Water cups and cup holders for securing the cups

By designing a cup holder with bendable magnetic attachments and a rotating connection, the problem of water cups being easily kicked over due to the lack of tabletops in fitness venues is solved, achieving stable fixation and hygienic protection for the water cups.

CN224420673UActive Publication Date: 2026-06-30SHENZHEN GUANGYIPENG TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN GUANGYIPENG TECH CO LTD
Filing Date
2025-07-08
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The lack of dedicated tabletops in gyms makes it easy for water cups to be kicked over or affect hygiene.

Method used

Design a cup holder that includes a body, a support plate, and a magnetic component. The magnetic component can be bent to adapt to the surface shape of different tubular devices and fixes the cup body by magnetic attraction. The support plate is rotatably connected to the body to keep the cup body vertical and avoid placing it on the ground.

Benefits of technology

It effectively secures water cups, prevents them from being kicked over and maintains hygiene, adapts to tubular devices in different directions, and provides stable load-bearing capacity.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application relates to a water cup and a cup holder for securing the cup. The cup holder includes a main body, a support plate, and a magnetic suction component. The main body supports the cup. The support plate is disposed around the main body and is rotatably disposed relative to the main body. The magnetic suction component includes a connecting portion connected to the support plate and a bendable portion connected to the connecting portion. The bendable portion can be bent relative to the connecting portion, allowing the magnetic suction component to have a bent state and an unfolded state. The bendable portion is provided with a first permanent magnet. In the bent state, the bendable portion deforms away from the support plate, making the magnetic suction component as a whole arc-shaped, and forming a concave surface on the side away from the support plate. The degree of bending in the unfolded state is less than that in the bent state, and compared to the bent state, the bendable portion is closer to or adheres to the support plate in the unfolded state. Because the main body provides support for the cup, it avoids the need to place the cup on the ground, prevents the cup from being kicked over, and prevents the hygiene of the bottom of the cup from being affected.
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Description

Technical Field

[0001] This application relates to the field of cup technology, and in particular to a water cup and a cup holder for fixing the cup body. Background Technology

[0002] Water cups are generally used to hold drinking water or beverages. When users bring their water cups to the gym, there are usually no dedicated tabletops near the equipment, so users have to place their water cups on the bottom, making them easy to knock over or causing the bottom of the cup to become unclean. Utility Model Content

[0003] Based on this, the present invention provides a water cup that can solve or at least alleviate the above-mentioned technical problems and a cup holder for fixing the cup body.

[0004] This utility model provides a cup holder for fixing a cup body, comprising:

[0005] The main body is used to support the cup.

[0006] A support plate is disposed around the periphery of the main body; and

[0007] A magnetic attractor includes a connecting portion connected to the support plate and a bendable portion connected to the connecting portion. The bendable portion can be bent relative to the connecting portion, allowing the magnetic attractor to have a bent state and an unfolded state. The bendable portion is provided with a first permanent magnet.

[0008] In the bent state, the bendable part deforms in a direction away from the support plate, so that the magnetic suction component is arc-shaped as a whole, and a concave surface is formed on the side away from the support plate.

[0009] The degree of bending in the unfolded state is less than that in the bent state, and relative to the bent state, the bendable portion is closer to the support plate or in contact with the support plate in the unfolded state.

[0010] The aforementioned cup holder for securing the cup utilizes a magnetic attraction between the magnetic component and the tubular device. Through deformation, it adapts to the surface shape of different tubular devices, ensuring stable magnetic positioning. Once the magnetic component is in a fixed position relative to the tubular device, the support plate connects to the connecting part, and the main body is rotatably connected to the support plate. By adjusting the angle of the main body, the cup can be kept vertical, thus accommodating tubular devices in different orientations. Because the main body provides support for the cup, it prevents the cup from being placed on the ground, avoiding the cup being kicked over or the bottom of the cup being left uncleaned.

[0011] In one embodiment, the bendable portion includes at least one flexible portion; the flexible portion is provided between the connecting portion and the first permanent magnet, and / or the flexible portion is provided between two adjacent first permanent magnets.

[0012] In one embodiment, the bendable portion further includes a first covering layer covering the surface of the first permanent magnet; when the bendable portion is in the unfolded state, the first covering layer covers the side of the first permanent magnet facing away from the support plate; the first covering layer is connected to the flexible portion.

