Multi-cavity filling beverage cup

By designing a multi-cavity filling beverage cup, the independent filling and mixing of various raw materials is realized, overcoming the limitations of single filling containers in existing technologies and improving the practicality and service life of the product.

CN224466575UActive Publication Date: 2026-07-07DONGGUAN SOKA COFFEE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN SOKA COFFEE CO LTD
Filing Date
2025-08-15
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing bottled twist-top shake-to-fill beverage products can only control one filling container with one cap, making it impossible to separate and fill multiple ingredients separately, resulting in poor practicality.

Method used

The design includes a multi-cavity filling beverage cup, comprising a cup body, a detachable cup lid, and multiple independent filling containers. The filling cylinder and sleeve are assembled together and equipped with a mixing port and a limiting structure to achieve multiple independent raw material storage and mixing.

Benefits of technology

It allows for the filling of different or the same raw materials into different storage spaces, enabling independent use, which improves the practicality and service life of the product, and facilitates cleaning and maintenance.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a multi-cavity filling beverage cup, including cup body, with the detachable connection of cup body's cup cover, and set up a plurality of independent feeding material's filling container to the inside of cup body on cup cover, the filling container includes with the filling cylinder of cup cover insert installation cooperation, and the sleeve that moves sets up in the inside of filling cylinder, and the detachable connection between sleeve and filling cylinder, the bottom of filling cylinder forms has the closed surface, and the bottom of sleeve is seted up with the opening that communicates with its inside, and the bottom of sleeve and the closed surface abut and form the storage space that carries out the holding of material and the bottom end of filling cylinder side edge is seted up with the mixing mouth of supplementary material mixing, set up a plurality of independent filling container, and the filling cylinder and sleeve of filling container are combined with cup cover and install, cooperate mixing mouth, not only convenient to fill different material in different storage space and independent use, also benefit to fill the same material in different storage space and independent use.
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Description

Technical Field

[0001] This application relates to the field of beverage cup technology, and more specifically, to multi-cavity filling beverage cups. Background Technology

[0002] Currently, most shake-to-fill (honey, coffee, tea) beverages on the market are bottled. The structure of this type of product is basically designed with a filling container under the cap. After the cap is twisted, the ingredients such as honey, tea powder, and coffee powder will automatically fall into the bottle and mix with water. Because this type of bottled product design is limited to one cap controlling only one filling container, when users need to separately fill honey, coffee, or milk tea, the existing bottled products cannot achieve multiple fillings, making them less practical. Utility Model Content

[0003] To address the shortcomings of the prior art, the purpose of this application is to provide a multi-cavity filling beverage cup, including a cup body, a cup lid detachably connected to the cup body, and multiple filling containers disposed on the cup lid for independently dispensing raw materials into the cup body. The filling containers include a filling cylinder that is inserted into the cup lid, and a sleeve movably disposed inside the filling cylinder, with the sleeve and the filling cylinder being detachably connected. The bottom of the filling cylinder is formed with a closed surface, and the bottom of the sleeve has an opening communicating with its interior. The bottom of the sleeve abuts against the closed surface to form a storage space for holding the raw materials, and a mixing port for auxiliary raw material mixing is provided at the bottom end of the side of the filling cylinder.

[0004] Preferably, the filling cylinder has a first thread formed at the top of its interior, and the sleeve has a second thread formed on its exterior that engages with the first thread. The top of the sleeve extends upward to form a screw-in portion that is higher than the cup lid.

[0005] Preferably, the filling cylinder has an annular protrusion formed inside the sleeve, the protrusion is located on the closed surface, and the protrusion is watertightly fitted with the opening.

[0006] Preferably, the top of the cup lid has a placement hole for placing the filling cylinder, and the placement hole penetrates the cup lid. A step coaxial with the placement hole is formed around the inside of the placement hole. A boss is formed around the outside of the filling cylinder, and the bottom of the boss contacts the top of the step, thereby suspending the filling cylinder inside the cup lid.

[0007] Preferably, the inner wall of the placement hole is formed with a plurality of first limiting posts, which are distributed around the placement hole itself and are located above the step. The outside of the boss is formed with a plurality of second limiting posts that cooperate with the first limiting posts, and the second limiting posts are respectively inserted into the gap between adjacent first limiting posts.

