibration effect is applied to one side of the water storage chamber 3. This prevents coffee powder from remaining on the inner wall of the water storage chamber 3 when it falls, and prevents the residual coffee powder from affecting the taste of the brewed coffee.

[0046] The working principle provided by this invention is as follows: the user first opens the water inlet 83 on one side of the top of the cover plate 82 and injects water into the water storage cavity 3 through the water inlet 83. The user can monitor the water volume in the water storage cavity 3 in real time through the display module 84. After the water is injected, the user starts the heating module 20 through the control switch 6. The heating module 20 heats the water in the water storage cavity 3 at the bottom of the water storage cavity 3. The water in the water storage cavity 3 gradually boils, and the generated water vapor is discharged through the water inlet 83.

[0047] Once the water in the water storage chamber 3 has been heated, the user rotates the rotating ring 72 to drive the rotating shell 71 to rotate. As the rotating shell 71 rotates, it drives the slide rail 73 and the arc-shaped toothed ring 74 on the inner wall to rotate synchronously.

[0048] As the slide rail 73 rotates, its inner wall contacts the slider 89. When the slide rail 73 rotates to the arc section, the top of the inner wall of the slide rail 73 presses against the top of the slider 89 and pushes the slider 89 downward. As the slider 89 slides, it drives the push rod 88 to press down. As the push rod 88 presses down, it drives the pin 87 to press down simultaneously. As the pin 87 presses down, it drives one end of the base plate 85 to slide downward and tilt open through the telescopic rod 86. At this time, the coffee powder stored in the storage box 81 falls into the water storage chamber 3 along the tilt direction of the base plate 85 and begins to mix with the water in the water storage chamber 3. Similarly, when the coffee powder in the storage box 81 has completely fallen into the water storage chamber 3, the user continues to rotate the rotating ring 72. The rotating shell 71 drives the slide rail 73 to continue rotating, so that the arc section of the slide rail 73 moves away from the slider 89. The slider 89 drives the push rod 88 to slide upward and reset. The push rod 88 drives the base plate 85 to reset through the telescopic rod 86, so that the base plate 85 resets and closes.

[0049] When the coffee powder in the storage box 81 has completely fallen into the water storage chamber 3, the user turns on the micro motor 4 via the control switch 6. The micro motor 4 drives the stirring plate 5 to rotate and stir at the bottom of the water storage chamber 3, thoroughly mixing the coffee powder and water and accelerating the dissolution speed of the coffee powder. At the same time, the micro motor 4 drives the input end of the second bevel gear set 91 to rotate. The rotation of the input end of the second bevel gear set 91 meshes and drives the output end of the second bevel gear set 91 to rotate synchronously. The rotation of the output end of the second bevel gear set 91 simultaneously drives the input end of the third bevel gear set 92 to rotate synchronously. The rotation of the input end of the third bevel gear set 92 simultaneously meshes and drives the output end of the third bevel gear set 92 to rotate synchronously. As the output end of the bevel gear set 92 rotates, it drives the screw 93 to rotate synchronously. As the screw 93 rotates, the sliding ring 94 sleeved on the outer surface of the screw 93 slides around the water storage cavity 3. While the sliding ring 94 slides, it drives the protrusion 95 to press multiple sets of pressure blocks 96 at intervals. The pressure blocks 96 are compressed by the pressure spring 97 and contract. When the protrusion 95 and the pressure block 96 are no longer in contact, the spring 97 extends and retracts and pushes the pressure block 96 to reset. When the multiple sets of springs 97 extend and retract at intervals, vibration is generated, which applies a vibration effect to the water storage cavity 3. This causes the coffee powder that falls and adheres to the inner wall of the water storage cavity 3 to fall into the water in the water storage cavity 3. Combined with the rotation effect of the stirring plate 5, the coffee powder and the water in the water storage cavity 3 are fully mixed.