[0013] In one embodiment, the connecting portion includes a second permanent magnet and a second covering layer covering the surface of the second permanent magnet; the second covering layer is also connected to the support plate; and the flexible portion connects the second covering layer and the first covering layer.

[0014] In one embodiment, at least one of the first covering layer and the second covering layer is flexible or elastic; and / or, at least one of the first covering layer and the second covering layer is integrally formed with the flexible portion.

[0015] In one embodiment, the bendable portion includes a plurality of first permanent magnets arranged at intervals in sequence; the support plate is provided with a magnetic region; the area of ​​the magnetic region corresponds to the area of ​​the first permanent magnet; in the unfolded state, among the plurality of first permanent magnets arranged at intervals in sequence, the position of the first permanent magnet that is furthest from the connecting portion corresponds to the position of the magnetic region.

[0016] In one embodiment, the bendable portion is connected to the opposite sides of the connecting portion.

[0017] In one embodiment, the bendable portion includes a plurality of first permanent magnets distributed at intervals in sequence; the difference between the number of first permanent magnets corresponding to one side of the connecting portion and the number of first permanent magnets corresponding to the other side of the connecting portion is not greater than 2.

[0018] In one embodiment, the body has two opposing sides, one side of the body is rotatably connected to the support plate, and the other side of the body has a handle structure.

[0019] This utility model provides a water cup, including a cup body and a cup holder according to any of the above embodiments. Attached Figure Description

[0020] Figure 1 This is a perspective view of a water cup according to an embodiment of this application.

[0021] Figure 2 for Figure 1The diagram shown is an exploded view of the water cup.

[0022] Figure 3 for Figure 2 A three-dimensional sectional view of the cup holder in the water cup shown.

[0023] Figure 4 This is a cross-sectional view of the magnetic suction component of a water cup according to an embodiment of this application.

[0024] Figure 5 This is a cross-sectional view of the magnetic component of a water cup according to another embodiment of this application.

[0025] Figure 6 for Figure 1 A three-dimensional diagram of the water cup in another state.

[0026] Figure 7 for Figure 1 The diagram shows a water cup in another state.

[0027] Figure 8 for Figure 1 The diagram shows a water cup in another state.

[0028] Reference numerals: 100, water cup; 20, cup holder; 30, frame; 31, first end; 311, first opening; 32, second end; 312, second opening; 33, handle structure; 34, receiving space; 40, support plate; 401, predetermined axis; 402, groove; 403, side wall; 404, first magnetic area; 405, second magnetic area; 41, shaft; 50, magnetic attractant; 51, connecting part; 511, second permanent magnet; 512, second covering layer; 52, bendable part; 521, first permanent magnet; 522, flexible part; 523, first covering layer; 60, cup body; 61, cup frame; 62, cup lid. Detailed Implementation

[0029] The technical solutions of this application will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this application. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0030] In the description of this application, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used 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, they should not be construed as limitations on this application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0031] In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, integral connections, mechanical connections, electrical connections, direct connections, indirect connections via an intermediate medium, or internal connections between two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.

[0032] The technical solutions provided by the embodiments of this application are described below with reference to the accompanying drawings.

[0033] Combination Figure 1 and Figure 2 As shown, this application provides a water cup 100. Understandably, the water cup 100 is used to hold drinking water or beverages.

[0034] Specifically, in combination Figure 2 As shown, the water cup 100 includes a cup body 60 and a cup holder 20. After the cup holder 20 is positioned and connected to the external structure, it can support the cup body 60. The cup body 60 is used to hold drinking water or beverages.

[0035] Optionally, the cup body 60 includes a cup body 61 with a rim.

[0036] Optionally, combined Figure 2 As shown, the cup body 60 includes a cup body 61 and a cup lid 62. The cup lid 62 covers the mouth of the cup body 61.