[0008] Preferably, the top of the cup lid is provided with a spout for guiding liquid, and the spout is in communication with the inside of the cup body, and a cap is threaded onto the top of the spout.

[0009] Preferably, the screwing part is covered with a dust cover, and the inner wall of the dust cover is formed with a plurality of third limiting posts, which are distributed around the dust cover itself. The outside of the screwing part is formed with a plurality of fourth limiting posts that cooperate with the third limiting posts, and the fourth limiting posts are respectively inserted into the gaps between adjacent third limiting posts.

[0010] Preferably, a limiting block is formed at the top of the outer surface of the cup body, and the limiting block is distributed around the cup body itself, with the top of the limiting block flush with the top of the cup body. An abutment block that cooperates with the limiting block is formed on the inner wall of the cup lid, and the abutment block is distributed around the cup lid itself, with the bottom of the limiting block engaging with the top of the abutment block.

[0011] In summary, the beneficial effects of this application are as follows:

[0012] By incorporating multiple independent filling containers and combining the filling cylinders and sleeves of these containers with the cup lid, along with a mixing port, this product not only facilitates filling different ingredients into different storage spaces for independent use, but also allows for filling the same ingredient into different storage spaces for independent use. It also facilitates cleaning and maintenance after use, improving the product's practicality and extending its lifespan. This effectively solves the technical problem of existing bottled shake-to-fill beverage products on the market, where one cap can only control one filling container. Therefore, when users need to separately fill ingredients such as honey, coffee, or milk tea, existing bottled products of this type cannot achieve multiple ingredient filling, resulting in poor practicality. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the overall structure of a multi-cavity filling beverage cup;

[0014] Figure 2 This is a schematic diagram of a half-section of a multi-cavity filling beverage cup;

[0015] Figure 3 This is a schematic diagram of the filling container;

[0016] Figure 4 This is a schematic diagram of the exploded structure of the filling container;

[0017] Figure 5 This is a schematic diagram of the cup lid's structure;

[0018] Figure 6 This is a schematic diagram of the filling cylinder;

[0019] Figure 7 yes Figure 2 Enlarged structural diagram at point A in the middle;

[0020] Figure 8 This is a schematic diagram of the dust cover.

[0021] Reference numerals: 1. Cup body; 2. Cup lid; 3. Filling container; 301. Filling cylinder; 3010. Closed surface; 302. Sleeve; 3020. Opening; 303. Storage space; 4. Mixing port; 5. First thread; 6. Second thread; 7. Tightening part; 8. Protrusion ring; 9. Placement hole; 10. Step; 11. Boss; 12. First limiting post; 13. Second limiting post; 14. Drinking spout; 15. Spout cap; 16. Dust cover; 17. Third limiting post; 18. Fourth limiting post; 19. Limiting block; 20. Abutment block. Detailed Implementation

[0022] To make the technical problems, technical solutions, and beneficial effects to be solved by 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 are not intended to limit the scope of this application.

[0023] It should be noted that when a component is referred to as being "fixed to" or "set on" another component, it can be directly or indirectly attached to that other component. When a component is referred to as being "connected to" another component, it can be directly or indirectly connected to that other component.

[0024] It should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., 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, they should not be construed as limitations on this application.

[0025] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, "multiple" means two or more, unless otherwise explicitly specified.

