Tea-water separation structure and tea-water separation cup
By using a combination of traction components and fixing components in the tea-water separation cup, stable positioning and movement control of the tea container are achieved, solving the problems of insufficient durability and practicality of magnetic tea-water separation methods and improving the user experience of the tea-water separation cup.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU MULING TECHNOLOGY CO LTD
- Filing Date
- 2025-01-23
- Publication Date
- 2026-07-07
AI Technical Summary
Existing methods for separating tea and water using magnetic attraction suffer from poor durability and practicality. The magnets are too heavy, making them difficult to carry, and once the magnetic force weakens, they can no longer secure the tea container or adjust its position.
The tea canister is moved up and down by a combination of traction components and fixing components. The traction components are fixed by structures such as snap-fit grooves, fixing holes, snap heads, and winding columns to prevent free fall and achieve stable positioning and movement control of the tea canister.
It improves the durability and practicality of the tea-water separation method, has a simple structure, is lightweight, and allows for free control of the tea brewing and tea-water separation state, avoiding the problems of excessive magnet weight and weakened magnetic force.
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Figure CN224461432U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of water cup technology, and in particular to a tea-water separation structure and a tea-water separation cup. Background Technology
[0002] Tea-water separator cups typically consist of two parts: the upper part holds the tea leaves, and the lower part holds the hot water. When hot water is poured in, the tea leaves steep in the upper part, and the steeped tea water flows through the filter layer into the lower part, thus separating the tea leaves from the water. This design effectively prevents the tea from becoming too strong and bitter due to prolonged steeping, while also saving brewing time and preserving the original flavor and fresh taste of the tea. However, this tea-water separator method does not allow for precise control of the steeping time; once the tea is separated, it cannot be re-steeped in water except by pouring in more hot water.
[0003] To address the challenge of controlling the steeping and separation of tea leaves, a magnetic method for tea-water separation has emerged on the market. When brewing tea, the tea container is magnetically attached to the lid. The user simply places the container in water, allowing the tea leaves to fully steep. Once the desired steeping time or color and depth of the tea have been achieved, the user can adjust the magnet's position, causing the tea container to slide within the cup. The magnetic force pulls the container upwards, removing the tea leaves from the water and separating them from the tea. This allows for precise control over the steeping and separation process. However, this magnetic method also has drawbacks. For example, the magnets can be heavy, making them difficult to carry. Furthermore, after prolonged use, the magnets may weaken, making it difficult to secure the container or adjust its position. These factors contribute to the current limitations in durability and practicality of this tea-water separation method. Utility Model Content
[0004] The purpose of this application is to provide a tea-water separation structure and a tea-water separation cup to improve the durability and practicality of the tea-water separation method.
[0005] Firstly, the tea-water separation structure provided in this application adopts the following technical solution:
[0006] A tea-water separation structure includes a traction component, a guide hole disposed on the cover, and a fixing component disposed on the cover. The bottom of the traction component passes through the guide hole and is connected to the tea container. The traction component is used to drive the tea container to move towards or away from the cover. The fixing component is used to fix the traction component to prevent the traction component from free-falling.
[0007] By adopting the above technical solution, this application positions the tea container by fixing the traction component to prevent it from falling freely. The traction component moves the tea container up and down. When it is time to brew tea, the traction component is released, allowing the tea container to descend to the bottom under gravity. When it is time to separate tea from water, the traction component moves the tea container upward to near the lid. Then, the traction component is fixed to the tea container near the lid, thus allowing free control over the brewing and tea-water separation processes, improving the durability and practicality of the tea-water separation method.
[0008] Furthermore, the fixing component includes at least one snap-fit groove provided on the edge of the cover or the side of the cup, the snap-fit groove being used to snap the traction component.
[0009] By adopting the above technical solution, this application achieves the fixation and storage of the traction component by snapping it into the snap-fit groove.
