A single material 100% recyclable alternative container of detachable design

By designing a detachable, 100% recyclable and replaceable container made of a single material, the problem of easily damaged cosmetic container lids has been solved, achieving product durability and environmental friendliness, and improving user experience and recycling efficiency.

CN224409979UActive Publication Date: 2026-06-26SHANGHAI CHEERMORE IND DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI CHEERMORE IND DEV CO LTD
Filing Date
2025-06-23
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

After prolonged use, the lids of existing cosmetic containers tend to turn white or break, causing the entire bottle of product to leak, resulting in waste and rendering the product unusable.

Method used

A detachable, single-material, 100% recyclable and replaceable container has been designed. It adopts a split or one-piece structure, and the slanted design enables one-handed operation. Combined with double-layer buckles and replacement points, it facilitates the replacement of the inner liner and bottle cap.

Benefits of technology

It extends the product's lifespan, reduces waste, saves costs, facilitates environmentally friendly recycling, and enhances the product's durability and aesthetics.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224409979U_ABST
    Figure CN224409979U_ABST
Patent Text Reader

Abstract

The utility model discloses a single material 100% recyclable replacement type container of detachable design relates to cosmetic container technical field, including first outer bottle, spoon and first bottle cap, the first outer bottle top opening place inserts and has first inner bottle, this single material 100% recyclable replacement type container of detachable design is weak to the bending of bow form's flip cover structure relatively, long -term use can influence function, especially in the express delivery package loss process, or accidentally fall inevitably can cause bow function place damage's shortcoming, this patent does not change the existing bow form, designs the bottle cap scheme of dismounting replacement, can maximum degree guarantee the normal use of product, greatly prolongs product use cycle, does not need to send the whole bottle product, is energy -conserving and environment -friendly also greatly reduces the after -sales cost, and the replacement mode of inner bag is also very convenient, just need to open the flip cover, and the replacement action can be completed to the inner bag of light rotation.
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Description

Technical Field

[0001] This utility model relates to the field of cosmetic container technology, specifically a detachable, single-material, 100% recyclable and replaceable container. Background Technology

[0002] When storing various cosmetics (such as creams, primers, etc.), cosmetic containers are needed. These generally consist of a bottle and a bow-shaped cap that covers the top of the bottle. When using the product, the user usually opens the cap first, then uses a spoon to scoop an appropriate amount of cosmetic from the bottle, and then applies the cosmetic to the face.

[0003] Conventional bow-shaped caps, whether detachable or integral, are ultimately integrated with the bottle body. Over extended periods of use, the bow area is prone to whitening or breakage. If it cracks, the entire bottle is likely to leak, rendering it unusable and resulting in waste. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a detachable, single-material, 100% recyclable and replaceable container, solving the problems mentioned in the background section.

[0005] To achieve the above objectives, this utility model is implemented through the following technical solution: a detachable, single-material, 100% recyclable and replaceable container, comprising a first outer bottle, a spoon, and a first cap, characterized in that: a first inner bottle is inserted into the top opening of the first outer bottle, a first inner liner is placed at the opening of the first inner bottle, the top of the first inner liner is located above the first inner bottle, a first easy-tear sealing film is provided at the top opening of the first inner liner, a button is installed on the inner side of the first inner liner, a bow buckle is installed at one end of the first cap, a bevel is provided on the inner wall of the first outer bottle, the first cap is secured to the first outer bottle by the bow buckle and the button, and an R-angle is provided on the outer side of the first cap and the outer side of the bottom end of the first outer bottle. Through the bevel design, the disassembly action, which originally required two hands, can be easily performed with one hand. Without the bevel design, a continuous pressing action is required to remove the replacement cap.

[0006] Preferably, a scooping spoon clip is fixedly connected to the inner wall of the first bottle cap, and the spoon is placed inside the first bottle cap through the scooping spoon clip.

[0007] Preferably, a step for placing a spoon is provided on the inner side of the opening at the top of the first inner liner, and the spoon can also be placed on the step.

[0008] Preferably, the inner side of the first outer bottle is provided with an anti-detachment groove, and the outer side of the first inner bottle is provided with a first anti-detachment buckle that cooperates with the anti-detachment groove. The first anti-detachment buckle is prevented from falling off by the cooperation of the anti-detachment groove and the first anti-detachment buckle, and the second anti-detachment buckle is cooperated with the anti-detachment point.