[0026] Multi-cavity filling beverage cup, see Figures 1 to 8The system includes a cup body 1, a cup lid 2 detachably connected to the cup body 1, and multiple filling containers 3 disposed on the cup lid 2 for independently dispensing raw materials into the cup body 1. Each filling container 3 includes a filling cylinder 301 that inserts into the cup lid 2, and a sleeve 302 movably disposed inside the filling cylinder 301, with the sleeve 302 detachably connected to the filling cylinder 301. The bottom of the filling cylinder 301 has a closed surface 3010, and the bottom of the sleeve 302 has an opening 3020 communicating with its interior. The bottom of the sleeve 302 abuts against the closed surface 3010, forming a storage space 303 for holding the raw materials. A mixing port 4 for auxiliary material mixing is located at the bottom end of the side of the filling cylinder 301. In this embodiment, the specific number of filling containers 3 is three, and each filling cylinder 301 has two mixing ports 4, which are located on opposite sides of the filling cylinder 301. Therefore, as long as the filling cylinder 301 of each filling container 3 is installed on the cup lid 2, and then the sleeve 302 is placed inside the filling cylinder 301 so that the bottom of the sleeve 302 abuts against the closed surface 3010 to form a storage space 303, and finally the different raw materials are filled into the separate storage spaces 303 for storage; when one portion of the raw material is needed, simply fill the cup body 1 with drinking water first, and then install the cup lid 2 containing multiple portions of different raw materials on the top of the cup body 1. At this time, the filling container 3 will... The material is submerged in drinking water, which is then poured into the gap between the filling cylinder 301 and the sleeve 302 through the mixing port 4. The sleeve 302, corresponding to the material to be used, is then moved within the filling cylinder 301, causing the bottom of the sleeve 302 to separate from the closed surface 3010 and form a channel for the material to flow through. The material flows through this channel and first mixes with the drinking water between the filling cylinder 301 and the sleeve 302, then mixes with the drinking water in the cup body 1 through the mixing port 4, thus obtaining a mixed beverage. Because the liquid has good fluidity, in actual use, simply shaking the cup body 1 is sufficient to accelerate the mixing of the material and the drinking water. This embodiment uses multiple independent filling containers... The filling container 3 is assembled with the filling cylinder 301 and sleeve 302 of the filling container 3 and the cup lid 2, and then combined with the mixing port 4. This not only facilitates filling different raw materials into different storage spaces 303 and using them independently, but also facilitates filling different storage spaces 303 with the same raw materials and using them independently. It also facilitates cleaning and maintenance after use, improves the practicality of the product, and extends the service life of the product. It effectively solves the technical problem that existing bottled screw-cap shake-to-fill beverage products on the market are limited to one bottle cap controlling only one filling container 3. Therefore, when users need to separately fill raw materials such as honey, coffee or milk tea, the existing bottled products of this type cannot achieve multiple raw material filling, resulting in poor practicality.Furthermore, the raw materials mentioned above can be honey, coffee liquid, milk tea powder, and other water-soluble edible granules and powders. Therefore, this embodiment does not limit the specific types of raw materials, and this embodiment is not limited to individually filling multiple different raw materials; multiple portions of the same type of raw material can also be individually filled. The types of raw materials need to be determined according to the user's preferences.

[0027] The filling cylinder 301 has a first thread 5 formed at its inner top end, and the sleeve 302 has a second thread 6 formed on its outer side that is threadedly engaged with the first thread 5. The top of the sleeve 302 extends upwards to form a screw-in portion 7 that is higher than the cup lid 2. The filling cylinder 301 has an annular protrusion 8 formed inside the sleeve 302, which is located on the closed surface 3010 and has a watertight fit with the opening 3020. The cup lid 2 has a placement hole 9 at its top for placing the filling cylinder 301, which penetrates the cup lid 2. A step 10, coaxial with the step 10, is formed around the inside of the placement hole 9. The filling cylinder 301 has a boss 11 formed around its outer side, with the bottom of the boss 11 contacting the top of the step 10, thus suspending the filling cylinder 301 on the cup lid 2. Inside; the inner wall of the placement hole 9 is formed with a plurality of first limiting posts 12, which are distributed around the placement hole 9 and are located above the step 10. The outside of the boss 11 is formed with a plurality of second limiting posts 13 that cooperate with the first limiting posts 12, and the second limiting posts 13 are respectively inserted into the gaps between adjacent first limiting posts 12. In this embodiment, before installing the cup lid 2 onto the cup body 1, the filling cylinder 301 must first be passed through the placement hole 9 and the second limiting posts 13 must first be inserted into the gaps between adjacent first limiting posts 12. Then, force is applied in this direction until the bottom of the boss 11 contacts the top of the step 10. The step 10 supports the boss 11, thereby suspending the filling cylinder 301 on the cup. Inside the lid 2, and through the insertion and engagement between the first limiting post 12 and the second limiting post 13, the position of the filling cylinder 301 located inside the lid 2 can also be limited; after the filling cylinder 301 is installed, the screwing part 7 is pinched and the sleeve 302 is placed inside the filling cylinder 301 until the opening 3020 at the bottom of the sleeve 302 is fitted onto the outside of the protruding ring 8. At this time, a watertight fit is formed between the sleeve 302 and the protruding ring 8. Through the watertight fit between the sleeve 302 and the protruding ring 8, subsequent material leakage from the gap between the sleeve 302 and the protruding ring 8 can be effectively prevented. Then, the second thread 6 of the sleeve 302 is driven to engage with the first thread 5 of the filling cylinder 301. Finally, the sleeve 302 is rotated counterclockwise or clockwise. During this process, the protruding ring 8 will... The sleeve 302 is inserted further into the interior until the bottom of the sleeve 302 abuts against the closed surface 3010 of the filling cylinder 301, forming a watertight fit between the sleeve 302 and the filling cylinder 301. This watertight fit effectively prevents subsequent raw materials from leaking out of the gap between the sleeve 302 and the filling cylinder 301. The interplay of these structures forms a storage space 303 for holding the raw materials. When the raw materials need to be used, simply pinch the screw part 7 and drive the sleeve 302 to rotate in the opposite direction until the protrusion 8 disengages from the inside of the sleeve 302. Then, the bottom of the sleeve 302 forms a channel between itself and the closed surface 3010 of the filling cylinder 301, allowing the raw materials to flow through.

