Water cup with fan
By designing a detachable fan component inside the water cup, the problem of the water cup having only one function is solved, realizing the multi-functionality of water storage and cooling, and allowing the fan component to be replaced independently, thus improving the practicality and environmental friendliness of the water cup.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- 胡全
- Filing Date
- 2025-09-15
- Publication Date
- 2026-07-14
Smart Images

Figure CN122396427A_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of water cup technology, and more particularly to a water cup with a fan. Background Technology
[0002] As people's living standards improve, their requirements for everyday items, such as water cups, are also increasing.
[0003] Currently, water cups on the market are generally either ordinary water cups or insulated water cups (i.e., thermos cups). Ordinary water cups are only used to store liquids, while thermos cups can keep the liquid inside warm. This results in water cups having relatively limited functions. Therefore, how to design a multifunctional water cup has become an urgent problem to be solved. Summary of the Invention
[0004] This application provides a water cup with a fan, which can solve the problem of limited functionality of water cups in related technologies.
[0005] This application provides a water cup with a fan; the water cup with a fan includes a cup body and a fan assembly. The cup body includes a base plate and a side wall structure connecting the base plate. The base plate and the side wall structure form a receiving cavity with an opening. The fan assembly can be detachably mounted on the outer surface of the side wall structure.
[0006] The fan-equipped water cup based on this application embodiment features a base plate and sidewall structure that form an open receiving cavity, allowing water to be poured into the cup body through the opening. The fan assembly allows users to cool the cup. Designed to be detachably connected to the sidewall structure, the fan assembly can be removed as needed, bringing it as close to the skin as possible to enhance cooling. Furthermore, if either the fan assembly or the cup body is damaged, only the individual component can be replaced, reducing resource waste. This fan-equipped water cup not only provides water storage through its body design but also cooling functionality through the fan assembly, offering multiple functions. Attached Figure Description
[0007] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0008] Figure 1This application provides a three-dimensional water cup with a fan in one embodiment. Figure 1 ;
[0009] Figure 2 for Figure 1 A stereoscopic view of a water glass with a fan from another perspective;
[0010] Figure 3 for Figure 1 An exploded view of the water cup with a fan in the picture;
[0011] Figure 4 This application provides a three-dimensional water cup with a fan in one embodiment. Figure 2 ;
[0012] Figure 5 for Figure 4 A stereoscopic view of a water glass with a fan from another perspective;
[0013] Figure 6 This application provides a three-dimensional representation of a fan mounting component according to one embodiment. Figure 1 ;
[0014] Figure 7 This application provides a three-dimensional representation of a fan mounting component according to one embodiment. Figure 2 ;
[0015] Figure 8 for Figure 1 A 3D view of the fan head in its extended state;
[0016] Figure 9 for Figure 6 An exploded view of the fan mounting components from a first-person perspective;
[0017] Figure 10 for Figure 6 An exploded view of the fan mounting components from a second-person perspective;
[0018] Figure 11 This is a partial cross-sectional view of the locking component in Embodiment 1 of this application when it is in a locked state;
[0019] Figure 12 This is a partial cross-sectional view of the locking component in an embodiment of this application when it is in the unlocked state;
[0020] Figure 13 This is an exploded view of a fan assembly according to one embodiment of this application;
[0021] Figure 14 for Figure 13 An exploded view of the fan assembly from another perspective;
[0022] Figure 15This application provides a three-dimensional water cup with a fan in one embodiment. Figure 3 ;
[0023] Figure 16 This is a partially exploded view of a water cup with a fan according to one embodiment of this application;
[0024] Figure 17 for Figure 16 A partially exploded view of a water glass with a fan from another perspective;
[0025] Figure 18 This is a perspective view of a water cup with a fan according to a second embodiment of this application;
[0026] Figure 19 for Figure 18 A 3D view of the fan head in its extended state;
[0027] Figure 20 for Figure 18 Partial disassembly of the water cup with fan Figure 1 ;
[0028] Figure 21 for Figure 18 Partial disassembly of the water cup with fan Figure 2 ;
[0029] Figure 22 for Figure 21 A partially exploded view of a water glass with a fan from another perspective;
[0030] Figure 23 This is a perspective view of a water cup with a fan according to a third embodiment of this application;
[0031] Figure 24 for Figure 23 A 3D view of the fan head in its extended state;
[0032] Figure 25 for Figure 23 An exploded view of the water cup with a fan in the picture;
[0033] Figure 26 This is a perspective view of a water cup with a fan according to a fourth embodiment of this application;
[0034] Figure 27 for Figure 26 A 3D view of the fan head in its extended state;
[0035] Figure 28 for Figure 26 An exploded view of the water cup with a fan in the picture;
[0036] Figure 29 This application provides a three-dimensional water cup with a fan in embodiment five. Figure 1 ;
[0037] Figure 30 for Figure 29 A 3D view of the fan head in its extended state;
[0038] Figure 31 for Figure 29 An exploded view of the water cup with a fan in the picture;
[0039] Figure 32 This application provides a three-dimensional water cup with a fan in embodiment five. Figure 2 ;
[0040] Figure 33 for Figure 32 A 3D view of the fan head in its extended state;
[0041] Figure 34 for Figure 32 An exploded view of the water cup with a fan in the picture;
[0042] Figure 35 for Figure 32 An exploded view of the water cup with a fan in the image;
[0043] Figure 36 for Figure 32 An exploded view of the water glass with a fan from another perspective;
[0044] Figure 37 This is a perspective view of a water cup with a fan according to a sixth embodiment of this application;
[0045] Figure 38 for Figure 37 A stereoscopic view of a water glass with a fan from another perspective;
[0046] Figure 39 for Figure 37 A stereoscopic view of a water glass with a fan from another perspective;
[0047] Figure 40 for Figure 37 An exploded view of the water cup with a fan in the image;
[0048] Figure 41 for Figure 37 An exploded view of a water glass with a fan from another perspective.
