A cup cover structure and a bounce straw cup

By designing a unique lid structure and spring-loaded components, the problems of straws not being able to be stored without bending and lacking aesthetics in existing technologies have been solved. This achieves straw storage without bending and improves the aesthetics of the lid, while providing a convenient cleaning method and a good seal.

CN224483590UActive Publication Date: 2026-07-14SHANGHAI TATATA BRAND MANAGEMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI TATATA BRAND MANAGEMENT CO LTD
Filing Date
2025-08-08
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing pop-up straw cup lid structure is not suitable for rigid straws, and the simple flip-top design cannot achieve straw storage without bending, and it is not aesthetically pleasing.

Method used

A unique cup lid structure has been designed, including a cup lid cover and a cup lid body. It has a lower extension and a receiving groove to store straws. It adopts a detachable connection and a rotating connection, combined with a spring-loaded component, to achieve the insertion and storage of straws. It also prevents leakage through tools and a sealing structure.

Benefits of technology

It achieves seamless straw storage, enhances the aesthetics and fun of the cup lid, and provides a convenient cleaning method and a tight seal to prevent leakage.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224483590U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of bounce straw cup, disclose a cup cover structure and bounce straw cup, including cup cover cover (1) and with cup cover cover (1) connection's cup cover main part (2), cup cover main part (2) side is equipped with the lower extension (21) to the straw cup, the lower extension (21) outside is equipped with the first outer thread (211) for with cup body (3) connection, the lower extension (21) is equipped with the containing groove (22) for receiving straw (42) in, this bounce straw cup adopts the cup cover structure of special ownership, and the straw can be inserted into the cup cover structure inside, realizes the unbending storage of straw, and the cup cover structure designs the personalized cup cover cover simultaneously, and it is more fashionable and beautiful.
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Description

Technical Field

[0001] This utility model relates to the field of bouncy straw cup technology, specifically to a cup lid structure and a bouncy straw cup. Background Technology

[0002] When using a pop-up straw cup, pressing the straw extends it into the cup body, allowing for easy drinking. This type of cup is widely used in insulated cups. Existing technology provides retractable spouts, such as the retractable spout and flip-top cup with this spout provided by Chinese patent CN217338130U. This spout includes a connecting bushing and a spout body, which slides up and down within the connecting bushing. A stop cap is located at the bottom of the spout body, limiting the maximum upward movement of the spout body. The cup lid structure is typically a flip-top design, and the straw inside the flip-top is usually a silicone tube, which is deformed during the flip-top process. This design is not suitable for stiffer straws; furthermore, the flip-top structure is usually quite simple, offering limited design space. Utility Model Content

[0003] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a cup lid structure and a pop-up straw cup. The pop-up straw cup adopts a special cup lid structure, and the straw can be inserted into the cup lid structure to achieve straw storage without bending. At the same time, the cup lid structure is designed with a personalized cup lid cover, which is more fashionable and beautiful.

[0004] To achieve the above objectives, this utility model provides the following technical solution:

[0005] A cup lid structure includes a cup lid cover and a cup lid body connected to the cup lid cover. The cup lid body has a lower extension on the side facing the straw cup. The outer side of the lower extension has a first external thread for connecting with the cup body. The lower extension has a receiving groove for storing the straw, so that the straw can be stored without bending.

[0006] Preferably, the cup lid body has an upper extension on the side facing the cup lid cover, and a first connector is connected to the upper extension. The cup lid cover has a second connector on the side facing the cup lid body. The first connector has a threaded rod facing the second connector, and the second connector has a threaded groove that mates with the threaded rod, so as to realize the detachable connection between the cup lid cover and the cup lid body, which is convenient for disassembly and cleaning.

[0007] Preferably, the upper extension is rotatably connected to the first connector via a bearing. When the first connector is connected to the second connector, the cup cover can rotate relative to the cup cover body. The receiving groove extends from the lower extension through the upper extension to the first connector. The bottom of the first connector is provided with a groove to facilitate the use of tools to penetrate the receiving groove and cooperate with the groove to disassemble the cup cover from the cup cover body.