[0037] Combination Figure 3 and Figure 4As shown, this application also provides a cup holder 20 for fixing a cup body. The cup holder 20 includes a body 30, a support plate 40, and a magnetic suction member 50. The body 30 is used to support the cup body 60. The support plate 40 is disposed around the body 30. The support plate 40 is rotatably disposed relative to the body 30. The magnetic suction member 50 includes a connecting portion 51 connected to the support plate 40 and a bendable portion 52 connected to the connecting portion 51. The bendable portion 52 can be bent relative to the connecting portion 51, so that the magnetic suction member 50 has a bent state and an unfolded state. The bendable portion 52 is provided with a first permanent magnet 521. In the bent state, the bendable portion 52 deforms in a direction away from the support plate 40, so that the magnetic suction member 50 is arc-shaped as a whole, and a concave surface is formed on the side away from the support plate 40. The degree of bending in the unfolded state is less than that in the bent state, and compared with the bent state, the bendable portion 52 is closer to the support plate 40 or fits against the support plate 40 in the unfolded state.

[0038] The cup holder 20 and the main body 30 of this application are used to provide support for the cup body 60.

[0039] Tubular components are commonly found in or near fitness equipment. The outer edge of the cross-section of a tubular component can be circular or rectangular. For simplicity and ease of understanding, "a tubular component with a circular outer edge of its cross-section" will be referred to as "a circular tubular component," and "a tubular component with a rectangular outer edge of its cross-section" will be referred to as "a rectangular tubular component."

[0040] Understandably, combined Figure 7 and Figure 8 As shown, when the cross-section of the tubular device is circular, the bendable portion 52 is in a bent state. The bendable portion 52 deforms in a direction away from the support plate 40, making the magnetic attractor 50 as a whole arc shape, and forming a concave surface on the side away from the support plate 40, thereby adapting to the outer peripheral shape of the circular tubular device. The bendable portion 52 forms a magnetic attraction with the circular tubular device from different angles. Figure 1 and Figure 6 As shown, when the cross-section of the tubular device is rectangular, the bendable portion 52 is in an unfolded state, and the magnetic suction member 50 is approximately attached to the support plate 40. The connecting portion 51 and the bendable portion 52 cooperate to form an approximately planar distribution shape, and adapt to the flat surface of the rectangular tubular device.

[0041] Therefore, the magnetic suction component 50 magnetically attracts the tubular device and can adapt to the surface shape of different tubular devices through deformation, enabling the magnetic suction component 50 to form a stable magnetic positioning effect with the tubular device. After the magnetic suction component 50 is fixed in position relative to the tubular device, since the support plate 40 is connected to the connecting part 51, and the body 30 is rotatably connected to the support plate 40, the cup body 60 can be kept in a vertical state by adjusting the angle of the body 30, thus adapting to tubular devices in different directions. Because the body 30 provides support for the cup body 60, it avoids the need for the cup body 60 to be placed on the ground, prevents the cup body 60 from being kicked over, and prevents the hygiene of the bottom of the cup body 60 from being affected.

[0042] Understandably, tubular devices can be attracted by magnetic forces. For example, the tubular device is made of a magnetic material. For example, the tubular device is a steel tube.

[0043] Understandably, when the magnetic attractor 50 magnetically engages with the rectangular tubular device, the magnetic attractor 50 is not limited to adopting an approximately planar shape. Alternatively, the magnetic attractor 50 may form one or more approximately right-angled deformations according to the width of the tubular device, so that the magnetic attractor 50 magnetically engages with multiple surfaces of the rectangular tubular device.

[0044] Understandably, the magnetic attractor 50 is not limited to forming a magnetic attraction with tubular devices. When a wall panel structure exists within or near fitness equipment, the magnetic attractor 50 can form a magnetic attraction with the wall panel structure. For simplicity, some tubular devices mentioned later may also represent wall panel structures, without specific application distinctions.

[0045] In some embodiments, the bendable portion 52 includes at least one flexible portion 522.

[0046] For example, combined Figure 5 As shown, one side of the connecting portion 51 corresponds to a flexible portion 522 and a first permanent magnet 521, with the flexible portion 522 disposed between the connecting portion 51 and the first permanent magnet 521. The other side of the connecting portion 51 also corresponds to another flexible portion 522 and another first permanent magnet 521, with the other flexible portion 522 disposed between the connecting portion 51 and the other first permanent magnet 521.

[0047] For example, one side of the connecting portion 51 corresponds to two first permanent magnets 521 and two flexible portions 522. A flexible portion 522 is provided between one side of the connecting portion 51 and one of the first permanent magnets 521, and another flexible portion 522 is provided between the two first permanent magnets 521. The situation is similar on the other side of the connecting portion 51.