[0049] Reference numerals: 1. Water cup with fan; 10. Cup body; 11. Base plate; 12. Side wall structure; 121. Side wall body; 121a. Receiving cavity; 122. Fan mounting component; 122a. Storage slot; 122b. Storage main body; 122c. Extension; 1221. Mounting body; 1221a. First part; 1221a1. Through hole; 1221b. Second part; 1221b1. First movable slot; 1221b2. Second movable slot; 1221b3. Movable hole; 1222. Locking assembly; 1222a. Locking fastener; 1222a1. Operating part; 1222a2. Locking part; 1222a3. Assembly part; 1222b. Reset drive component; 1222b1. Elastic component; 123. Connecting part; 123a. Protrusion 123b, Groove; 20, Fan assembly; 20a, Slot; 21, Base; 211, Outer shell; 211a, Surface; 212, Battery; 213, Circuit board; 214, Control button; 215, Charging port; 216, Lighting device; 217, Support base; 218, Handle; 219, Rubber stopper; 22, Fan head; 23, Elastic pad; 30, Cup lid assembly; 31, Main lid body; 32, Flip lid; 33, Straw structure; 34, Sealing ring; 40, Magnetic adsorption structure; 41, First magnet; 42, Second magnet; 50, Snap-on structure; 51, Snap-on flange; 52, Snap-on groove; 61, External thread; 62, Internal thread; 70, Spray assembly; 71, Nozzle structure; 711, Spray head; 712, Press handle; 72, Limiting component. Detailed Implementation
[0050] To make the objectives, technical solutions, and advantages of this application clearer, the following detailed description is provided in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the scope of this application.
[0051] Example 1
[0052] Please refer to Figures 1-3 This application provides a fan-equipped water cup 1, which includes a cup body 10 and a fan assembly 20. The cup body 10 includes a base plate 11 and a side wall structure 12 connecting the base plate 11. The base plate 11 and the side wall structure 12 form a receiving cavity 121a with an opening. The fan assembly 20 can be detachably disposed on the outer surface 211a of the side wall structure 12.
[0053] The cup body 10 is used to store liquids. The specific material of the cup body 10 is not limited here; designers can choose according to actual needs. For example, the material of the cup body 10 can be, but is not limited to, plastic, resin, silicone, or food-grade stainless steel. When the cup body 10 is made of plastic or silicone, the base plate 11 and the side wall structure 12 can be, but is not limited to, formed as a single unit through injection molding or blow molding. Injection molding involves heating thermoplastic plastic to a molten state, injecting it into a closed mold under pressure, and then demolding it after cooling and solidification. Blow molding involves forming a tubular preform from thermoplastic resin, then using compressed air to expand it and fit it against the inner wall of the mold to form a hollow structure. It should be noted that, depending on the selected material, when the cup body 10 is made of food-grade stainless steel, this fan-equipped water cup 1 also has a heat preservation function.
[0054] The fan assembly 20 is used to drive airflow to form an airflow. The specific detachable connection method between the fan assembly 20 and the side wall structure 12 is not limited here, and the designer can make reasonable designs according to actual needs; for example, the fan assembly 20 can be detachably connected to the side wall structure 12 by at least one of the following methods: threaded connection, snap-fit connection, plug-in connection, negative pressure adsorption connection, magnetic adsorption connection, etc.
[0055] Based on the fan-equipped water cup 1 in this embodiment, the base plate 11 and side wall structure 12 are designed to form an open receiving cavity 121a, through which water can be injected into the cup body 10. The fan assembly 20 allows the user to cool down the cup. The fan assembly 20 is designed to be detachably connected to the side wall structure 12, allowing the user to remove it as needed and bring it as close to the skin as possible to improve cooling efficiency. Furthermore, if either the fan assembly 20 or the cup body 10 is damaged, only the individual component can be replaced, reducing the need to replace the entire fan-equipped water cup 1 and minimizing resource waste. This fan-equipped water cup 1 not only has a water storage function through the cup body 10 but also a cooling function through the fan assembly 20, offering multiple functions.
[0056] In this embodiment, as Figures 1-5As shown, the sidewall structure 12 includes a sidewall body 121 and a fan mounting component 122 connected to the outside of the sidewall body 121. The fan mounting component 122 is manufactured separately and then connected to the sidewall body 121 and the base plate 11 through a secondary molding process. The sidewall body 121 and the base plate 11 form the aforementioned receiving cavity 121a. This secondary molding, also known as secondary injection molding or two-color injection molding, is an injection molding process. The material used to make the fan mounting component 122 is injected into a mold, and after the fan mounting component 122 is injection molded, it is placed into another mold used to make the sidewall body 121 and the base plate 11. Then, the material used to make the sidewall body 121 and the base plate 11 is injected into this other mold, and blow molding is used to combine the two materials, ultimately connecting the fan mounting component 122 to the sidewall body 121 and the base plate 11 as a single unit. The connection between the sidewall body 121 and the base plate 11 can form a shape such that... Figures 1-3 The rectangular cup body shown can also be enclosed to form a shape such as the side wall body 121 connected to the bottom plate 11. Figures 4-5 The cup body shown is cylindrical. The fan mounting component 122 is a structural component of the side wall structure 12 used to mount the fan assembly 20. The fan assembly 20 is detachably connected to the fan mounting component 122, and the fan assembly 20 is connected to the side wall body 121 through the fan mounting component 122. The fan mounting component 122 is manufactured separately and then connected to the side wall body 121 and the base plate 11 through a secondary molding process. This reduces the assembly difficulty between the fan mounting component 122 and the side wall body 121 and effectively enhances the connection strength between the fan mounting component 122 and the side wall body 121.