[0010] Furthermore, the fixing component includes a fixing hole, which is connected to the guide hole, and the diameter of the guide hole is larger than the diameter of the fixing hole;
[0011] The guide hole is used to guide the traction component so that it can move up and down along the guide hole, and the fixing hole is used to fix the traction component so that it is fixed in the fixing hole.
[0012] By adopting the above technical solution, this application can also fix the traction component through the fixing hole. When it is necessary to move the traction component up and down, it can be placed in the guide hole. When it is necessary to fix the traction component, it can be snapped into the fixing hole. Since the diameter of the fixing hole is smaller than the diameter of the guide hole, it can fix the traction component.
[0013] Furthermore, the fixing component includes a buckle head disposed on the edge of the lid or the side of the cup, and the traction component is provided with a plurality of buckle holes with equal spacing, the buckle head being used to insert into the buckle holes to fix the traction component.
[0014] By adopting the above technical solution, this application can also fix the traction component by snapping the buckle head and buckle hole. At the same time, since the traction component is provided with several buckle holes with the same spacing, the fixed position of the traction component can also be freely controlled, thereby freely adjusting the height of the tea canister.
[0015] Furthermore, the fixing component includes a winding post disposed on the edge of the cover or the side of the cup, the winding post being used to wind and fix the traction component.
[0016] By adopting the above technical solution, this application can also fix the traction component by wrapping the traction component around the winding column.
[0017] Furthermore, the fixing component also includes a limiting sleeve nested outside the traction component, the limiting sleeve being located near the upper surface of the cover of the traction component, and the outer diameter of the limiting sleeve being larger than the diameter of the guide hole.
[0018] By adopting the above technical solution, this application can limit the relative position of the traction component and the guide hole by using the limiting sleeve, thereby ensuring that the traction component will not completely slide into the guide hole and improving the durability of the tea-water separation structure.
[0019] Furthermore, the traction component is provided with a sealing plug below the guide hole, which can be inserted into the guide hole to seal it.
[0020] By adopting the above technical solution, this application seals the connection between the traction component and the guide hole with a sealing plug, ensuring the overall airtightness of the cup.
[0021] Furthermore, the top of the traction component is provided with a lifting part, the maximum radial width of which is greater than the diameter of the guide hole.
[0022] By adopting the above technical solution, this application can limit the relative position of the traction component and the guide hole through the lifting part, thereby ensuring that the traction component will not completely slide into the guide hole, and improving the durability of the tea-water separation structure.
[0023] Furthermore, the axial direction of the lifting part intersects with the axial direction of the guide hole to form an angle.
[0024] By adopting the above technical solution, the lifting part and the axial direction of the guide hole form a certain angle. The lifting part will be driven by gravity to naturally lower the traction component, without the need to manually adjust the position of the traction component.
[0025] Furthermore, the traction component is a soft, elastic rope.
[0026] By adopting the above technical solution, the traction component of this application is a soft elastic rope, which can be fixed by a fixing component.
[0027] Furthermore, the traction component is a silicone rope.
[0028] By adopting the above technical solution, the traction component of this application is made of food-grade silicone. Silicone is non-toxic, odorless, chemically stable, and lightweight, which can improve the durability and practicality of the tea-water separation structure.
[0029] Secondly, the tea-water separator cup provided in this application adopts the following technical solution:
[0030] A tea-water separation cup includes a cup body and a lid. The cup body has a tea compartment inside, and the lid has a tea-water separation structure as described in the first aspect. The end of the traction component is connected to the tea compartment.
[0031] By adopting the above technical solution, this application achieves tea-water separation through a tea-water separation structure. When tea needs to be brewed, the traction component is released, allowing the tea container to descend to the bottom under gravity. When tea-water separation is needed, the traction component moves the tea container upwards to near the lid, and then the traction component is fixed by the fixing component, fixing the tea container in a position near the lid. This allows for free control of the tea brewing and tea-water separation states. Compared with the magnetic tea-water separation method in the prior art, the structure is simpler and lighter, effectively improving the durability and practicality of the tea-water separation cup.