[0008] Preferably, the lower extension is provided with a tool component, the top of which has a mounting groove for storing a tool head. The tool head is located on a screwdriver part that engages with the grooving part. A slot is provided around the mounting groove, and a snap-fit ​​part is provided around the tool head to match the slot. When the tool head is in use, the snap-fit ​​part snaps into the slot, with the screwdriver part facing the grooving part. When the tool head is not in use, the screwdriver part is inserted into the mounting groove, and the snap-fit ​​part snaps into the slot to fix the tool head.

[0009] Preferably, the inner side of the lower extension is provided with a first internal thread, and the tool is provided with a first thread that mates with the first internal thread to fix the tool; the outer side of the tool and above the first thread is provided with an annular groove, and a sealing ring is provided in the annular groove to ensure that when the tool is threadedly connected to the cup lid body, the tool and the cup lid body are in a sealed state to prevent water leakage from the cup lid.

[0010] Preferably, the tool is a hollow structure, and the straw can extend into its interior; the cup lid is a spherical structure.

[0011] To achieve the above objectives, this utility model provides the following technical solution:

[0012] A spring-loaded straw cup includes the aforementioned cup lid structure, and further includes a spring-loaded component and a cup body connected to the cup lid body. The spring-loaded component is connected to a connecting body, which has a second internal thread that matches the first external thread for detachable connection with the cup lid structure. The connecting body has a second external thread on the side facing the cup body, and the cup body has a second thread that matches the second external thread to achieve detachable connection between the connecting body and the cup body.

[0013] Preferably, the bouncing assembly includes an outer bouncing shell connected to the connecting body, a straw penetrating the outer bouncing shell, and a fixing part disposed on the straw. The fixing part is threadedly connected to the straw. The straw is provided with an upper stop, and the bottom of the outer bouncing shell is provided with a lower stop. A spring is provided between the upper stop and the lower stop, and the fixing part is located below the lower stop. When the straw is pressed, the straw moves towards the lower stop until the upper stop and the lower stop collide, and the spring is compressed. When the straw is released, the straw returns to its original position under the action of the spring force until the fixing part collidees with the lower stop.

[0014] Preferably, the outer bounce shell is provided with an elastic locking part, which is integrally connected to the outer bounce shell and extends to the inner wall of the connecting body. The connecting body is provided with a first annular platform. When the bounce component is inserted into the inner cavity of the connecting body to the first annular platform, the locking part is compressed by the contact force with the inner wall of the connecting body and is blocked by the first annular platform to elastically fix the bounce component.

[0015] Preferably, the connecting body is provided with a second annular platform, and the second annular platform is provided with a through hole for connecting to the cup body to prevent the air pressure inside the cup body from being too high; a hanging ring is provided on the outside of the connecting body.

[0016] Compared with the prior art, the beneficial effects of this utility model are:

[0017] This utility model of a spring-loaded straw cup adopts a unique cup lid structure, which allows the straw to be inserted into the cup lid structure, achieving straw storage without bending; at the same time, the cup lid structure is designed with a personalized cup lid cover, making it more fashionable and beautiful. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the structure of the bouncy straw cup in this embodiment.

[0019] Figure 2 This is a schematic diagram of the disassembled structure of the bouncy straw cup in this embodiment.

[0020] Figure 3 This is a schematic diagram of the cup lid structure in this embodiment.

[0021] Figure 4 This is a schematic diagram of the disassembled structure of the cup lid in this embodiment.

[0022] Figure 5 This is a partial cross-sectional view of the cup lid structure in this embodiment.

[0023] Figure 6 This is a schematic diagram of the connecting body and the bouncing component of the bouncing straw cup in this embodiment.

[0024] Figure 7 This is a cross-sectional view of the bouncing component of the bouncing straw cup in this embodiment.

[0025] Figure 8 This is a schematic diagram of the connecting body of the bouncy straw cup in this embodiment.

