A storage bottle cap assembly and bottled beverage

By adding a guide notch and a limiting structure to the top-mounted ejector, the problem of easy damage or blockage of the bottled beverage outlet is solved, and smooth mixing and rapid discharge of solvent are achieved.

CN224393435UActive Publication Date: 2026-06-23GUANGDONG HUIRUI JINGZHU TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG HUIRUI JINGZHU TECHNOLOGY CO LTD
Filing Date
2025-05-29
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The sealing structure of the discharge port of the storage chamber of existing bottled beverages is easily damaged or blocks the solvent from being discharged, resulting in incomplete or slow mixing.

Method used

Multiple material guide notches are added to the top-piercing guide part, and the top-piercing guide part is moved down to pierce the sealing part by rotating the cover body. Combined with the positioning part and the limiting rib to restrict the rotation, the solvent flows into the material guide channel from multiple positions.

Benefits of technology

It enables smooth solvent extraction, avoids damage to the sealing structure, and ensures rapid and thorough mixing.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the field of beverage container, especially a kind of storage bottle cap subassembly and bottled beverage, including accommodating body, lid and top spike guide piece;The accommodating body is equipped with storage cavity, the lower end of the storage cavity is discharge port, the discharge port is equipped with sealing portion, the upper side of the accommodating body is equipped with connecting end;The top spike guide piece is installed in the storage cavity, the outer periphery of the top spike guide piece is equipped with positioning portion, the upper end of the positioning portion is the docking portion matched with the second connecting portion, the lower end is the top spike portion opposite with the sealing portion, the top spike guide piece is also equipped with the guide channel that is penetrated to its lower side, the outer peripheral surface of the top spike portion and the docking portion is all equipped with the guide gap that is connected to the guide channel.The utility model adds multiple positions of guide gap on top spike guide piece, so that the solvent in storage cavity has more flow channel after top spike guide piece is pierced, so that guide is more smooth.
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Description

Technical Field

[0001] This utility model relates to the field of beverage containers, and in particular to a storage bottle cap assembly and bottled beverages. Background Technology

[0002] Bottled beverages are generally pre-mixed products. However, with market demand, some specialty beverages use separate solvents, requiring users to mix them before drinking to maintain their unique flavor. Therefore, for these beverages, bottle caps with storage chambers are designed. Before drinking, the outlet of the storage chamber is opened to allow the solvent inside to enter the liquid in the bottle for mixing. Currently, most solutions use a thin film to seal the outlet, which is then punctured by a piercing element before drinking. However, the film structure requires additional assembly after the storage chamber is manufactured, and the film structure is easily damaged during transportation. Existing solutions also use a rigid sheet molded into the outlet, which is more stable and less prone to breakage. However, this rigid sheet can easily adhere to the underside of the piercing element after it is pierced, hindering solvent flow and resulting in slower or incomplete mixing. Utility Model Content

[0003] The purpose of this invention is to provide a storage bottle cap assembly, which adds multiple material guiding notches on the top piercing guide, so that after the top piercing guide is pierced, the solvent in the storage cavity has more channels to flow out, making the discharge smoother.

[0004] To achieve the above objectives, the present invention adopts the following solution:

[0005] A storage bottle cap assembly includes a receiving body, a cap body, and a top-spiking guide;

[0006] The container is provided with a storage chamber, the lower end of the storage chamber is a discharge port, the discharge port is provided with a sealing part, and the upper side of the container is provided with a connecting end;

[0007] The cover has a first connecting portion connected to the connecting end and a second connecting portion disposed inside the first connecting portion;

[0008] The spiked guide is installed inside the storage cavity. A positioning part is provided on the outer periphery of the spiked guide. The upper end of the positioning part is a docking part that cooperates with the second connecting part, and the lower end is a spiked part that is opposite to the sealing part. The spiked guide is also provided with a material guiding channel that extends to its lower side. When the cover rotates, the spiked guide moves downward and pushes open the sealing part by cooperating with the second connecting part and the docking part. The outer periphery of the spiked part and the docking part are provided with material guiding notches that connect to the material guiding channel.