[0032] Furthermore, the top of the tea container is provided with a connecting hole, and the bottom of the traction component is provided with a connecting part, the diameter of the upper surface of the connecting part being larger than the diameter of the connecting hole;
[0033] The connecting part is used to insert into the connecting hole so that the bottom of the traction component is connected to the top of the tea container.
[0034] By adopting the above technical solution, this application connects the connecting component and the tea container by inserting the traction component into the connection hole on the top of the tea container, which facilitates installation and disassembly. The tea container or traction component can be replaced as needed, further improving the durability and practicality of the tea-water separation cup.
[0035] Furthermore, the cover is also provided with a direct drinking component, which includes a direct drinking spout and a direct drinking spout seal for sealing the direct drinking spout, one end of which is rotatably connected to the cover.
[0036] By adopting the above technical solution, this application provides a direct drinking component in the lid, which allows users to drink water directly through the direct drinking spout. The direct drinking stopper protects the direct drinking spout from dust when drinking is not required, thus improving the practicality of the tea-water separation cup.
[0037] Furthermore, the cover is also provided with a straw assembly, which includes a straw opening and a straw opening seal for sealing the straw opening, with one end of the straw opening seal being rotatably connected to the cover.
[0038] By adopting the above technical solution, this application provides a straw assembly in the lid, which makes it convenient for users to insert a straw into the straw opening to drink water. The straw plug provides dust protection to the straw opening when no straw is needed, thereby improving the practicality of the tea-water separation cup.
[0039] Furthermore, the cover is provided with a drinking spout and a straw spout, which are symmetrically arranged with the guide hole as the center.
[0040] By adopting the above technical solution, this application symmetrically sets the drinking spout and the straw spout with the guide hole as the center, making the design of the lid more reasonable.
[0041] Furthermore, the direct drinking assembly also includes a first placement member for placing the direct drinking port seal, the first placement member being located on one side of the direct drinking port.
[0042] By adopting the above technical solution, this application provides a first placement component for placing the direct drinking spout seal, which facilitates the storage of the direct drinking spout seal when it is needed.
[0043] Furthermore, the straw assembly also includes a second placement member for placing a straw opening seal, the second placement member being located on one side of the straw opening.
[0044] By adopting the above technical solution, this application provides a second placement component for placing the straw opening seal, which facilitates the storage of the straw opening seal when it is needed.
[0045] Furthermore, the guide hole is provided with a third connector, the drinking spout seal is provided with a first connector, and the straw spout seal is provided with a second connector, and at least one of the first connector and the second connector is connected to the third connector.
[0046] By adopting the above technical solution, this application connects the drinking spout seal and / or straw spout seal to the guide hole through the first connector, the second connector and the third connector, making the drinking spout seal and straw spout seal less likely to be lost and improving the convenience of use.
[0047] Furthermore, the direct drinking spout seal and the straw spout seal are connected by a fourth connector.
[0048] By adopting the above technical solution, the direct drinking spout seal and the straw spout seal of this application can be connected by the fourth connector, making the direct drinking spout seal and the straw spout seal less likely to be lost and improving the convenience of use.
[0049] In summary, this application includes at least one of the following beneficial technical effects:
[0050] 1. This application uses a traction component to move the tea container up and down. When tea needs to be brewed, the traction component is released, allowing the tea container to descend to the bottom under gravity. When tea and water separation is needed, the traction component moves the tea container up to near the lid. Then, the traction component is fixed by a fixing component, fixing the tea container in a position close to the lid. This allows for free control of the tea brewing and tea-water separation states, improving the durability and practicality of the tea-water separation method.
[0051] 2. This application achieves the fixing and storage of the traction component by snapping it into the snap-fit groove;
[0052] 3. This application can also fix the traction component through the fixing hole. When it is necessary to move the traction component up and down, it can be placed in the guide hole. When it is necessary to fix the traction component, it can be snapped into the fixing hole. Since the diameter of the fixing hole is smaller than the diameter of the guide hole, it can fix the traction component.