[0057] It should be noted that the sidewall body 121 and the bottom plate 11 enclose the aforementioned receiving cavity 121a. The sidewall body 121 and the bottom plate 11 are processed by blow molding, so that the sidewall body 121 and the bottom plate 11 can be directly formed into a receiving cavity 121a of any shape by injecting gas, which facilitates the subsequent demolding operation. In addition, the fan mounting part 122 is obtained by injection molding, and the blow molding method is used to form an integral structure with the sidewall body 121 and the bottom plate 11, achieving a reliable connection and saving costs.
[0058] In this embodiment, as Figure 6 and Figure 7As shown, the surface 211a of the fan mount 122 connecting to the sidewall body 121 is provided with at least one connecting portion 123. The at least one connecting portion 123 includes at least one of a protrusion 123a and a groove 123b, and is used to increase the connection area with the sidewall body 121. The number of connecting portions 123 can be one or more (two or more). For example, when the connecting portion 123 only includes a solid structure such as a protrusion 123a on the surface 211a of the fan mount 122 connected to the sidewall body 121, the surface 211a of the sidewall body 121 connected to the fan mount 122 is designed with another virtual structure such as a groove that matches the protrusion 123a. The protrusion 123a cooperates with the other groove, which can increase the connection area between the fan mount 122 and the sidewall body 121, enhancing the connection stability between the fan mount 122 and the sidewall body 121. For example, when the connecting part 123 only includes a virtual structure such as a groove 123b formed on the surface 211a of the fan mount 122 that is connected to the side wall body 121, then the surface 211a of the side wall body 121 that is connected to the fan mount 122 is designed with another solid structure such as a protrusion that matches the groove 123b. The groove 123b and the other protrusion cooperate to increase the connection area between the fan mount 122 and the side wall body 121 and enhance the connection stability between the fan mount 122 and the side wall body 121. For example, when the connecting part 123 includes a solid structure such as a protrusion 123a disposed on the surface 211a of the fan mounting member 122 connected to the side wall body 121, and a virtual structure such as a groove 123b formed on the surface 211a of the fan mounting member 122 connected to the side wall body 121, then the surface 211a of the side wall body 121 connected to the fan mounting member 122 is designed with another virtual structure such as a groove that matches the protrusion 123a, and the surface 211a of the side wall body 121 connected to the fan mounting member 122 is designed with another solid structure such as a protrusion that matches the groove 123b. The protrusion 123a cooperates with the other groove, and the groove 123b cooperates with the other protrusion, which can increase the connection area between the fan mounting member 122 and the side wall body 121 and enhance the connection stability between the fan mounting member 122 and the side wall body 121. The connecting portion 123 may be integrally molded with the fan mount 122 by injection molding, but is not limited to this method. By designing the connecting portion 123 on the surface 211a of the fan mount 122 that connects to the sidewall body 121, and designing the connecting portion 123 to include at least one of a protrusion 123a and a groove 123b, the connection area between the fan mount 122 and the sidewall body 121 is increased, thereby enhancing the connection stability between the fan mount 122 and the sidewall body 121.
[0059] Specifically, at least one connecting portion 123 includes a plurality of spaced-apart protrusions 123a, each protrusion 123a being elongated. The number of protrusions 123a can be two, three, four, five, six, or more. The plurality of protrusions 123a can be equally spaced on the surface 211a of the fan mount 122 connected to the sidewall body 121, or they can be non-equally spaced on the same surface. It is understood that, in this case, a plurality of spaced-apart grooves are formed on the surface 211a of the sidewall body 121 connected to the fan mount 122, and each protrusion 123a is used to mate with one of these grooves. Thus, a multi-point connection between the fan mount 122 and the sidewall body 121 can be achieved through the one-to-one correspondence between the plurality of protrusions 123a and the plurality of grooves, further enhancing the connection stability between the fan mount 122 and the sidewall body 121.
[0060] like Figure 1 and Figure 3 As shown, the fan mount 122 has a receiving groove 122a, in which at least a portion of the fan assembly 20 is disposed. For example, the entire fan assembly 20 can be received within the receiving groove 122a of the fan mount 122, or a portion of the fan assembly 20 can be received within the receiving groove 122a of the fan mount 122, while the remaining portion of the fan assembly 20 extends beyond the receiving groove 122a of the fan mount 122. By designing the receiving groove 122a on the fan mount 122, the fan assembly 20 and the fan mount 122 form an inner and outer nested structure, making reasonable use of the internal area of the fan mount 122, and making the structural arrangement of the fan assembly 20 and the fan mount 122 more compact, which is beneficial to reducing the overall volume of the water cup 1 with the fan. Specifically, in this embodiment, a portion of the fan assembly 20 protrudes beyond the receiving groove 122a of the fan mount 122.