[0026] Figure 9 This is a schematic diagram of the outer shell of the bouncy straw cup in this embodiment.

[0027] In the attached diagram: 1-Cup lid cover, 2-Cup lid body, 21-Lower extension, 211-First external thread, 22-Receiving groove, 23-Upper extension, 24-First connector, 241-Threaded rod, 242-Groogging, 25-Second connector, 251-Threaded groove, 26-Tool, 261-Mounting groove, 262-Card slot, 263-First thread, 27-Tool head, 271-Screwdriver part, 272-Snap-fit ​​part, 3-Cup body, 31-Second thread, 4-Bounce assembly, 41-Outer bounce shell, 411-Lower stop, 412-Securing part, 42-Straw, 421-Upper stop, 43-Fixing part, 44-Spring, 5-Connecting body, 51-Second internal thread, 52-Second external thread, 53-First annular platform, 54-Second annular platform, 55-Through hole, 56-Hanging ring. Detailed Implementation

[0028] Example 1: A preferred embodiment of the present invention provides a cup lid structure, including a cup lid cover 1 and a cup lid body 2 connected to the cup lid cover 1. The cup lid body 2 has a lower extension 21 on the side facing the straw cup. The lower extension 21 has a first external thread 211 on the outside for connecting with the cup body 3. The lower extension 21 has a receiving groove 22 for storing the straw 42. With the adoption of a dedicated cup lid structure, the straw 42 can be inserted into the cup lid structure to achieve storage of the straw 42 without bending.

[0029] The cup lid body 2 has an upper extension 23 on the side facing the cup lid cover 1. A first connector 24 is connected to the upper extension 23. The cup lid cover 1 has a second connector 25 on the side facing the cup lid body 2. The first connector 24 has a threaded rod 241 facing the second connector 25. The second connector 25 has a threaded groove 251 that mates with the threaded rod 241, so as to realize the detachable connection between the cup lid cover 1 and the cup lid body 2, which is convenient for disassembly and cleaning.

[0030] The upper extension 23 is rotatably connected to the first connector 24 via a bearing. When the first connector 24 is connected to the second connector 25, the cup lid cover 1 can rotate relative to the cup lid body 2. The receiving groove 22 extends from the lower extension 21 through the upper extension 23 to the first connector 24. The bottom of the first connector 24 is provided with a groove 242 to facilitate the use of tools to penetrate the receiving groove 22 and cooperate with the groove 242 to disassemble the cup lid cover 1 from the cup lid body 2. In this embodiment, the cup lid cover 1 is a spherical structure. This spherical structure can rotate relative to the cup lid body 2, which is not only highly personalized and more fashionable and beautiful, but also increases the fun of the cup lid structure and enhances the entertainment needs of using the cup.

[0031] Example 2: A preferred embodiment of this utility model provides a cup lid structure and a spring-loaded straw cup, which differs from the above embodiments only in that:

[0032] The lower extension 21 is provided with a tool 26. The top of the tool 26 is provided with a mounting groove 261, and a tool head 27 is housed in the mounting groove 261. The tool head 27 is located in a screwdriver part 271 that mates with the groove 242. A slot 262 is provided on the periphery of the mounting groove 261, and a snap-fit ​​part 272 that matches the slot 262 is provided on the periphery of the tool head 27. When the tool head 27 is used, the snap-fit ​​part 272 snaps into the slot 262, and the screwdriver part 271 faces the groove 242. When the tool head 27 is not used, the screwdriver part 271 is inserted into the mounting groove 261, and the snap-fit ​​part 272 snaps into the slot 262 to fix the tool head 27.

[0033] The inner side of the lower extension 21 is provided with a first internal thread, and the tool 26 is provided with a first thread 263 that mates with the first internal thread to fix the tool 26. The tool 26 is a hollow structure, and the straw 42 can extend into it. The outer side of the tool 26 and above the first thread 263 is provided with an annular groove. A sealing ring is provided in the annular groove to ensure that when the tool 26 is threadedly connected to the cup lid body 2, the tool 26 and the cup lid body 2 are in a sealed state to prevent water leakage from the cup lid.