[0053] 4. This application can also fix the traction component by snapping the buckle head and buckle hole. At the same time, since the traction component is provided with several buckle holes with the same spacing, the fixed position of the traction component can also be freely controlled, thereby freely adjusting the height of the tea canister.
[0054] 5. This application can also fix the traction component by wrapping the traction component around the winding column. Attached Figure Description
[0055] Figure 1 This is a schematic diagram of the overall tea-water separation structure of Embodiment 1 of this application;
[0056] Figure 2 This is a schematic diagram of the tea-water separation cup of Embodiment 1 of this application;
[0057] Figure 3 This is a cross-sectional schematic diagram of the tea-water separation cup of Embodiment 1 of this application;
[0058] Figure 4 This is a schematic diagram of the tea-water separation cup of Embodiment 2 of this application;
[0059] Figure 5 This is a schematic diagram of the tea-water separation cup of Embodiment 3 of this application;
[0060] Figure 6 This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 4 of this application;
[0061] Figure 7 This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 5 of this application;
[0062] Figure 8 This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 6 of this application;
[0063] Figure 9 This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 7 of this application;
[0064] Figure 10 This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 8 of this application;
[0065] Figure 11This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 9 of this application;
[0066] Figure 12 This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 10 of this application;
[0067] Figure 13 This is a schematic diagram of the tea-water separation structure and the lid structure of Embodiment 11 of this application;
[0068] In the diagram, 1. Pulling component; 11. Lifting part; 12. Connecting part; 13. Sealing plug; 21. Snap-fit groove; 22. Fixing hole; 23. Limiting sleeve; 24. Snap-fit head; 25. Snap-fit hole; 26. Winding post; 3. Cover body; 31. Guide hole; 311. Third connecting piece; 32. Direct drinking component; 321. Direct drinking spout; 322. Direct drinking spout seal; 323. First placement piece; 324. First connecting piece; 33. Straw assembly; 331. Straw opening; 332. Straw opening seal; 333. Second placement piece; 334. Second connecting piece; 335. Fourth connecting piece; 4. Cup body; 5. Tea compartment; 51. Connecting hole. Detailed Implementation
[0069] The following is in conjunction with the appendix Figure 1 - Appendix Figure 13 This application will be described in further detail below.
[0070] Example 1:
[0071] To address the issue of freely controlling the steeping and separation of tea leaves, a magnetic method for tea-water separation has emerged on the market. When brewing tea, the tea container is magnetically secured to the lid, and the user simply places it in water for the tea leaves to steep fully. Once the desired steeping time or tea color and depth have been achieved, the user can adjust the position of the magnet to slide the tea container within the cup. The magnetic force attracts and pulls the container upwards, removing the tea leaves from the water and achieving tea-water separation. This allows for free control of the steeping and separation process. However, this magnetic method also has drawbacks. For example, the magnet's weight can make it difficult to carry, and after prolonged use, the magnet may weaken, making it unable to secure the tea container or adjust its position. Therefore, this application provides a tea-water separation structure, referring to... Figure 1The device includes a traction component 1, a guide hole 31 disposed on the cover 3, and a fixing component disposed on the cover 3. The bottom of the traction component 1 passes through the guide hole 31 and is connected to the tea container 5. The traction component 1 is used to move the tea container 5 towards or away from the cover 3. The fixing component is used to fix the traction component 1 to prevent the traction component 1 from free-falling. That is, by fixing the traction component 1, the tea container 5 is positioned to prevent it from falling freely.