[0028] The cup lid 2 has a drinking spout 14 at its top for guiding liquid, and the drinking spout 14 communicates with the inside of the cup body 1. A spout cap 15 is threaded onto the top of the drinking spout 14. The screw-on part 7 is covered with a dust cover 16, and the inner wall of the dust cover 16 is formed with a plurality of third limiting posts 17, which are distributed around the dust cover 16. The outside of the screw-on part 7 is formed with a plurality of fourth limiting posts 18 that cooperate with the third limiting posts 17, and the fourth limiting posts 18 are respectively inserted into the gaps between adjacent third limiting posts 17. In this embodiment, after the raw material is filled, simply cover the top of the sleeve 302 with the dust cover 16, and then align the gaps between the third limiting posts 17 and the adjacent fourth limiting posts 18 to press the dust cover 16, thereby inserting the third limiting posts 17 into the gaps between the adjacent fourth limiting posts 18, and thus installing the dust cover 16 onto the sleeve. The top of 302 is equipped with a dust cover 16, which effectively prevents external dust and other stains from entering the storage space 303 and contaminating the raw materials, ensuring the cleanliness of the raw materials. Furthermore, the cooperation between the third limiting post 17 and the fourth limiting post 18 not only applies force to the sleeve 302 when the dust cover 16 is installed, driving the sleeve 302 to move within the filling cylinder 301, thereby opening and closing the channel, but also provides a good limiting effect on the dust cover 16, preventing it from accidentally falling off during transportation, carrying, or use. In addition, the addition of a drinking spout 14 allows users to drink the mixed beverage without removing the cup lid 2 from the cup body 1, making it more convenient to use. Furthermore, the addition of a spout cap 15 allows users to seal the drinking spout 14 when not drinking, preventing dust from entering or beverages from spilling, enhancing the convenience and hygiene during use.

[0029] A limiting block 19 is formed at the top of the outer surface of the cup body 1, and the limiting block 19 is distributed around the cup body 1. The top of the limiting block 19 is flush with the top of the cup body 1. An abutment block 20 is formed on the inner wall of the cup lid 2, which cooperates with the limiting block 19. The abutment block 20 is distributed around the cup lid 2, and the bottom of the limiting block 19 engages with the top of the abutment block 20. In this embodiment, the limiting block 19 has a structure that is narrower at the top and wider at the bottom, and the abutment block 20 has a structure that is wider at the top and narrower at the bottom. Therefore, when the cup lid 2 containing multiple portions of different ingredients needs to be installed on the top of the cup body 1, it is only necessary to first cover the top of the cup body 1 with the cup lid 2. At this time, the inclined surface of the abutment block 20 contacts the inclined surface of the abutment block 20. Then, the cup lid 2 is pressed and the abutment block 20 is driven to the limiting position. The cup lid 2 slides on the inclined surface of block 19. During this process, the cup lid 2 will undergo elastic deformation simultaneously. After the abutment block 20 slides past the limiting block 19, the cup lid 2 will elastically reset simultaneously. At this time, the top of the abutment block 20 will engage with the bottom of the limiting block 19, thereby fixing the cup lid 2 onto the cup body 1. After the abutment block 20 and the limiting block 19 engage, a stable connection structure can be formed, effectively preventing the cup lid 2 from accidentally separating from the cup body 1 during use, carrying, or shaking, ensuring the stability of the cup lid 2 after installation, and thus preventing liquid from spilling out of the cup or external impurities from entering the cup body 1. Furthermore, by simply applying force to the cup lid 2 and the cup body 1 in opposite directions, the limiting block 19 and the abutment block 20 can be disengaged, thereby separating the cup lid 2 from the cup body 1.