[0048] In other embodiments, combined with Figure 4As shown, there are three or more first permanent magnets 521 corresponding to any one side of the connecting part 51. A flexible part 522 is provided between adjacent first permanent magnets 521.

[0049] In some embodiments, the cup body 60 is fixedly connected to the body 30. Optionally, the cup body 60 and the body 30 are integrally formed, thereby providing a greater connection strength between the cup body 60 and the body 30. The cup body 60 and the body 30 can be made of the same material or different materials. Optionally, the cup body 60 and the body 30 are fixed by adhesive bonding.

[0050] In some other embodiments, the cup body 60 and the body 30 are in a separated state and an engaged state. In the separated state, the cup body 60 and the body 30 are separate. In the engaged state, the cup body 60 is restrained by the body 30, and the body 30 can support the cup body 60.

[0051] Understandably, the flexible portion 522 is flexible, thus enabling it to bend and deform. Understandably, through the deformation of the flexible portion 522, the connection can be maintained between the connecting portion 51 and the first permanent magnet 521, between the two first permanent magnets 521, or when a positional change occurs.

[0052] For example, the flexible portion 522 is made of one or more of thermoplastic polyurethane, silicone, rubber or thermoplastic elastomer.

[0053] In some implementations, combined Figure 4 and Figure 5 As shown, the bendable portion 52 further includes a first covering layer 523 covering the surface of the first permanent magnet 521. The first covering layer 523 is connected to the flexible portion 522. Understandably, the first covering layer 523 is used to define the position of the first permanent magnet 521, allowing the first permanent magnet 521 to move within a certain range relative to the connecting portion 51 when the flexible portion 522 is bent and deformed.

[0054] For example, the bendable portion 52 includes a first permanent magnet 521, which is elongated and its length direction is generally perpendicular to the relative direction between the bendable portion 52 and the connecting portion 51.

[0055] For example, each first covering layer 523 covers a plurality of first permanent magnets 521. In the first covering layer 523, the plurality of first permanent magnets 521 are linearly distributed, and the distribution direction of the plurality of first permanent magnets 521 is approximately perpendicular to the relative direction between the bendable portion 52 and the connecting portion 51.

[0056] For example, the first covering layer 523 forms a circumferential covering on the first permanent magnet 521 to prevent the first permanent magnet 521 from detaching from the first covering layer 523.

[0057] In some implementations, combined Figure 1 and Figure 3 As shown, the first covering layer 523 is flexible or elastic. In the unfolded state at the bend, the first covering layer 523 covers the side of the first permanent magnet 521 facing away from the support plate 40. Understandably, due to the magnetic force between the first permanent magnet 521 and the tubular device, the magnetic force will accelerate the first permanent magnet 521 before it comes into contact with the tubular device, potentially causing a violent collision. Because the first covering layer 523 is flexible or elastic, and because it covers the side of the first permanent magnet 521 that may collide with the tubular device, it helps prevent the first permanent magnet 521 from breaking due to the collision.

[0058] Optionally, the first covering layer 523 covers all surfaces of the first permanent magnet 521, thereby improving both the protection of the first permanent magnet 521 and the structural stability of the bendable part 52.

[0059] In some embodiments, the first covering layer 523 is integrally formed with the flexible portion 522, which helps to improve the connection stability between the first covering layer 523 and the flexible portion 522 and avoids accidental separation between the first covering layer 523 and the flexible portion 522.

[0060] In some embodiments, bendable portions 52 are respectively connected to opposite sides of the connecting portion 51. When both bendable portions are magnetically attracted to the tubular device, both sides of the connecting portion 51 can be fixed, thereby improving the stability of the connecting portion 51.

[0061] In some implementations, combined Figure 4 As shown, the bendable portion 52 includes a plurality of first permanent magnets 521 arranged sequentially at intervals. The difference between the number of first permanent magnets 521 corresponding to one side of the connecting portion 51 and the number of first permanent magnets 521 corresponding to the other side of the connecting portion 51 is no greater than 2, so that the number of first permanent magnets 521 on both sides of the connecting portion 51 is approximately equal. The first permanent magnets 521 on both sides of the connecting portion 51 can generate approximately the same magnetic force on the tubular device, and make the magnetic suction member 50 have a certain symmetry relative to the predetermined axis 401, reducing the rotation angle when the magnetic suction structure is reset.