[0034] Example 3: A preferred embodiment of this utility model provides a spring-loaded straw cup, which differs from the above embodiments only in that: it includes the cup lid structure described in Example 1 or Example 2, and also includes a spring-loaded component 4 and a cup body 3 connected to the cup lid body 2. The spring-loaded component 4 is connected to a connecting body 5, and the connecting body 5 is provided with a second internal thread 51 that matches the first external thread 211, so as to be detachably connected to the cup lid structure; the connecting body 5 is provided with a second external thread 52 on the side facing the cup body 3, and the cup body 3 is provided with a second thread 31 that matches the second external thread 52, so as to realize the detachable connection between the connecting body 5 and the cup body 3.

[0035] Example 4: A preferred embodiment of this utility model provides a bouncy straw cup, which differs from the above embodiments only in that: the bouncy component 4 includes an outer bouncy shell 41 connected to the connecting body 5, a straw 42 penetrating the outer bouncy shell 41, and a fixing part 43 provided on the straw 42. The fixing part 43 is threadedly connected to the straw 42. The straw 42 is provided with an upper stop 421, and the bottom of the outer bouncy shell 41 is provided with a lower stop 411. A spring 44 is provided between the upper stop 421 and the lower stop 411, and the fixing part 43 is located below the lower stop 411. When the straw 42 is pressed, the straw 42 moves towards the lower stop 411 until the upper stop 421 and the lower stop 411 abut against each other, and the spring 44 is compressed. When the straw 42 is released, the straw 42 returns to the position where the fixing part 43 abuts against the lower stop 411 under the elastic force of the spring 44.

[0036] The outer bouncing shell 41 is provided with an elastic locking part 412, which is integrally connected to the outer bouncing shell 41 and extends to the inner wall of the connecting body 5. The connecting body 5 is provided with a first annular platform 53. When the bouncing component 4 is inserted into the inner cavity of the connecting body 5 to the first annular platform 53, the locking part 412 is compressed by the contact force with the inner wall of the connecting body 5 and is blocked by the first annular platform 53 to elastically fix the bouncing component 4. The connecting body 5 is provided with a second annular platform 54, which is provided with a through hole 55 for connecting to the cup body 3 to prevent the air pressure inside the cup body 3 from being too high, causing hot air or hot water to spray out from the straw 42. The outer side of the connecting body 5 is provided with a hanging ring 56 for hanging water cup decorations to improve aesthetics.

[0037] The above description is only a specific embodiment of the present utility model, but the technical features of the present utility model are not limited thereto. Any changes or modifications made by those skilled in the art within the scope of the present utility model are covered by the patent scope of the present utility model.

Claims

1. A cup lid structure, characterized in that, The cup includes a cup cover (1) and a cup cover body (2) connected to the cup cover (1). The cup cover body (2) has a lower extension (21) on the side facing the straw cup. The lower extension (21) has a first external thread (211) on the outside for connecting with the cup body (3). The lower extension (21) has a receiving groove (22) for storing the straw (42) inside, so that the straw (42) can be stored without bending.

2. The cup lid structure according to claim 1, characterized in that, The cup lid body (2) has an upper extension (23) on the side facing the cup lid cover (1), and a first connector (24) is connected to the upper extension (23). The cup lid cover (1) has a second connector (25) on the side facing the cup lid body (2). The first connector (24) has a threaded rod (241) facing the second connector (25). The second connector (25) has a threaded groove (251) that mates with the threaded rod (241) so that the cup lid cover (1) and the cup lid body (2) can be detachably connected for easy disassembly and cleaning.

3. The cup lid structure according to claim 2, characterized in that, The upper extension (23) is rotatably connected to the first connector (24) via a bearing. When the first connector (24) is connected to the second connector (25), the cup cover (1) can rotate relative to the cup cover body (2). The receiving groove (22) extends from the lower extension (21) through the upper extension (23) to the first connector (24). The bottom of the first connector (24) is provided with a groove (242) to facilitate the use of tools to penetrate the receiving groove (22) to cooperate with the groove (242) to disassemble the cup cover (1) from the cup cover body (2).