[0030] In this embodiment, the cup lid 2, cup body 1, filling container 3, and spout 14 are all made of food-grade plastic that meets food safety standards. The food-grade plastic is one of high-density polyethylene, polypropylene, and polyethylene terephthalate. The cup body 1 can be fully transparent or semi-transparent, allowing users to directly observe the remaining amount or mixing status of drinking water or mixed beverages in the cup without opening the cup lid 2, greatly improving the convenience and user experience during use.

[0031] The above embodiments are merely explanations of this application and are not intended to limit it. After reading this specification, those skilled in the art can make modifications to these embodiments without contributing any inventive step, but such modifications are protected by patent law as long as they fall within the scope of the claims of this application.

Claims

1. A multi-cavity filling beverage cup, characterized in that, The device includes a cup body, a cup lid detachably connected to the cup body, and multiple filling containers disposed on the cup lid for independently dispensing raw materials into the cup body. Each filling container includes a filling cylinder that is inserted into the cup lid, and a sleeve that is movably disposed inside the filling cylinder. The sleeve and the filling cylinder are detachably connected. The bottom of the filling cylinder is formed with a closed surface, and the bottom of the sleeve has an opening communicating with its interior. The bottom of the sleeve abuts against the closed surface to form a storage space for holding the raw materials, and a mixing port for auxiliary raw material mixing is provided at the bottom end of the side of the filling cylinder.

2. The multi-cavity filling beverage cup according to claim 1, characterized in that, The filling cylinder has a first thread formed at the top of its interior, and a second thread formed on the outside of the sleeve that engages with the first thread. The top of the sleeve extends upward to form a screw-in portion that is higher than the cup lid.

3. The multi-cavity filling beverage cup according to claim 1, characterized in that, The filling cylinder has an annular protrusion formed inside the sleeve, which is located on the closed surface and is watertight with the opening.

4. The multi-cavity filling beverage cup according to claim 1, characterized in that, The top of the cup lid has a placement hole for placing the filling cylinder, and the placement hole penetrates the cup lid. A step coaxial with the placement hole is formed around the inside of the placement hole. A boss is formed around the outside of the filling cylinder, and the bottom of the boss contacts the top of the step, thereby suspending the filling cylinder inside the cup lid.

5. The multi-cavity filling beverage cup according to claim 4, characterized in that, The inner wall of the placement hole is formed with a plurality of first limiting posts, which are distributed around the placement hole itself and are located above the step. The outside of the boss is formed with a plurality of second limiting posts that cooperate with the first limiting posts, and the second limiting posts are respectively inserted into the gap between adjacent first limiting posts.

6. The multi-cavity filling beverage cup according to claim 1, characterized in that, The cup lid is provided with a spout for guiding liquid at the top, and the spout is connected to the inside of the cup body, and a cap is threaded onto the top of the spout.

7. The multi-cavity filling beverage cup according to claim 2, characterized in that, The screwing part is covered with a dust cover, and the inner wall of the dust cover is formed with a plurality of third limiting posts, which are distributed around the dust cover itself. The outside of the screwing part is formed with a plurality of fourth limiting posts that cooperate with the third limiting posts, and the fourth limiting posts are respectively inserted into the gaps between adjacent third limiting posts.

8. The multi-cavity filling beverage cup according to claim 1, characterized in that, A limiting block is formed at the top of the outer surface of the cup body, and the limiting block is distributed around the cup body itself. The top of the limiting block is flush with the top of the cup body. An abutment block is formed on the inner wall of the cup lid to cooperate with the limiting block. The abutment block is distributed around the cup lid itself, and the bottom of the limiting block and the top of the abutment block are engaged.