[0062] For example, combined Figure 4 As shown, the number of first permanent magnets 521 corresponding to one side of the connecting portion 51 is equal to the number of first permanent magnets 521 corresponding to the other side of the connecting portion 51.

[0063] Understandably, combined Figure 1 and Figure 3 As shown, when the first permanent magnet 521 has a certain thickness, the adjacent first permanent magnets 521 are spaced a certain distance apart so that the bendable part 52 can form a large arc bending deformation.

[0064] Optionally, combined Figure 7 and Figure 8 As shown, the support plate 40 is flat to guide the bendable portion 52 to form an approximately planar distribution.

[0065] In some implementations, combined Figure 3 , Figure 7 and Figure 8 As shown, one side of the support plate 40 is away from the body 30, and a groove 402 is formed on this side of the support plate 40. When the bendable portion 52 is in the unfolded state, the magnetic member 50 is at least partially accommodated in the groove 402. Understandably, when the bendable portion 52 is in the unfolded state, the depth direction of the groove 402 is parallel to the thickness direction of the magnetic member 50, and the outer periphery of the magnetic member 50 is disposed opposite to the side wall surface 403 inside the groove 402, so that the support plate 40 can provide a certain degree of protection for the outer periphery of the magnetic member 50. In addition, after the magnetic member 50 is accommodated in the groove 402, it is beneficial to reduce the overall thickness between the support plate 40 and the magnetic member 50.

[0066] In some embodiments, all or part of the support plate 40 can be magnetically attracted. Understandably, when the magnetic 50 does not need to be attracted to the circular tubular device, the magnetic force formed between the first permanent magnet 521 and the support plate 40 allows the magnetic 50 to be stably attached to one side of the support plate 40. The magnetic 50 forms an approximately planar distribution, which on the one hand helps to adapt to the surface shape of the rectangular tubular device, and on the other hand reduces the overall volume of the magnetic 50 and the support plate 40, making it convenient to carry the cup holder 20 or the water cup 100.

[0067] Optionally, all or part of the support plate 40 may be made of a magnetic material. For example, the magnetic material may be selected from one or more of iron, nickel, cobalt, and their alloys. Understandably, when the magnetic material is magnetized, all or part of the support plate 40 becomes magnetic, capable of generating a magnetic field, thereby generating a stronger magnetic force with the first permanent magnet 521 and improving the stability of the magnetic attractor 50 when it is attached to the support plate 40.

[0068] For example, combined Figure 3As shown, a shaft 41 is connected to the side of the support plate 40 opposite to the magnetic attractor 50. The body 30 has a shaft hole that passes through the body 30. The shaft 41 passes through the shaft hole. One end of the shaft 41 is connected to the support plate 40, and the other end is axially limited, thereby enabling the support plate 40 to rotate relative to the body 30.

[0069] In some implementations, combined Figure 7 and Figure 8 As shown, the bendable portion 52 includes a plurality of first permanent magnets 521 arranged at intervals in sequence. The support plate 40 is provided with a magnetic region. The area of ​​the magnetic region corresponds to the area of ​​the first permanent magnets 521; in the unfolded state, among the plurality of first permanent magnets 521 arranged at intervals in sequence, the position of the first permanent magnet 521 that is furthest from the connecting portion 51 corresponds to the position of the magnetic region, thereby reducing the material cost of the support plate 40 in terms of magnetic materials.

[0070] Regarding the size correspondence between the area of ​​the magnetic region and the area of ​​the first permanent magnet 521, it is understood that the area of ​​the magnetic region is close to the area of ​​the first permanent magnet 521. For example, the area of ​​the magnetic region is 50%-200% of the area of ​​the first permanent magnet 521.

[0071] For example, the magnetic region includes a first magnetic region 404 and a second magnetic region 405. When the connecting portion 51 is connected to the two opposite sides of the bendable portion 52, and both bendable portions 52 are in the unfolded state, on one side of the connecting portion 51, the position of the first permanent magnet 521 that is furthest from the connecting portion 51 corresponds to the position of the first magnetic region 404, and on the other side of the connecting portion 51, the position of the other first permanent magnet 521 that is furthest from the connecting portion 51 corresponds to the position of the second magnetic region 405.