[0050] Once the coffee powder and water in the water reservoir 3 are fully mixed, the user turns off the micro motor 4 via the control switch 6. Then, the user continuously rotates the rotating ring 72, which drives the rotating shell 71 to rotate continuously. As the rotating shell 71 rotates, it drives the arc-shaped toothed ring 74 to gradually approach and mesh with the spur gear 810. As the spur gear 810 rotates, it drives the input end of the bevel gear set 811 to rotate. As the input end of the bevel gear set 811 rotates, it meshes with the output end of the bevel gear set 811 to rotate. As the output end of the bevel gear set 811 rotates, it drives the straw 812 to extend from the top opening of the cover plate 82. At this time, the user can drink the coffee in the water reservoir 3 through the straw 812.

[0051] This invention encompasses any substitutions, modifications, equivalent methods, and solutions made within the spirit and scope of this invention. To provide the public with a thorough understanding of this invention, specific details are described in detail in the following preferred embodiments; however, those skilled in the art will fully understand the invention even without these details. Furthermore, to avoid unnecessary misunderstanding of the essence of this invention, well-known methods, processes, procedures, components, and circuits are not described in detail.

[0052] The above description is only a preferred embodiment of the present invention. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present invention, and these improvements and modifications should also be considered within the scope of protection of the present invention.

Claims

1. A portable water boiling cup without opening the cover to boil water, characterized in that, The device includes an outer casing, a battery located at the bottom of the inner wall of the outer casing, a heating module located at the top of the battery, a water storage chamber located at the top of the heating module, a micro motor nested at the bottom of the water storage chamber, a stirring plate located at the top of the micro motor, and a control switch located on the outer surface of one end of the outer casing. It also includes a rotating component, which is fitted on the inner wall of the top of the outer shell and is used to drive the storage component to operate; A storage component is provided on the inner wall of the top of the outer shell. The storage component is used to store coffee powder and add coffee powder to the water storage chamber. A vibration assembly is provided at the top of the inner wall of the outer shell, and the vibration assembly is used to vibrate the water storage chamber; The rotating assembly includes a rotating shell, which is fitted onto the inner wall of the outer shell. A rotating ring is provided on one side of the outer surface of the rotating shell, and a slide rail is provided on the inner wall of the rotating shell. One end of the slide rail is arc-shaped, and an arc-shaped toothed ring is provided on one side of the inner wall of the rotating shell. The storage component includes a storage box, which is fitted onto the inner wall of the top of the outer shell. A cover is provided on one side of the storage box, and one side of the cover is in contact with the inner wall of the rotating shell. A water inlet is provided on one side of the top of the cover, and a display module is provided on one side of the top of the cover. The storage box has a bottom plate at the bottom end, and a hinge is provided at one end of the bottom plate. The bottom plate is connected to the storage box through the hinge. A telescopic rod is provided at one end of the bottom plate. A pin is sleeved at one end of the telescopic rod. A push rod is sleeved at one end of the pin. The push rod is located on one side of the storage box. A slider is provided on one side of the top of the push rod. One end of the slider is in contact with the inner wall of the slide rail. A flat gear is provided on one side of the cover plate, and the flat gear meshes with an arc-shaped toothed ring. A bevel gear set is provided at the top of the flat gear. One end of the bevel gear set is nested in the inner wall of the cover plate, and one end of the bevel gear set is fitted with a suction tube, which is nested in the opening at the top of the cover plate. The vibration assembly includes a second bevel gear set, one end of which is sleeved on the outer surface of the top of the micro motor, and one end of the second bevel gear set is connected to a third bevel gear set, which is located on one side of the bottom of the water storage chamber. The bevel gear set has a screw at each of its three top ends, a sliding ring is fitted on the outer surface of the screw, and protrusions are provided at equal angles on the inner wall of the sliding ring; One end of the protrusion contacts a pressure block, and one end of the pressure block is provided with a spring. The spring is elastically disposed on one side of the water storage cavity, and the pressure block is elastically disposed on one side of the water storage cavity via the spring. The pressure blocks are arranged at equal angles on one side of the water storage cavity.