[0061] like Figure 1 , Figure 6 , Figures 8-12As shown, the fan mount 122 includes a mounting body 1221 and a locking component 1222 movably connected to the mounting body 1221. The locking component 1222 is movable relative to the mounting body 1221 to switch between a locked state and an unlocked state. In the locked state, the locking component 1222 abuts against the fan assembly 20 to fix the fan assembly 20 to the mounting body 1221. At this time, the fan assembly 20 is positioned relative to the mounting body 1221 by the locking component 1222, thus achieving relative fixation of the position between the fan assembly 20 and the mounting body 1221. In the unlocked state, the locking component 1222 releases the fan assembly 20 so that the fan assembly 20 can be detached from the mounting body 1221. At this time, the fan assembly 20 is no longer locked to the mounting body 1221 by the locking component 1222, thus achieving relative change of the position between the fan assembly 20 and the mounting body 1221, thereby removing the fan assembly 20 from the mounting body 1221.
[0062] Specifically, the locking component 1222 includes a latch 1222a and a reset drive 1222b; the latch 1222a is used to switch between a locked position abutting against the fan assembly 20 and an unlocked position separated from the fan assembly 20; the reset drive 1222b is connected between the latch 1222a and the mounting body 1221, and the reset drive 1222b is used to drive the latch 1222a to reset from the unlocked position to the locked position. It is understood that the locking component 1222a has a locked position and an unlocked position. When the locking component 1222a is in the locked position, it abuts against the fan assembly 20 to lock the fan assembly 20 to the mounting body 1221, keeping the position between the fan assembly 20 and the mounting body 1221 relatively fixed. At this time, the locking component 1222a is in the locked state described above. When the locking component 1222a is in the unlocked position, it disengages from the fan assembly 20 to unlock the fan assembly 20 to the mounting body 1221, allowing the position between the fan assembly 20 and the mounting body 1221 to change relative to each other. At this time, the locking component 1222a is in the unlocked state described above. The locking element 1222a can move from the locked position to the unlocked position under the action of an external force. During the process of moving from the locked position to the unlocked position, the reset drive element 1222b is adapted to generate elastic deformation. When the locking element 1222a is in the unlocked position and the external force acting on the locking element 1222a is removed, the locking element 1222a can move from the unlocked position to the locked position under the action of the elastic restoring force generated during the elastic deformation process of the reset drive element 1222b, thereby realizing the automatic reset of the locking element 1222a.
[0063] like Figures 8-12As shown, the locking member 1222a includes an operating part 1222a1 and a locking part 1222a2. The mounting body 1221 includes a first part 1221a and a second part 1221b connected to the first part 1221a. The first part 1221a has the aforementioned storage groove 122a and a through hole 1221a1 communicating with the aforementioned storage groove 122a. The second part 1221b includes a first movable groove 1221b1 located on the first side, a second movable groove 1221b2 located on the second side, and a movable hole 1221b3 connecting the first movable groove 1221b1 and the second movable groove 1221b2. The operating part 1222a1 is movably mounted in the first movable slot 1221b1 and is at least partially connected to the locking part 1222a2 via the movable hole 1221b3. The locking part 1222a2 is movably mounted in the second movable slot 1221b2 and can extend into the receiving slot 122a via the through hole 1221a1 to abut against the fan assembly 20. The reset drive 1222b is connected to the end of the locking part 1222a2 away from the through hole 1221a1, and the end of the reset drive 1222b away from the locking part 1222a2 abuts against the slot wall of the second movable slot 1221b2. It is understood that the operating part 1222a1 is adapted to move within the first movable groove 1221b1 under the action of external force. The movement of the operating part 1222a1 drives the locking part 1222a2 connected thereto to move in the second movable groove 1221b2 in a direction away from the through hole 1221a1 until the operating part 1222a1 drives the locking part 1222a2 to move to make the locking part 1222a in the above-mentioned unlocked position. At this time, the locking part 1222a2 disengages from the locking groove 20a of the fan assembly 20 to unlock the fan assembly 20 from the mounting body 1221, so that the relative position between the fan assembly 20 and the mounting body 1221 can be changed. At this time, the locking component 1222 is in the above-mentioned unlocked state. When the external force acting on the operating part 1222a1 is removed, the reset drive member 1222b recovers its elastic deformation. Under the action of the elastic restoring force of the reset drive member 1222b, the locking part 1222a2 moves in the second movable groove 1221b2 toward the through hole 1221a1. The movement of the locking part 1222a2 drives the operating part 1222a1 connected to it to move in the first movable groove 1221b1 until the locking part 1222a2 drives the operating part 1222a1 to move to the locking member 1222a in the above-mentioned locked position. At this time, the locking part 1222a2 abuts against the locking groove 20a of the fan assembly 20 to lock the fan assembly 20 to the mounting body 1221, so that the position between the fan assembly 20 and the mounting body 1221 remains relatively fixed. At this time, the locking component 1222 is in the above-mentioned locked state.
[0064] The reset drive component 1222b includes an elastic element 1222b1. When the latching member 1222a is in the unlocked position, the elastic element 1222b1 is compressed. When the latching member 1222a stops operating in the unlocked state, the elastic element 1222b1 releases its elastic force to drive the latching member 1222a to the locked position. The elastic element 1222b1 can be either a spring or a sheet spring. The locking element 1222a is adapted to move from the locked position to the unlocked position under the action of external force, overcoming the elastic force of the elastic element 1222b1. When the locking element 1222a is in the unlocked position, the elastic element 1222b1 undergoes elastic deformation and is compressed, and the locking component 1222 is in the unlocked state. When the external force acting on the locking element 1222a is removed, the elastic element 1222b1 recovers its elastic deformation, and the locking element 1222a moves to the locked position under the action of the elastic restoring force generated during the recovery of elastic deformation of the elastic element 1222b1.