[0072] Understandably, the support plate 40 is magnetic in the first magnetic region 404 and the second magnetic region 405, and can interact magnetically with the first permanent magnet 521. Since the connecting portion 51 has bendable portions 52 on opposite sides, on any side of the connecting portion 51, the connecting portion 51 is sequentially connected to a plurality of first permanent magnets 521 and a plurality of flexible portions 522. For example, the sequential connection relationship is: connecting portion 51, first flexible portion 522, first permanent magnet 521, second flexible portion 522, second permanent magnet 521, ... nth flexible portion 522 and nth permanent magnet 521. When the bendable part 52 is in the unfolded state, the magnetic suction member 50 forms an approximately planar shape. At this time, among the several first permanent magnets 521, the nth first permanent magnet 521 has the largest distance from the connecting part 51. When the nth first permanent magnet 521 is held at the position with the largest distance relative to the connecting part 51 by the magnetic force of the support plate 40, the magnetic suction member 50 can be kept in an approximately planar shape and fit against one side of the support plate 40.

[0073] Understandably, since the support plate 40 forms a magnetic force with the first permanent magnet 521 of the two bendable portions 52 only through the first magnetic region 404 and the second magnetic region 405, and the area of ​​the first magnetic region 404 or the second magnetic region 405 corresponds to the area of ​​the first permanent magnet 521, the material cost of the support plate 40 in terms of magnetic materials can be reduced.

[0074] Understandably, when the two bendable portions 52 are kept in an unfolded state by being limited by the first magnetic region 404 and the second magnetic region 405 respectively, when it is necessary to attract the magnetic member 50 to the circular tubular device, it is only necessary to separate the two first permanent magnets 521 corresponding to the first magnetic region 404 and the second magnetic region 405 from the support plate 40, and the other first permanent magnets 521 can move freely relative to the support plate 40. Compared with the situation where there is a magnetic force between all the first permanent magnets 521 and the support plate 40, the magnetic properties of the support plate 40 in the first magnetic region 404 and the second magnetic region 405 simplify the operation in the process of changing the shape of the bendable portion 52.

[0075] In some embodiments, a damped rotational engagement is formed between the support plate 40 and the body 30. Understandably, after a stable engagement is formed between the magnetic attractant 50 and the tubular device, the damped rotation of the body 30 relative to the support plate 40 helps maintain a stable angle between the body 30 and the support plate 40, preventing the body 30 or the cup 60 connected to the body 30 from shaking.

[0076] Optionally, the support plate 40 and the body 30 form a damped rotational fit under the action of friction. For example, the support plate 40 and the body 30 abut against an elastic member, and when the support plate 40 and the body 30 rotate relative to each other, at least one of the support plate 40 and the body 30 experiences sliding friction with the elastic member.

[0077] In some other embodiments, a toothed structure is formed between the support plate 40 and the body 30, and when the support plate 40 and the body 30 stop rotating, the two maintain a stable angle by being limited by the toothed structure.

[0078] In some embodiments, the connecting portion 51 is magnetic. Therefore, the connecting portion 51 can also form a magnetic attraction with the tubular structure, which helps to improve the positioning stability of the magnetic attractor 50 relative to the tubular device.

[0079] For example, combined Figure 4 and Figure 5 As shown, the connecting portion 51 includes a second permanent magnet 511 and a second covering layer 512 covering the surface of the second permanent magnet 511. The second covering layer 512 is also connected to the support plate 40. Flexible portions 522 are respectively connected to both sides of the second covering layer 512. Understandably, one side of the second covering layer 512 is fixedly connected to the support plate 40. For example, one side of the support plate 40 faces away from the body 30, and the second covering layer 512 is bonded to that side of the support plate 40. A flexible portion 522 is connected between the second covering layer 512 and the first covering layer 523.

[0080] In some embodiments, the second covering layer 512 is flexible or elastic, and at least one of the first covering layer 523 and the second covering layer 512 is integrally formed with the flexible portion 522.

[0081] For example, the second covering layer 512, the flexible portion 522 and the first covering layer 523 are integrally injection molded structures, which can improve the connection strength between the connecting portion 51, the flexible portion 522 and the first covering layer 523, and facilitate the assembly of the cup holder 20.