[0009] Preferably, a second anti-detachment buckle is installed at the bottom of the inner wall of the first outer bottle, and an anti-detachment locking point that cooperates with the second anti-detachment buckle is fixedly connected to the bottom of the first inner bottle.

[0010] Preferably, the inner wall of the first outer bottle is provided with a plurality of rib grooves, the outer side of the first inner bottle is fixedly connected with positioning ribs that cooperate with the rib grooves, the outer side of the first inner liner is fixedly connected with a plurality of replacement locking points, and the inner wall of the first inner bottle is provided with replacement locking slots that cooperate with the replacement locking points. The replacement locking points and replacement locking slots can limit the installation of the first inner liner in the first inner bottle, and the positioning ribs and rib grooves facilitate the assembly of the first inner bottle and the first outer bottle.

[0011] This utility model provides a detachable, single-material, 100% recyclable and replaceable container with the following advantages:

[0012] 1. This detachable, 100% recyclable and replaceable container made of a single material features an easily adjustable outer bottle design that enhances the product's aesthetics. Adding or adjusting rounded corners not only improves the design but also significantly enhances the product's functionality. The rounded corners release stress in the injection-molded corners, improving durability. A replacement cap design is included without altering the existing bow shape, maximizing product usability and extending its lifespan. It eliminates the need for complete bottle replacements, saving energy, protecting the environment, and greatly reducing after-sales costs. Replacing the inner liner is also very convenient; simply open the flip-top and gently twist the inner liner to complete the replacement.

[0013] 2. This detachable, 100% recyclable and replaceable container made of a single material offers two assembly structures: a lid-separate design, a lid-bottle-integrated design, and an integrated single-layer lid-bottle-integrated design with extremely low plasticity. It can be used according to design needs. Attached Figure Description

[0014] Figure 1 A schematic diagram of the inner bottle assembly structure from top to bottom, showing the separate design of the outer bottle and cap of this utility model;

[0015] Figure 2 This utility model Figure 1 A schematic diagram of the three-dimensional structure;

[0016] Figure 3 This is a schematic diagram of the structure of the first inner bottle, the first outer bottle, and the first bottle cap of this utility model;

[0017] Figure 4 This is a schematic diagram of the structure of this utility model when it is opened;

[0018] Figure 5 This utility model Figure 4 Enlarged view of point A;

[0019] Figure 6 This utility model Figure 4 Enlarged view of point B;

[0020] Figure 7 This utility model Figure 4 Enlarged view of point C;

[0021] Figure 8 This is a schematic diagram of the structure of the buckle of this utility model when it deforms and disengages from the buckle position and hits the inclined surface;

[0022] Figure 9 This is a schematic diagram of the structure of the present invention when the button is pressed, the latch moves upward along the inclined surface, and the latch easily disengages from the top cover.

[0023] Figure 10 This is a schematic diagram of the structure of the present utility model, which features a separate outer bottle and cap design and an inner bottle assembled from the bottom up.

[0024] Figure 11 This is a schematic diagram of the structure of the second outer bottle and the second bottle cap of this utility model;

[0025] Figure 12 This utility model Figure 10 Enlarged view of point D;

[0026] Figure 13 This utility model Figure 10 Enlarged view of point E;

[0027] Figure 14 This utility model Figure 10 Enlarged view at point F;

[0028] Figure 15 This is a schematic diagram of the structure of the second inner bottle and the second outer bottle of this utility model;

[0029] Figure 16 This utility model features an integrated design for the outer bottle and cap, with the inner bottle assembled from the bottom upwards (structural diagram).

[0030] Figure 17 This is a structural diagram of the first integrated bottle body and cap of this utility model;

[0031] Figure 18 This utility model features an integrated design for the outer bottle and cap, with the inner bottle assembled from top to bottom.

[0032] Figure 19 This is a diagram of the single-layer structure of the cap and bottle body of this utility model;

[0033] Figure 20 The diagram shows the integrated design of the outer bottle and cap of this utility model, with the third scoop inserted after rotation.

[0034] Figure 21 This is a schematic diagram of the structure of the third digging spoon of the lid placed at the step of the third inner bottle mouth and the structure of the third digging spoon during the rotation and insertion process of the lid of this utility model.

[0035] Figure 22 This is a structural diagram of the third digging spoon being rotated and inserted, and the third digging spoon being placed inside the third inner bottle.

[0036] Figure 23 This is a structural diagram of the third scraper of this utility model scraping material inside the third inner bottle.