4. The cup lid structure according to claim 3, characterized in that, The lower extension (21) is provided with a tool (26), and the top of the tool (26) is provided with a mounting groove (261). The mounting groove (261) contains a tool head (27), and the tool head (27) is located in a screwdriver part (271) that cooperates with the grooving (242). The mounting groove (261) is provided with a slot (262) on its periphery, and the tool head (27) is provided with a snap-fit ​​part (272) that matches the slot (262) on its periphery. When the tool head (27) is used, the snap-fit ​​part (272) snaps into the slot (262), and the screwdriver part (271) faces the grooving (242). When the tool head (27) is not used, the screwdriver part (271) is inserted into the mounting groove (261), and at the same time, the snap-fit ​​part (272) snaps into the slot (262) to fix the tool head (27).

5. A cup lid structure according to claim 4, characterized in that, The inner side of the lower extension (21) is provided with a first internal thread, and the tool (26) is provided with a first thread (263) that mates with the first internal thread to fix the tool (26); the outer side of the tool (26) and above the first thread (263) is provided with an annular groove, and a sealing ring is provided in the annular groove to ensure that when the tool (26) is threadedly connected to the cup lid body (2), the tool (26) and the cup lid body (2) are in a sealed state to prevent water leakage from the cup lid.

6. A cup lid structure according to claim 4, characterized in that, The tool (26) has a hollow structure, and the straw (42) can extend into its interior; the cup cover (1) has a spherical structure.

7. A spring-loaded straw cup, comprising the lid structure according to any one of claims 1-6, characterized in that, It also includes a spring-loaded assembly (4) connected to the cup lid body (2) and a cup body (3). The spring-loaded assembly (4) is connected to a connecting body (5). The connecting body (5) is provided with a second internal thread (51) that matches the first external thread (211) so as to be detachably connected to the cup lid structure. The connecting body (5) is provided with a second external thread (52) on the side facing the cup body (3). The cup body (3) is provided with a second thread (31) that matches the second external thread (52) so as to realize the detachable connection between the connecting body (5) and the cup body (3).

8. A spring-loaded straw cup according to claim 7, characterized in that, The bouncing assembly (4) includes an outer bouncing shell (41) connected to the connecting body (5), a straw (42) penetrating the outer bouncing shell (41), and a fixing part (43) provided on the straw (42). The fixing part (43) is threadedly connected to the straw (42). An upper baffle (421) is provided on the straw (42), and a lower baffle (411) is provided at the bottom of the outer bouncing shell (41). The upper baffle (421) and the lower baffle (411) are connected together. A spring (44) is provided, and a fixing part (43) is located below the lower stop (411). When the straw (42) is pressed, the straw (42) moves towards the lower stop (411) until the upper stop (421) and the lower stop (411) come into contact, and the spring (44) is compressed. When the straw (42) is released, the straw (42) returns to the fixing part (43) and comes into contact with the lower stop (411) under the elastic force of the spring (44).

9. A spring-loaded straw cup according to claim 8, characterized in that, The outer bouncy shell (41) is provided with an elastic locking part (412). The locking part (412) is integrally connected with the outer bouncy shell (41) and extends to the inner wall of the connecting body (5). The connecting body (5) is provided with a first annular platform (53). When the bouncy component (4) is inserted into the inner cavity of the connecting body (5) to the first annular platform (53), the locking part (412) is compressed by the contact force with the inner wall of the connecting body (5) and is blocked by the first annular platform (53) to elastically fix the bouncy component (4).

10. A spring-loaded straw cup according to claim 9, characterized in that, The connecting body (5) is provided with a second annular platform (54), and the second annular platform (54) is provided with a through hole (55) connected to the cup body (3) to prevent the air pressure inside the cup body (3) from being too high; the connecting body (5) is provided with a hanging ring (56) on the outside.