[0082] For example, in the production process of the magnetic component 50, a magnet is placed in the inner cavity of a mold, and then injection molding material is injected into the inner cavity of the mold. The injection molding material surrounding the first permanent magnet 521 forms a first coating layer 523 after cooling, and the material surrounding the second permanent magnet 511 forms a second coating layer 512 after cooling. The material connecting the first coating layer 523 and the second coating layer 512 forms a flexible portion 522 after cooling.

[0083] For example, one or more of the flexible portion 522, the first covering layer 523, and the second covering layer 512 may also be made of other flexible materials. For example, the flexible material may be a woven fabric, such as cloth.

[0084] In some implementations, combined Figure 3 As shown, the body 30 has a first end 31 and a second end 32 facing each other. The support plate 40 is rotatably disposed relative to the body 30 along a predetermined axis 401. The position of the predetermined axis 401 corresponds to the midpoint between the first end 31 and the second end 32. Understandably, when the predetermined axis 401 passes through the midpoint of the support plate 40, the support plate 40 can have a certain degree of symmetry relative to the predetermined axis 401, which helps to reduce the angle of rotation required by the support plate 40 during the reset process.

[0085] Optionally, combined Figure 3 As shown, the length of the support plate 40 is no greater than the distance between the first end 31 and the second end 32. Understandably, the support plate 40 has a reset state relative to the body 30. In the reset state, the length direction of the support plate 40 is approximately parallel to the relative direction between the first end 31 and the second end 32, allowing the support plate 40 and the body 30 to occupy a relatively small space. Because the length of the support plate 40 is no greater than the distance between the first end 31 and the second end 32, the support plate 40 is prevented from exceeding the size range of the body 30 in the reset state, thus contributing to the compactness of the cup holder 20 in the reset state.

[0086] Furthermore, in the reset state, all the first permanent magnets 521 are respectively attached to the support plate 40. Therefore, in the reset state, the cup holder 20 is relatively easy to carry and can be used to directly attach to rectangular tubular devices.

[0087] In some implementations, combined Figure 3 As shown, the main body 30 has two opposing sides. One side of the main body 30 is rotatably connected to the support plate 40, and the other side of the main body 30 forms a handle structure 33. Understandably, the handle structure 33 is a structure for a user to grip. When the user grips the handle structure 33, by applying force in a direction opposite to one side of the main body 30, the magnetic member 50 can be separated from the tubular device. Simultaneously, when carrying the water cup 100, the user can carry the water cup 100 by gripping the handle structure 33.

[0088] For example, the handle structure 33 is generally rod-shaped or tubular.

[0089] In some implementations, combined Figure 3 As shown, the body 30 has a first end 31 and a second end 32 opposite to each other, and the body 30 has an opening at least at the first end 31. At least one of the first end 31 and the second end 32 has an opening.

[0090] Optionally, the main body 30 has a first opening 311 at the first end 31 and a closed arrangement at the second end 32. The main body 30 encloses a receiving space 34. The cup 60 can be inserted into the receiving space 34 through the first opening 311, so that the main body 30 can limit and support the cup 60.

[0091] Optionally, combined Figure 3 As shown, the main body 30 has a first opening 311 at its first end 31 and a second opening 312 at its second end 32. The first opening 311 and the second opening 312 are connected by a receiving space 34. After the cup 60 is inserted into the main body 30 through the first opening 311, a portion of the cup 60 can exit through the second opening 312. Exemplarily, the inner diameter of the second opening 312 is smaller than the inner diameter of the first opening 311, and the second opening 312 is positioned downwards during use, so that the main body 30 can limit and support the cup 60. Understandably, the cup 60 can be removed from the first opening 311.

[0092] In some other embodiments, the body 30 is formed into two relatively movable parts. After the two parts of the body 30 are engaged, the two parts form a positioning relationship and clamp the cup 60.

[0093] Understandably, the relative direction between the first end 31 and the second end 32 is approximately perpendicular to the relative direction between the two sides of the body 30.

[0094] Optionally, the receiving space 34 is open to the handle structure 33. Understandably, when the cup body 60 is made of a transparent material, the amount of water in the cup body 60 can be observed through the open area of ​​the body 30.

[0095] In some other embodiments, the cup body 60 and the main body 30 can also be snap-fitted together.