[0065] like Figures 8-12 As shown, the locking member 1222a also includes an assembly portion 1222a3, which is located at the end of the locking member 1222a2 away from the through hole 1221a1. One end of the elastic member 1222b1 is connected to the groove wall of the second movable groove 1221b2, and the other end of the elastic member 1222b1 is connected to the assembly portion 1222a3. For example, when the elastic member 1222b1 is a spring, one end of the spring is connected to the groove wall of the second movable groove 1221b2, and the other end of the spring is sleeved on the assembly portion 1222a3. By designing the assembly portion 1222a3 to connect the other end of the elastic member 1222b1, the connection stability between the elastic member 1222b1 and the locking member 1222a2 can be ensured, allowing the elastic member 1222b1 to generate effective elastic deformation under the compression action of the locking member 1222a2.
[0066] like Figure 1 , Figure 3 , Figure 6 and Figure 8As shown, the storage slot 122a includes a storage body 122b and an extension 122c communicating with the storage body 122b. The fan assembly 20 is detachably disposed in the storage body 122b. The extension 122c is used to accommodate the user's fingers for easy access to the fan assembly 20. The storage body 122b accommodates the fan assembly 20, forming an inner and outer nested structure between the fan assembly 20 and the fan mounting member 122. This makes the arrangement of the fan assembly 20 and the fan mounting member 122 more compact, which helps to reduce the overall volume of the water cup 1 with the fan. By designing the extension 122c communicating with the storage body 122b, the user's fingers can be directly placed in the extension 122c, and the fan assembly 20 can be detached from the fan mounting member 122 by directly moving it, effectively reducing the difficulty for the user to access the fan assembly 20.
[0067] like Figure 1 and Figure 8 As shown, the fan assembly 20 includes a base 21 and a fan head 22 movably connected to the base 21; the base 21 is detachably connected to the cup body 10 (specifically, the fan mounting component 122 described above); the fan head 22 is movably connected to the base 21, and the fan head 22 can switch between an unfolded state relative to the base 21 and a folded state relative to the base 21. The fan head 22 can be rotatably connected to the base 21, and the fan head 22 can also be slidably connected to the base 21. By designing the base 21 and fan head 22, the fan head 22 is connected to the cup body 10 through the base 21, and the fan head 22 is movably connected to the base 21 so that the fan head 22 has an unfolded state and a folded state. When cooling is required, the user can adjust the fan head 22 to the unfolded state relative to the base 21, so that the fan head 22 extends completely outside the side wall structure 12 (specifically the storage slot 122a of the aforementioned fan mounting component 122), avoiding the side wall structure 12 (specifically the storage slot 122a of the aforementioned fan mounting component 122) from obstructing the fan head 22. When cooling is not required, the user can adjust the fan head 22 to the folded state relative to the base 21, so that the fan can be stored as much as possible in the side wall structure 12 (specifically the storage slot 122a of the aforementioned fan mounting component 122), thereby reducing the overall space occupied by the fan-equipped cup 1 when the fan head 22 is idle.
[0068] For example, taking the fan head 22 and the base 21 as a rotating connection, when cooling is required, the user rotates the fan head 22 so that it is fully extended out of the side wall structure 12 (specifically, the storage slot 122a of the fan mounting part 122 mentioned above) and is in an unfolded state. When cooling is not required, the user rotates the fan head 22 so that it is fully retracted into the side wall structure 12 (specifically, the storage slot 122a of the fan mounting part 122 mentioned above) and is in a folded state.
[0069] The base 21 is a support 217 that is approximately cylindrical. By designing the base 21 as a cylindrical structure with an approximately circular outer contour, it is easy to manufacture. It should be noted that the outer surface 211a of the base 21 is provided with the aforementioned locking groove 20a at the position corresponding to the aforementioned locking part 1222a2.
[0070] like Figure 13 and Figure 14 As shown, at least one elastic pad 23 is provided on the side of the base 21 near the side wall structure 12. The material of the elastic pad 23 can be, but is not limited to, elastic rubber or elastic silicone. The specific connection method between the elastic pad 23 and the base 21 is not limited here; designers can design it reasonably according to actual needs. For example, the elastic pad 23 can be detachably connected to the base 21 by at least one of the following methods: screwing, snap-fitting, or plugging. Alternatively, the elastic pad 23 can be non-detachably connected to the base 21 by riveting or adhesive bonding. By designing the elastic pad 23, it provides a buffering effect, effectively reducing or even preventing mutual wear between the fan assembly 20 and the side wall structure 12 (specifically, the aforementioned fan mounting component 122) during installation and disassembly, thereby extending the service life of the fan assembly 20 and the side wall structure 12.
[0071] The base 21 includes a housing 211, a battery 212, a circuit board 213, and a control key 214. The battery 212 and the circuit board 213 are disposed within the housing 211. The housing 211 has a surface 211a that can overlap with the fan head 22. The control key 214 is mounted on the surface 211a and electrically connected to the circuit board 213. The fan head 22 is movably connected to the housing 211. The battery 212 (or circuit board 213) can be detachably connected to the housing 211 by at least one of the following methods, including but not limited to screwing, snap-fitting, or plugging. The battery 212 (or circuit board 213) can also be non-detachably connected to the housing 211 by riveting or gluing, but not limited to this method. The control key 214 can be used to control the fan head 22 to turn on or off. The control key 214 can also be used to adjust the fan speed level of the fan head 22. For example, when the fan head 22 is currently off, the user can press the control key 214 once to turn the fan head 22 on, at which point the fan head 22 will be at the lowest speed level (Level 1). Pressing the control key 214 again will turn the fan head 22 to the highest speed level (Level 2), and pressing it again will turn the fan head 22 off. By designing the control key 214 on the surface 211a of the housing 211 that overlaps with the fan head 22, the fan head 22 effectively shields the control key 214, preventing the user from accidentally touching the control key 214 when the fan head 22 is not in use.