[0072] The implementation principle of this application embodiment is as follows: the tea chamber 5 is moved up and down by the traction component 1. When tea needs to be brewed, the traction component 1 is released, so that the tea chamber 5 descends to the bottom under the action of gravity. When tea and water separation is needed, the tea chamber 5 is moved up to the lid 3 by the traction component 1. Then, the traction component 1 is fixed by the fixing component, so that the tea chamber 5 is fixed in the position close to the lid 3. Thus, the state of tea brewing and tea and water separation can be freely controlled, improving the durability and practicality of the tea and water separation method.
[0073] like Figure 1 As shown, the fixing component of this application embodiment includes a snap-fit groove 21 disposed on the edge of the cover 3 or the side of the cup 4, the snap-fit groove 21 being used to snap the traction component 1. The fixing component also includes a fixing hole 22, which is connected to the guide hole 31, and the diameter of the guide hole 31 is larger than the diameter of the fixing hole 22. The guide hole 31 is used to guide the traction component 1 so that it can move up and down along the guide hole, and the fixing hole 22 is used to fix the traction component 1 so that it is fixed in the fixing hole 22.
[0074] In the specific implementation process, in order to facilitate fixing by snapping into the fixing hole 22 and the snap-fit groove 21, the traction component 1 of this application embodiment is a soft elastic rope, preferably a silicone rope. The snap-fit groove 21 is located on one side of the fixing hole 22. When it is necessary to move the traction component 1 up and down, it is placed in the guide hole 31, and the traction component 1 is moved according to the desired position of the tea container 5, so that the tea container 5 moves up and down. When it is moved to the desired position and it is necessary to fix the traction component 1, the traction component 1 is snapped into the fixing hole 22, and then its upper end is snapped into the snap-fit groove 21. The diameter of the fixing hole 22 and the diameter of the snap-fit groove 21 need to be smaller than the diameter of the soft elastic rope, so that the soft elastic rope can be snapped into the fixing hole 22 and the snap-fit groove 21 for fixation.
[0075] To further ensure practicality, the top of the traction component 1 in this embodiment is provided with a lifting part 11, the maximum width of which is greater than the diameter of the guide hole 31. The lifting part 11 restricts the relative position of the traction component 1 and the guide hole 31, thereby ensuring that the traction component 1 will not completely slide into the guide hole 31 when moving up and down.
[0076] This application also provides a tea-water separator cup, as shown in the embodiments below. Figure 2 and Figure 3The device includes a cup body 4 and a lid 3. The cup body 4 has a tea compartment 5 inside, and the lid 3 has a tea-water separation structure. The end of a pulling component 1 is connected to the tea compartment 5. The lid 3 also includes a direct-drinking component 32 and a straw assembly 33. The direct-drinking component 32 includes a direct-drinking spout 321 and a direct-drinking spout seal 322 for sealing the direct-drinking spout 321. One end of the direct-drinking spout seal 322 is rotatably connected to the lid 3. The straw assembly 33 includes a straw opening 331 and a straw opening seal 332 for sealing the straw opening 331. One end of the straw opening seal 332 is rotatably connected to the lid 3, and the straw opening 331 is used to insert a straw. The direct-drinking spout 321 and the straw opening 331 are symmetrically arranged with a guide hole 31 as the center. In practical implementation, by setting a direct drinking component 32 in the lid 3, users can drink water directly through the direct drinking spout 321. The direct drinking spout seal 322 provides dust protection for the direct drinking spout 321 when drinking is not required. By setting a straw component 33 in the lid 3, users can insert a straw into the straw opening 331 to drink water. The straw opening seal 332 provides dust protection for the straw opening 331 when no straw is needed, thus improving the practicality and durability of the tea-water separator cup.
[0077] like Figure 3 As shown, the tea container 5 has a connecting hole 51 at its top, and the traction component 1 has a connecting part 12 at its bottom. The diameter of the upper surface of the connecting part 12 is larger than the diameter of the connecting hole 51. The connecting part 12 is used to insert into the connecting hole 51, so that the bottom of the traction component 1 is connected to the top of the tea container 5. In specific implementation, by inserting the traction component 1 into the connecting hole 51 at the top of the tea container 5 to connect the connecting part 12 and the tea container 5, it is easy to install and disassemble, and the tea container 5 or the traction component 1 can be replaced as needed.