[0009] As described above, in a storage bottle cap assembly, the material guiding notch includes multiple notches, wherein the multiple material guiding notches located on the outer peripheral surface of the spike portion constitute a first material guiding port group, and the multiple material guiding notches located on the outer peripheral surface of the docking portion constitute a second material guiding port group.

[0010] In the storage bottle cap assembly described above, the first feed inlet group consists of multiple elongated notches that extend vertically.

[0011] As described above, in a storage bottle cap assembly, the second feed port group includes a plurality of transverse notches disposed on the same horizontal circumference and a strip-shaped notch extending vertically, wherein the transverse notches are close to the positioning part.

[0012] In the storage bottle cap assembly described above, the lower end face of the spike is an inclined guide surface, and one side forms a downward-protruding tip.

[0013] In the storage bottle cap assembly described above, the guide surface is further provided with a protruding limiting block on the side opposite the tip.

[0014] As described above, in a storage bottle cap assembly, the positioning part includes a plurality of positioning claws located on the outer periphery of the top piercing guide and extending outward, and the inner peripheral wall of the storage cavity is provided with a plurality of vertically extending limiting ribs, and the same side of the plurality of limiting ribs is an oblique guide part.

[0015] As described above, in a storage bottle cap assembly, the outer peripheral surface of the accommodating body is further provided with a mounting portion for connecting to the bottle opening.

[0016] This utility model also provides a bottled beverage, including a bottle body, the bottle mouth of which is equipped with the above-mentioned storage cap assembly, and the storage cavity of the container is provided with a liquid or solid beverage medium.

[0017] In summary, the advantages of this utility model over the prior art are:

[0018] This utility model provides a storage bottle cap assembly, which seals the storage cavity through the cap body and the sealing part. Driven by the rotation of the cap body, the top-piercing guide moves down and pierces the sealing part, thereby allowing the solvent in the storage cavity to be discharged. In addition, this solution also adds a discharge channel inside the top-piercing guide, so that even if the top-piercing guide occupies the outlet, the solvent can still flow out from the guide channel. Moreover, in order to further ensure the discharge of solvent, this solution has guide notches on the periphery of the top-piercing guide, including the upper and lower sides of the positioning part, so that the solvent inside the storage cavity can flow into the guide channel from multiple positions. Attached Figure Description

[0019] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of a storage bottle cap assembly according to the present invention;

[0021] Figure 2 for Figure 1 Diagram showing the aftermath of the puncture;

[0022] Figure 3 for Figure 1 Exploded view;

[0023] Figure 4 A schematic diagram of a spiked component;

[0024] Figure 5 for Figure 1 Corresponding internal cross-sectional view;

[0025] Figure 6 for Figure 2 Corresponding internal cross-sectional view;

[0026] Figure 7 This is a schematic diagram of the interior of the container;

[0027] Figure 8 This is a schematic diagram showing the ejected state and the mating of the sealing part. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0029] like Figures 1 to 8 As shown, this utility model provides a storage bottle cap assembly, including a container 1, a cap 2, and a top-mounted guide 3; the container 1 is provided with a storage cavity 101, the lower end of the storage cavity 101 is a discharge port, the discharge port is provided with a sealing part 11, and the upper side of the container 1 is provided with a connecting end 12; in use, solvent is stored through the storage cavity 101 of the container 1, and the storage cavity is sealed by the cap and the sealing part, thereby achieving the effect of sealed storage.

[0030] Specifically, the spiked guide 3 is installed in the storage cavity 101. The outer periphery of the spiked guide 3 is provided with a positioning part 32. The upper end of the positioning part 32 is a docking part 33 that cooperates with the second connecting part 22, and the lower end is a spiked part 31 that is opposite to the sealing part 11. The spiked guide 3 is also provided with a guide channel 301 that extends to its lower side. When the cover 2 rotates, the spiked guide 3 moves downward and pushes open the sealing part 11 by cooperating with the second connecting part 22 and the docking part 33. The outer periphery of the spiked part 31 and the docking part 33 are provided with guide notches 302 that communicate with the guide channel 301. Driven by the rotation of the cover, the ejector pin moves down and pierces the sealing part, allowing the solvent in the storage chamber to be discharged. In addition, this solution adds a discharge channel inside the ejector pin, so that even if the ejector pin occupies the outlet, the solvent can still flow out from the discharge channel. Furthermore, in order to further ensure the discharge of solvent, this solution provides discharge notches on the periphery of the ejector pin, including the upper and lower sides of the positioning part, so that the solvent inside the storage chamber can flow into the discharge channel from multiple positions.