[0072] The base 21 also includes a charging port 215 electrically connected to the circuit board 213, exposed through an opening on the surface 211a. The charging port 215 can be, but is not limited to, a USB or Type-C interface. By designing the charging port 215, it connects to an external power source via a charging cable, enabling the external power source to charge the battery 212. The base 21 also includes a rubber plug 219 connected to the housing 211 to either cover or expose the opening corresponding to the charging port 215. When the charging port 215 does not need to be connected to an external power source via a charging cable, the rubber plug 219 blocks the opening, providing a sealing, waterproofing, dustproofing, and protection function. When the charging port 215 needs to be connected to an external power source via a charging cable, the rubber plug 219 can be detached from the opening, thus exposing the charging port 215.
[0073] The base 21 also includes a lighting device 216, which is electrically connected to the circuit board 213. At least a portion of the lighting device 216 is exposed through an opening on the surface 211a. The lighting device 216 includes an LED light. By designing the lighting device 216, it can indicate the current battery level of the battery 212 to the user by displaying different colors. For example, when the lighting device 216 displays red, it indicates that the current battery level of the battery 212 is low (e.g., below 5%), and when the lighting device 216 displays green, it indicates that the current battery level of the battery 212 is 100%.
[0074] like Figures 15-17 As shown, the water cup 1 with a fan also includes a lid assembly 30. The lid assembly 30 is positioned corresponding to the opening of the receiving cavity 121a and is connected to the side wall structure 12. The lid assembly 30 includes a main lid body 31, a flip lid 32, and a straw structure 33. The main lid body 31 is threadedly connected to the side wall structure 12. One side of the flip lid 32 is rotatably connected to the main lid body 31, and the other side of the flip lid 32 can be connected to the main lid body 31 via a snap fastener to achieve the opening and closing of the flip lid 32. The straw structure 33 is connected to the main lid body 31. The straw structure 33 is not the focus of this invention, and its specific structure will not be described in detail here. Designers can design it reasonably according to actual needs. The lid assembly 30 also includes a sealing ring 34. The material of the sealing ring 34 can be, but is not limited to, elastic rubber or elastic silicone. The sealing ring 34 is disposed on the main lid body 31 to seal the opening of the receiving cavity 121a.
[0075] Example 2
[0076] Please refer to Figures 18-22 This application provides a water cup 1 with a fan in embodiment two. It should be noted that the water cup 1 with a fan in embodiment two is structurally similar to the water cup 1 with a fan in embodiment one of this application (and can be referred to the description in embodiment one above). The following description focuses only on the differences between the water cup 1 with a fan in embodiment two and the water cup 1 with a fan in embodiment one above.
[0077] It is understood that in the first embodiment described above, the fan assembly 20 is detachably disposed in the storage slot 122a of the fan mounting member 122 by the locking part 1222a2 abutting against the slot 20a of the fan assembly 20. However, unlike this, the fan assembly 20 is detachably disposed in the storage slot 122a of the fan mounting member 122 by at least one of magnetic attraction, snap-fit, and threaded structure.
[0078] For example, in this embodiment, such as Figures 18-22As shown, the fan assembly 20 is detachably mounted in the storage slot 122a of the fan mounting member 122 via magnetic attraction. The water cup 1 with the fan also includes a magnetic adsorption structure 40, which includes a first magnet 41 and a second magnet 42. The first magnet 41 is located on the fan assembly 20 (specifically, the outer shell 211 described above), and the second magnet 42 is located on the fan mounting member 122. The first magnet 41 and the second magnet 42 have opposite magnetic properties, and a magnetic attraction force is generated between them. Under the action of this magnetic attraction force, the fan assembly 20 is positioned on the fan mounting member 122, thereby achieving a relative fixation between the fan assembly 20 and the fan mounting member 122. By applying an external force to the fan assembly 20 to overcome the magnetic attraction force between the first magnet 41 and the second magnet 42, the fan assembly 20 can be detached from the fan mounting member 122.
[0079] Example 3
[0080] Please refer to Figures 23-25 This application provides a fan-equipped water cup 1 in embodiment three. It should be noted that the fan-equipped water cup 1 in embodiment three is structurally similar to the fan-equipped water cup 1 in embodiment one above (and can be referred to the description in embodiment one above). The following description focuses only on the differences between the fan-equipped water cup 1 in embodiment one and the fan-equipped water cup 1 in embodiment three.
[0081] It is understood that in the first embodiment described above, the fan assembly 20 is detachably disposed in the storage slot 122a of the fan mounting member 122 by the locking part 1222a2 abutting against the slot 20a of the fan assembly 20. However, unlike this, the fan assembly 20 is detachably disposed in the storage slot 122a of the fan mounting member 122 by at least one of magnetic attraction, snap-fit, and threaded structure.
[0082] For example, in this embodiment, such as Figures 23-25 As shown, the fan assembly 20 is detachably mounted in the storage slot 122a of the fan mounting member 122 via a snap-fit connection. The water cup 1 with the fan also includes a snap-fit structure 50, which includes a snap-fit flange 51 and a snap-fit groove 52. At least one of the snap-fit flange 51 and the snap-fit groove 52 is located on the fan assembly 20 (specifically, the housing 211 described above), and the other of the snap-fit flange 51 and the snap-fit groove 52 is located on the fan mounting member 122. The snap-fit flange 51 and the snap-fit groove 52 are engaged and connected. Under the snap-fit force generated by the snap-fit engagement of the snap-fit flange 51 and the snap-fit groove 52, the fan assembly 20 is positioned on the fan mounting member 122, thereby achieving a relative fixation of the position between the fan assembly 20 and the fan mounting member 122. By applying external force to the fan assembly 20 to overcome the snap-fit force between the snap-fit flange 51 and the snap-fit groove 52, the fan assembly 20 can be detached from the fan mounting member 122.