[0096] For example, combined Figure 1 As shown, when the length direction of the support plate 40 is approximately parallel to the relative direction between the first end 31 and the second end 32, and the magnetic attractor 50 is formed in an approximately planar shape, the magnetic attractor 50 can be used to magnetically attract wall panel structures or vertical rectangular tubular devices.

[0097] For example, combined Figure 6 As shown, when the length direction of the support plate 40 is approximately perpendicular to the relative direction between the first end 31 and the second end 32, and the magnetic attractor 50 is formed in an approximately planar shape, the magnetic attractor 50 can be used to magnetically attract wall panel structures or transverse rectangular tubular devices.

[0098] For example, combined Figure 7As shown, when the length direction of the support plate 40 is approximately parallel to the relative direction between the first end 31 and the second end 32, and the magnetic attractor 50 is formed in an approximately arc-shaped form, the magnetic attractor 50 can be used to magnetically attract transversely circular tubular devices.

[0099] For example, combined Figure 8 As shown, when the length direction of the support plate 40 is approximately perpendicular to the relative direction between the first end 31 and the second end 32, and the magnetic attractor 50 is formed in an approximately arc-shaped form, the magnetic attractor 50 can be used to magnetically attract vertical circular tubular devices.

[0100] The above embodiments are merely preferred embodiments of this application and are not intended to limit the scope of this application. Any modifications and improvements made by those skilled in the art to the technical solutions of this application without departing from the spirit of this application should fall within the protection scope defined by the claims of this application.

Claims

1. A cup holder for fixing a cup body, characterized in that, include: The main body is used to support the cup. A support plate is disposed around the periphery of the main body; and A magnetic attractor includes a connecting portion connected to the support plate and a bendable portion connected to the connecting portion. The bendable portion can be bent relative to the connecting portion, allowing the magnetic attractor to have a bent state and an unfolded state. The bendable portion is provided with a first permanent magnet. In the bent state, the bendable part deforms in a direction away from the support plate, so that the magnetic suction component is arc-shaped as a whole, and a concave surface is formed on the side away from the support plate. The degree of bending in the unfolded state is less than that in the bent state, and relative to the bent state, the bendable portion is closer to the support plate or in contact with the support plate in the unfolded state.

2. The cup holder for fixing a cup body according to claim 1, characterized in that, The bendable portion includes at least one flexible portion; the flexible portion is provided between the connecting portion and the first permanent magnet, and / or, the flexible portion is provided between two adjacent first permanent magnets.

3. The cup holder for fixing the cup body according to claim 2, characterized in that, The bendable portion further includes a first covering layer covering the surface of the first permanent magnet; when the bendable portion is in the unfolded state, the first covering layer covers the side of the first permanent magnet facing away from the support plate; the first covering layer is connected to the flexible portion.

4. The cup holder for fixing a cup body according to claim 3, characterized in that, The connecting portion includes a second permanent magnet and a second covering layer covering the surface of the second permanent magnet; the second covering layer is also connected to the support plate; the flexible portion connects the second covering layer and the first covering layer.

5. The cup holder for fixing the cup body according to claim 4, characterized in that, At least one of the first covering layer and the second covering layer is flexible or elastic; and / or, at least one of the first covering layer and the second covering layer is integrally formed with the flexible portion.

6. The cup holder for fixing a cup body according to claim 1, characterized in that, The bendable portion includes a plurality of first permanent magnets arranged at intervals in sequence; the support plate is provided with a magnetic region; the area of ​​the magnetic region corresponds to the area of ​​the first permanent magnet; in the unfolded state, among the plurality of first permanent magnets arranged at intervals in sequence, the position of the first permanent magnet that is furthest from the connecting portion corresponds to the position of the magnetic region.

7. The cup holder for fixing a cup body according to claim 1, characterized in that, The bendable portion is connected to each of the two opposite sides of the connecting portion.

8. The cup holder for fixing a cup body according to claim 7, characterized in that, The bendable portion includes a plurality of first permanent magnets distributed at intervals in sequence; the difference between the number of first permanent magnets corresponding to one side of the connecting portion and the number of first permanent magnets corresponding to the other side of the connecting portion is not greater than 2.

9. The cup holder for fixing a cup body according to claim 1, characterized in that, The body has two opposing sides, one side of which is rotatably connected to the support plate, and the other side of which has a handle structure.

10. A water cup, characterized in that, Includes the cup body and the cup holder as described in any one of claims 1 to 9.