[0078] Example 2: This example provides a tea-water separator cup, as shown in the following figure. Figure 4 The difference between this embodiment and embodiment 1 is that the fixing component in this embodiment also includes a limiting sleeve 23 nested outside the traction component 1. The limiting sleeve 23 is located near the upper surface of the cover 3 of the traction component 1, and the outer diameter of the limiting sleeve 23 is larger than the diameter of the guide hole 31.
[0079] The implementation principle of this application embodiment is as follows: the relative position of the traction component 1 and the guide hole 31 is limited by the limiting sleeve 23, thereby ensuring that the traction component 1 will not completely slide into the guide hole 31. At the same time, when the traction component 1 cannot be stably fixed due to deformation or other reasons after long-term use, the limiting sleeve 23 can increase the friction of the traction component 1 so that it can still freely control the up and down movement position.
[0080] Example 3: This example provides a tea-water separator cup, as shown in the following figure. Figure 5The difference between this embodiment and Embodiment 1 is that the fixing component in this embodiment includes two snap-fit grooves 21 symmetrically arranged on the edge of the cover 3 or the side of the cup 4. The snap-fit grooves 21 are used to snap the traction component 1. In specific implementation, there may also be three or more snap-fit grooves 21.
[0081] The implementation principle of this application embodiment is as follows: by setting multiple snap-fit slots 21, the snap-fit position of the traction component 1 can be freely selected, thereby improving the practicality of the tea-water separation cup.
[0082] Example 4: This example provides a tea-water separator cup, as shown in the following figure. Figure 6 The difference between this embodiment and embodiment 1 is that the fixing component in this embodiment includes a buckle head 24 disposed on the edge of the cover 3 or the side of the cup 4, and the traction component 1 is provided with a plurality of buckle holes 25 with the same spacing. The buckle head 24 is used to insert into the buckle hole 25 to fix the traction component 1.
[0083] The implementation principle of this application embodiment is as follows: the traction component 1 is fixed by the snap-fit of the snap-fit head 24 and the snap-fit hole 25. At the same time, since the traction component 1 is provided with a number of snap-fit holes 25 with the same spacing, the fixed position of the traction component 1 can also be freely controlled, thereby freely adjusting the height of the tea canister 5.
[0084] Example 5: This example provides a tea-water separator cup, as shown in the following figure. Figure 7 The difference between this embodiment and embodiment 1 is that the fixing component in this embodiment also includes a winding post 26 disposed on the edge of the cover 3 or the side of the cup 4. The winding post 26 is used to wind and fix the traction component 1.
[0085] The implementation principle of this embodiment is as follows: the traction component 1 is fixed by wrapping it around the winding post 26. In the specific implementation process, since it is necessary to wrap and fix it, the traction component 1 in this embodiment cannot be a soft elastic rope, but needs to be a rigid rope.
[0086] Example 6: This example provides a tea-water separator cup, as shown in the following figure. Figure 8 The difference between this embodiment and Embodiment 1 is that the axial direction of the lifting part 11 in this embodiment intersects with the axial direction of the guide hole 31 to form an angle. Preferably, the lifting part 11 is perpendicular to the top of the traction component 1.
[0087] The implementation principle of this application embodiment is as follows: Since the lifting part 11 and the top of the traction component 1 form a certain angle, the lifting part 11 will be driven by gravity to naturally lower the traction component 1, without the need to manually adjust the position of the traction component 1.
[0088] Example 7: This example provides a tea-water separator cup, as shown in the following figure. Figure 9The difference between this embodiment and embodiment 1 is that the traction component 1 in this embodiment is provided with a sealing plug 13 below the guide hole 31. The sealing plug 13 can be inserted into the guide hole 31 to seal the guide hole 31.