[0083] Example 4
[0084] Please refer to Figures 26-28 This application provides a fan-equipped water cup 1 in embodiment four. It should be noted that the fan-equipped water cup 1 in embodiment four is structurally similar to the fan-equipped water cup 1 in embodiment one above (and can be referred to the description in embodiment one above). The following description focuses only on the differences between the fan-equipped water cup 1 in embodiment four and the fan-equipped water cup 1 in embodiment one above.
[0085] It is understood that in the first embodiment described above, the fan assembly 20 is detachably disposed in the storage slot 122a of the fan mounting member 122 by the locking part 1222a2 abutting against the slot 20a of the fan assembly 20. However, unlike this, the fan assembly 20 is detachably disposed in the storage slot 122a of the fan mounting member 122 by at least one of magnetic attraction, snap-fit, and threaded structure.
[0086] For example, in this embodiment, such as Figures 26-28 As shown, the fan assembly 20 is detachably mounted in the storage slot 122a of the fan mounting component 122 via a threaded connection. The fan assembly 20 (specifically, the housing 211 described above) has an external thread 61, and the fan mounting component 122 has an internal thread 62. The external thread 61 and the internal thread 62 are threadedly connected. Under the force generated by the interaction of the external thread 61 and the internal thread 62, the fan assembly 20 is positioned on the fan mounting component 122, thereby achieving a relative fixation between the fan assembly 20 and the fan mounting component 122. By rotating the fan assembly 20 to disengage the external thread 61 from the internal thread 62, the fan assembly 20 can be detached from the fan mounting component 122.
[0087] Example 5
[0088] Please refer to Figures 29-36 As shown, Embodiment 5 of this application provides a water cup 1 with a fan. It should be noted that the water cup 1 with a fan in Embodiment 5 of this application is structurally similar to the water cup 1 with a fan in Embodiment 1 of this application (and can be referred to the description in Embodiment 1 above). The following description focuses only on the differences between the water cup 1 with a fan in Embodiment 1 and the water cup 1 with a fan in Embodiment 5.
[0089] In this embodiment, as Figures 29-36 As shown, when the sidewall body 121 and the base plate 11 are combined to form a cylindrical back, the base 21 includes a support base 217 that can be stacked with the fan head 22 and a handle 218 connected to the support base 217. The fan assembly 20 is a handheld fan assembly 20. The fan head 22 is movably connected to the support base 217, as shown... Figures 29-31 As shown, the support base 217 has the aforementioned locking groove 20a, or as... Figures 32-36 As shown, the handle 218 has the aforementioned locking slot 20a. This allows the user to remove the fan assembly 20 from the fan mount 122 as needed and cool it down by directly holding the handle 218.
[0090] Example 6
[0091] Please refer to Figures 37-41 This application provides a fan-equipped water cup 1 in Embodiment Six. It should be noted that the fan-equipped water cup 1 in Embodiment Six is structurally similar to the fan-equipped water cup 1 in Embodiment One of this application (and can be referred to the description in Embodiment One above). The following description focuses only on the differences between the fan-equipped water cup 1 in Embodiment Six and the fan-equipped water cup 1 in Embodiment One above.
[0092] In this embodiment, as Figures 37-41 As shown, when the sidewall body 121 and the base plate 11 are combined to form a cylindrical back, the base 21 includes a support base 217 that can be stacked with the fan head 22 and a handle 218 connected to the support base 217. The fan assembly 20 is a handheld fan assembly 20. The fan head 22 is movably connected to the support base 217, and the handle 218 has the aforementioned locking groove 20a. Thus, the user can remove the fan assembly 20 from the fan mounting bracket 122 as needed and cool it down by directly holding the handle 218.
[0093] The water cup 1 with a fan also includes a spray assembly 70, which includes a nozzle structure 71 and a limiting member 72. The nozzle structure 71 is mounted on the main cover 31, and the nozzle head 711 of the nozzle structure 71 is exposed through an opening on the top shell of the flip cover 32. The pipe of the nozzle structure 71 extends into the receiving cavity 121a, and the pressing handle 712 of the nozzle structure 71 is exposed outside the flip cover 32. The user applies pressure to the pressing handle 712 of the nozzle structure 71 to squeeze the air in the pump chamber, thereby causing the water in the receiving cavity 121a to be sprayed out from the nozzle head 711 of the nozzle structure 71, thus achieving the function of spraying and cooling. The limiting member 72 is movable with the flip cover 32. The limiting member 72 can switch between a locked position and an unlocked position. When the limiting member 72 is in the locked position, it abuts against the pressing handle 712 of the nozzle structure 71 to restrict the movement of the pressing handle 712 of the nozzle structure 71 under external force. At this time, the water in the receiving cavity 121a cannot be sprayed out from the nozzle head 711 of the nozzle structure 71. When the limiting member 72 is in the unlocked position, it is spaced from the pressing handle 712 of the nozzle structure 71 so that the pressing handle 712 of the nozzle structure 71 can move under external force. At this time, the water in the receiving cavity 121a can be sprayed out from the nozzle head 711 of the nozzle structure 71. When the user does not need the spray cooling, the user can push the limiting member 72 to make the limiting member 72 be in the above-mentioned locked position. This can effectively prevent the user from accidentally touching the pressing handle 712 of the nozzle structure 71 and causing water to spray out from the nozzle head 711 of the nozzle structure 71. When the user needs the spray cooling, the user pushes the limiting member 72 to make the limiting member 72 switch to the above-mentioned unlocked position. At this time, the user can apply pressure to the pressing handle 712 of the nozzle structure 71 to make water spray out from the nozzle head 711 of the nozzle structure 71.