[0031] Furthermore, the cap 2 described in this solution has a first connecting part 21 connected to the connecting end 12 and a second connecting part 22 located inside the first connecting part 21. Preferably, the first connecting part 21 and the second connecting part 22 are threaded connections, so that when the user unscrews the cap normally, the piercing guide 3 can be moved. Of course, there are various matching structures that can move the piercing guide 3. For example, in this solution, the second connecting part 22 is threadedly engaged with the mating part 33, and the positioning part 32 restricts the piercing guide 3 from rotating in the storage cavity 101. In this way, when the second connecting part 22 rotates and engages with the mating part 33, the piercing guide 3 can be forced to move downward, thereby achieving the piercing effect.

[0032] Specifically, the positioning part 32 of this solution includes a plurality of positioning claws located on the outer periphery of the top spike guide 3 and extending outward. The inner peripheral wall of the storage cavity 101 is provided with a plurality of vertically extending limiting ribs 1011. In this way, when the positioning claws abut against the corresponding limiting ribs 1011, the positioning claws can be restricted from continuing to rotate, thereby preventing the top spike guide 3 from rotating in one direction within the storage cavity 101. When the cover continues to rotate, it forces the top spike guide 3 to move.

[0033] To facilitate installation, the ejector pin 3 can rotate in another direction within the storage cavity 101, and the same side of the multiple limiting ribs 1011 forms an oblique guide. Since the ejector pin 3 is generally made of elastic materials such as plastic, when rotating in the other direction, the positioning claw abuts against the oblique guide. Due to the oblique surface effect, only a slight force is needed to rotate the ejector pin 3. This allows the ejector pin 3 to rotate with the cover or not affect the cover's rotation during installation or tightening.

[0034] Preferably, this solution has at least four positioning claws, which are distributed at 90° on the outer circumference. Similarly, four limiting ribs 1011 are also provided, and the limiting ribs 1011 extend at least to the height of the positioning part 32 in the storage cavity.

[0035] This solution allows the solvent in the storage cavity to be smoothly discharged by adding multiple material guiding notches 302 on the outer periphery of the top-piercing part 3. Specifically, there are multiple material guiding notches 302, wherein the multiple material guiding notches 302 located on the outer periphery of the top-piercing part 31 constitute the first material guiding port group, and the multiple material guiding notches 302 located on the outer periphery of the docking part 33 constitute the second material guiding port group.

[0036] Furthermore, the first guide port group consists of multiple elongated notches extending vertically, and the second guide port group includes multiple transverse notches 3021 and vertically extending strip-shaped notches 3022 located on the same horizontal circumference. The transverse notches 3021 are close to the positioning part 32. Particularly noteworthy is the addition of multiple notches on the upper docking part 33. After piercing, the ejector pin 3 moves downwards as a whole. Thus, the docking part 33, originally located near the upper part of the storage cavity, generally moves to near the middle of the storage cavity. After this downward movement, the solvent is discharged through the notches on the outer periphery of the docking part 33. Compared to notches only on the outer periphery of the ejector pin 31, the notch positions in this design are more reasonable, aligning with the position of the ejector pin 3 in the storage cavity after movement, thereby optimizing the discharge of internal solvent.

[0037] Furthermore, the lower end face of the piercing part 31 in this design is an inclined guide surface, forming a downward-protruding tip on one side. This single tip has greater pressure to pierce the sealing part from one side, allowing normal operation even if the sealing part is made of a hard sheet, and requiring minimal force to open, making it convenient for the user. As an optimization, this design also includes a protruding limiting block 30 on the side of the guide surface opposite the tip. Since the sealing part, i.e., the hard sheet, after being opened from one side, is still hinged to the outlet on the other side, the elasticity of the hard sheet causes it to approach the lower end of the piercing part 31, thus sealing the lower opening of the material guide channel. This would hinder solvent discharge. This design, by adding the limiting block 30, opens the hard sheet, ensuring a gap between it and the material guide channel, thereby not affecting discharge.