[0089] The implementation principle of this application embodiment is as follows: the connection between the traction component 1 and the guide hole 31 is sealed by the sealing plug 13 to ensure the overall sealing of the cup.
[0090] Example 8: This example provides a tea-water separator cup, as shown in the following figure. Figure 10 The difference between this embodiment and Embodiment 1 is that the direct drinking assembly 32 in this embodiment further includes a first placement member 323 for placing the direct drinking port seal 322, and the first placement member 323 is located on one side of the direct drinking port 321. The straw assembly 33 further includes a second placement member 333 for placing the straw port seal 332, and the second placement member 333 is located on one side of the straw port 331. Meanwhile, in this embodiment, the guide hole 31 is provided with a third connecting member 311, the direct drinking port seal 322 is provided with a first connecting member 324, and the straw port seal 332 is provided with a second connecting member 334. Both the first connecting member 324 and the second connecting member 334 are connected to the third connecting member 311.
[0091] The implementation principle of this application embodiment is as follows: By providing a first placement member 323 for placing the drinking spout seal 322 and a second placement member 333 for placing the straw spout seal 332, it is convenient to store the drinking spout seal 322 and the straw spout seal 332 when the drinking spout 321 and the straw spout 331 are needed. Simultaneously, by connecting the guide holes 31 of the drinking spout seal 322 and the straw spout seal 332, the drinking spout seal 322 and the straw spout seal 332 are less likely to be lost, improving ease of use.
[0092] Example 9: This example provides a tea-water separator cup, as shown in the following figure. Figure 11 The difference between this embodiment and embodiment 1 is that in this embodiment, the direct drinking component 32 and the straw component 33 are located at the same end of the cover body 3 with the guide hole 31 as the center, and the direct drinking port seal 322 and the straw port seal 332 are connected by the fourth connector 335.
[0093] The implementation principle of this application embodiment is as follows: the direct drinking component 32 and the straw component 33 are located at the same end of the cover 3, making the design of the cover 3 more compact. The direct drinking port seal 322 and the straw port seal 332 are connected by the fourth connector 335, making the direct drinking port seal 322 and the straw port seal 332 less likely to be lost, thus improving the convenience of use.
[0094] Example 10: This example provides a tea-water separator cup, as shown in the following figure. Figure 12The difference between this embodiment and embodiment 8 is that the guide hole 31 in this embodiment is provided with a third connector 311, and the direct drinking port seal 322 is provided with a first connector 324, and the first connector 324 is connected to the third connector 311.
[0095] The implementation principle of this application embodiment is as follows: by connecting the straw opening seal 332 to the guide hole 31, the straw opening seal 332 is not easily lost, thus improving the convenience of use.
[0096] Example 11: This example provides a tea-water separator cup, as shown in the following figure. Figure 13 The difference between this embodiment and embodiment 8 is that the guide hole 31 in this embodiment is provided with a third connector 311, and the straw port seal 332 is provided with a second connector 334, and the second connector 334 is connected to the third connector 311.
[0097] The implementation principle of this application embodiment is as follows: by connecting the direct drinking port seal 322 to the guide hole 31, the direct drinking port seal 322 is not easily lost, thus improving the convenience of use.
[0098] The embodiments described in this specific implementation are preferred embodiments of this application and are not intended to limit the scope of protection of this application. Identical components are represented by the same reference numerals. Therefore, all equivalent changes made to the structure, shape, and principle of this application should be covered within the scope of protection of this application.
Claims
1. A tea-water separation structure, characterized in that, It includes a traction component (1), a guide hole (31) disposed on the cover (3) and a fixing component disposed on the cover (3). The bottom of the traction component (1) passes through the guide hole (31) and is connected to the tea container (5). The traction component (1) is used to drive the tea container (5) to move closer to or away from the cover (3). The fixing component is used to fix the traction component (1) to prevent the traction component (1) from free falling. The fixing component includes a fixing hole (22), which is connected to the guide hole (31), and the diameter of the guide hole (31) is larger than the diameter of the fixing hole (22). The guide hole (31) is used to guide the traction component (1) so that it can move up and down along the guide hole (31). The fixing hole (22) is used to fix the traction component (1) so that it is fixed in the fixing hole (22). Alternatively, the fixing component includes a buckle head (24) provided on the edge of the cover (3) or the side of the cup (4). The traction component (1) is provided with a plurality of buckle holes (25) with the same spacing. The buckle head (24) is used to insert into the buckle hole (25) to fix the traction component (1).