[0094] In the accompanying drawings of this embodiment, the same or similar reference numerals correspond to the same or similar components. In the description of this application, it should be understood that if terms such as "upper," "lower," "left," and "right" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, they are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the terms used to describe positional relationships in the accompanying drawings are only for illustrative purposes and should not be construed as limiting this patent. For those skilled in the art, the specific meaning of the above terms can be understood according to the specific circumstances.
[0095] The above description is merely a preferred embodiment of this application and is not intended to limit this application. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this application should be included within the protection scope of this application.
Claims
1. A water cup with a fan, characterized in that, include: A cup body, the cup body including a bottom plate and a side wall structure connecting the bottom plate, the bottom plate and the side wall structure forming a receiving cavity with an opening; as well as A fan assembly that can be detachably mounted on the outer surface of the sidewall structure.
2. The water cup with a fan as described in claim 1, characterized in that, The sidewall structure includes a sidewall body and a fan mounting component connected to the outside of the sidewall body. The fan mounting component is manufactured separately and then connected to the sidewall body and the base plate through a secondary molding process. The sidewall body and the base plate form the receiving cavity.
3. The water cup with a fan as described in claim 2, characterized in that, The surface of the fan mounting component that connects to the sidewall body is provided with at least one connecting portion, the at least one connecting portion including at least one of a protrusion and a groove, the at least one connecting portion being used to increase the connection area with the sidewall body.
4. The water cup with a fan as described in claim 3, characterized in that, The at least one connecting portion includes a plurality of spaced protrusions, which are elongated strips.
5. The water cup with a fan as described in claim 2, characterized in that, The fan mount has a storage slot, in which at least a portion of the fan assembly is disposed.
6. The water cup with a fan as described in claim 5, characterized in that, The fan mount includes a mounting body and a locking component movably connected to the mounting body. The locking component is movable relative to the mounting body to switch between a locked state and an unlocked state. In the locked state, the locking component abuts against the fan assembly to secure the fan assembly to the mounting body. In the unlocked state, the locking component releases the fan assembly to allow the fan assembly to be detached from the mounting body.
7. The water cup with a fan as described in claim 6, characterized in that, The locking assembly includes a latch and a reset drive connected between the latch and the mounting body. The latch is used to switch between a locked position abutting the fan assembly and an unlocked position separated from the fan assembly. The reset drive is used to drive the latch to reset from the unlocked position to the locked position.
8. The water cup with a fan as described in claim 7, characterized in that, The locking member includes an operating part and a locking part. The mounting body includes a first part and a second part connected to the first part. The first part has the storage groove and a through hole communicating with the storage groove. The second part includes a first movable groove on a first side, a second movable groove on a second side, and a movable hole connecting the first movable groove and the second movable groove. The operating part is movably mounted in the first movable groove and is at least partially connected to the locking part via the movable hole. The locking part is movably mounted in the second movable groove and can extend into the storage groove through the through hole to abut against the fan assembly. The reset drive is connected to the end of the locking part away from the through hole, and the end of the reset drive away from the locking part abuts against the side wall of the second movable groove. The reset drive includes an elastic element. When the locking member is in the unlocked position, the elastic element is compressed, so that when the locking member is stopped in the unlocked state, the elastic element releases its elastic force to drive the locking member to the locked position.
9. The water cup with a fan as described in claim 8, characterized in that, The locking component further includes an assembly part, which is disposed at one end of the locking part away from the through hole. One end of the elastic element is connected to the groove wall of the second movable groove, and the other end of the elastic element is connected to the assembly part.
10. The water cup with a fan as described in claim 5, characterized in that, The storage slot includes a storage body and an extension communicating with the storage body. The fan assembly is detachably disposed on the storage body, and the extension is used to place the user's fingers to facilitate the user's picking up and putting down of the fan assembly.
11. The water cup with a fan as described in claim 5, characterized in that, The fan assembly is detachably mounted in the storage slot via at least one of magnetic, snap-fit, or threaded structures.
12. The water cup with a fan as described in claim 1, characterized in that, The fan assembly includes a base and a fan head. The base is detachably connected to the cup body, and the fan head is movably connected to the base. The fan head can switch between an unfolded state relative to the base and a folded state relative to the base.
13. The water cup with a fan as described in claim 12, characterized in that, The base and the fan head are rotatably connected; and / or, the base is a generally cylindrical support; and / or, the base includes a support that can be stacked with the fan head and a handle connected to the support, and the fan assembly is a handheld fan assembly; and / or, at least one elastic pad is provided on the side of the base near the sidewall structure.
14. The water cup with a fan as described in claim 12, characterized in that, The base includes a housing, a battery, a circuit board, and control keys. The battery and the circuit board are disposed in the housing, which has a surface that can overlap with the fan head. The control keys are mounted on the surface and electrically connected to the circuit board.
15. The water cup with a fan as described in claim 14, characterized in that, The base also includes a charging port electrically connected to the circuit board, the charging port being exposed through an opening on the surface; and / or, the base also includes a lighting device electrically connected to the circuit board, at least a portion of the lighting device being exposed through an opening on the surface.