[0038] Of course, in order to fit and be installed on the bottle, the outer peripheral surface of the accommodating body 1 is also provided with a mounting part 19 for connecting with the bottle mouth. The mounting part 19 is a threaded mounting part that mates with the bottle mouth.

[0039] This utility model also provides a bottled beverage, including a bottle body, on which a storage cap assembly as described above is installed, and the storage cavity 101 of the accommodating body 1 contains a liquid or solid beverage medium. Since the bottled beverage also uses the aforementioned storage cap assembly, it has the same beneficial effects.

[0040] This utility model provides a storage bottle cap assembly, which seals the storage cavity through the cap body and the sealing part. Driven by the rotation of the cap body, the top-piercing guide moves down and pierces the sealing part, thereby allowing the solvent in the storage cavity to be discharged. In addition, this solution also adds a discharge channel inside the top-piercing guide, so that even if the top-piercing guide occupies the outlet, the solvent can still flow out from the guide channel. Moreover, in order to further ensure the discharge of solvent, this solution has guide notches on the periphery of the top-piercing guide, including the upper and lower sides of the positioning part, so that the solvent inside the storage cavity can flow into the guide channel from multiple positions.

[0041] The foregoing has shown and described the basic principles and main features of this utility model, as well as its advantages. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A storage bottle cap assembly, characterized in that, It includes a container (1), a cover (2), and a spiked guide (3); The accommodating body (1) is provided with a storage chamber (101), the lower end of the storage chamber (101) is a discharge port, the discharge port is provided with a sealing part (11), and the upper side of the accommodating body (1) is provided with a connecting end (12). The cover (2) has a first connecting part (21) connected to the connecting end (12) and a second connecting part (22) disposed inside the first connecting part (21); The spiked guide (3) is installed in the storage cavity (101). The spiked guide (3) has a positioning part (32) on its outer periphery. The upper end of the positioning part (32) is a docking part (33) that cooperates with the second connecting part (22), and the lower end is a spiked part (31) that is opposite to the sealing part (11). The spiked guide (3) also has a guide channel (301) that extends through to its lower side. When the cover (2) rotates, the spiked guide (3) moves downward and pushes open the sealing part (11) through the cooperation of the second connecting part (22) and the docking part (33). The spiked part (31) and the docking part (33) both have guide notches (302) that connect to the guide channel (301).

2. The storage bottle cap assembly according to claim 1, characterized in that, The material guide notch (302) includes a plurality of notches, wherein the plurality of material guide notches (302) located on the outer peripheral surface of the spike portion (31) constitutes a first material guide port group, and the plurality of material guide notches (302) located on the outer peripheral surface of the docking portion (33) constitutes a second material guide port group.

3. A storage bottle cap assembly according to claim 2, characterized in that, The first feed inlet group consists of multiple elongated notches that extend vertically.

4. A storage bottle cap assembly according to claim 3, characterized in that, The second feed port group includes a plurality of transverse notches (3021) provided on the same horizontal circumference and a strip-shaped notch (3022) extending vertically, wherein the transverse notches (3021) are close to the positioning part (32).

5. A storage bottle cap assembly according to claim 4, characterized in that, The lower end face of the spike (31) is an inclined guide surface, and one side forms a downward protruding tip.

6. A storage bottle cap assembly according to claim 5, characterized in that, The guide surface is also provided with a protruding limiting block (30) on the side opposite to the tip.

7. A storage bottle cap assembly according to claim 1, characterized in that, The positioning part (32) includes a plurality of positioning claws located on the outer periphery of the top piercing guide (3) and extending outward. The inner peripheral wall of the storage cavity (101) is provided with a plurality of vertically extending limiting ribs (1011), and the same side of the plurality of limiting ribs (1011) is an oblique guide part.

8. A storage bottle cap assembly according to claim 7, characterized in that, The outer peripheral surface of the accommodating body (1) is also provided with a mounting part (19) for connecting with the bottle mouth.

9. A bottled beverage, characterized in that, The container includes a bottle body, on which a storage cap assembly as described in any one of claims 1-8 is installed, and the storage cavity (101) of the accommodating body (1) contains a liquid or solid beverage medium.