2. The tea-water separation structure according to claim 1, characterized in that, The fixing component also includes a limiting sleeve (23) nested outside the traction component (1). The limiting sleeve (23) is located on the upper surface of the traction component (1) near the cover (3). The outer diameter of the limiting sleeve (23) is larger than the diameter of the guide hole (31).
3. The tea-water separation structure according to claim 1, characterized in that, The traction component (1) is provided with a sealing plug (13) below the guide hole (31), and the sealing plug (13) can be inserted into the guide hole (31) to seal the guide hole (31).
4. The tea-water separation structure according to claim 1, characterized in that, The top of the traction component (1) is provided with a lifting part (11), and the maximum radial width of the lifting part (11) is greater than the diameter of the guide hole (31).
5. The tea-water separation structure according to claim 4, characterized in that, The axial direction of the lifting part (11) intersects with the axial direction of the guide hole (31) to form an angle.
6. A tea-water separation structure according to claim 1, characterized in that, The traction component (1) is a soft elastic rope.
7. The tea-water separation structure according to claim 6, characterized in that, The traction component (1) is a silicone rope.
8. A tea-water separator cup, characterized in that, It includes a cup body (4) and a lid (3), the cup body (4) is provided with a tea compartment (5) inside, the lid (3) is provided with a tea-water separation structure according to any one of claims 1-5, and the end of the traction component (1) is connected to the tea compartment (5).
9. A tea-water separator cup according to claim 8, characterized in that, The tea hopper (5) has a connecting hole (51) at the top, and the traction component (1) has a connecting part (12) at the bottom. The diameter of the upper surface of the connecting part (12) is larger than the diameter of the connecting hole (51). The connecting part (12) is used to insert into the connecting hole (51) so that the bottom of the traction component (1) is connected to the top of the tea container (5).
10. A tea-water separator cup according to claim 8, characterized in that, The cover (3) is also provided with a direct drinking component (32), which includes a direct drinking port (321) and a direct drinking port seal (322) for sealing the direct drinking port (321). One end of the direct drinking port seal (322) is rotatably connected to the cover (3).
11. A tea-water separator cup according to claim 10, characterized in that, The cover (3) is provided with a straw assembly (33), which includes a straw opening (331) and a straw opening seal (332) for sealing the straw opening (331). One end of the straw opening seal (332) is rotatably connected to the cover (3).
12. A tea-water separator cup according to claim 8, characterized in that, The cover (3) is provided with a drinking spout (321) and a straw spout (331), which are symmetrically arranged with the guide hole (31) as the center.
13. A tea-water separator cup according to claim 10, characterized in that, The direct drinking assembly (32) further includes a first placement member (323) for placing the direct drinking port seal (322), the first placement member (323) being located on one side of the direct drinking port (321).
14. A tea-water separator cup according to claim 11, characterized in that, The straw assembly (33) further includes a second placement member (333) for placing a straw opening seal (332), the second placement member (333) being located on one side of the straw opening (331).
15. A tea-water separator cup according to claim 11, characterized in that, The guide hole (31) is provided with a third connector (311), the drinking spout seal (322) is provided with a first connector (324), the straw spout seal (332) is provided with a second connector (334), and at least one of the first connector (324) and the second connector (334) is connected to the third connector (311).
16. A tea-water separator cup according to claim 11, characterized in that, The direct drinking port seal (322) and the straw port seal (332) are connected by a fourth connector (335).