[0037] In the diagram: 1. First outer bottle; 2. First inner bottle; 3. Spoon; 4. First inner liner; 5. First easy-tear sealing film; 6. Replacement locking point; 7. Replacement slot; 8. Button; 9. Positioning rib; 10. Rib groove; 11. Bow tie buckle; 12. Placement step; 13. Sloping surface; 14. Spoon buckle; 15. Anti-detachment slot; 16. First anti-detachment buckle; 17. Second anti-detachment buckle; 18. Anti-detachment locking point; 19. Second outer bottle; 20. Second inner bottle; 21. Second inner liner; 22. Lid buckle; 23. Second slot; 24. Buckle groove; 25. Inner bottle buckle point; 26. Airtight section; 27. Bow tie. 28. Positioning block; 29. ​​First positioning groove; 30. Positioning point; 31. Second positioning groove; 32. First integrated bottle body and cap structure; 33. Third inner bottle; 34. Third inner liner; 35. Second integrated bottle body and cap structure; 36. Fourth inner bottle; 37. Fourth inner liner; 38. Second easy-tear sealing film; 39. Third integrated outer bottle cap structure; 40. Third easy-tear sealing film; 41. Fifth inner liner; 43. First bottle cap; 44. Second bottle cap; 45. Third slot; 46. Fourth integrated outer bottle cap structure; 47. Third inner bottle; 48. Rotating slot; 49. Third scoop; 50. Fourth easy-tear sealing film. Detailed Implementation

[0038] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0039] Option 1: The outer bottle and cap are designed as separate units, with the inner bottle assembled from top to bottom;

[0040] Please see Figures 1 to 9A detachable, single-material, 100% recyclable and replaceable container includes a first outer bottle 1, a spoon 3, and a first cap 43. A first inner bottle 2 is inserted into the top opening of the first outer bottle 1, and a first inner liner 4 is placed in the opening of the first inner bottle 2. The top of the first inner liner 4 is located above the first inner bottle 2. A first easy-tear sealing film 5 is provided at the top opening of the first inner liner 4. A button 8 is installed on the inside of the first inner liner 4. A bow buckle 11 is installed at one end of the first cap 43. A bevel 13 is provided on the inner wall of the first outer bottle 1. The first cap 43 is attached to the first outer bottle 1 by the bow buckle 11 and the button 8. The outer side of the first cap 43 and the outer side of the bottom of the first outer bottle 1 are provided with R-angles. The bevel 13 design makes the disassembly action, which originally required two hands, very easy to achieve with one hand. Without the bevel 13 design, a continuous pressing action would be required to pull out the replacement cap.

[0041] A scooping spoon buckle 14 is fixedly connected to the inner wall of the first bottle cap 43, and the spoon 3 is placed inside the first bottle cap 43 through the scooping spoon buckle 14.

[0042] The inner side of the top opening of the first inner liner 4 is provided with a placement step 12 for placing the spoon 3, and the spoon 3 can also be placed on the placement step 12.

[0043] The inner side of the first outer bottle 1 is provided with an anti-detachment groove 15, and the outer side of the first inner bottle 2 is provided with a first anti-detachment buckle 16 that cooperates with the anti-detachment groove 15. The first inner bottle 2 is prevented from falling off by the cooperation of the anti-detachment groove 15 and the first anti-detachment buckle 16, and the cooperation of the second anti-detachment buckle 17 and the anti-detachment locking point 18.

[0044] The bottom of the inner wall of the first outer bottle 1 is equipped with a second anti-detachment buckle 17, and the bottom of the first inner bottle 2 is fixedly connected with an anti-detachment locking point 18 that cooperates with the second anti-detachment buckle 17.

[0045] The inner wall of the first outer bottle 1 has several rib grooves 10. The outer side of the first inner bottle 2 is fixedly connected with positioning ribs 9 that cooperate with the rib grooves 10. The outer side of the first inner liner 4 is fixedly connected with several replacement locking points 6. The inner wall of the first inner bottle 2 has replacement locking slots 7 that cooperate with the replacement locking points 6. The replacement locking points 6 and replacement locking slots 7 can limit the installation of the first inner liner 4 in the first inner bottle 2. The positioning ribs 9 and rib grooves 10 facilitate the assembly of the first inner bottle 2 and the first outer bottle 1.

[0046] In summary, this detachable, 100% recyclable and replaceable container made of a single material is used by opening the first cap 43 from the top of the first outer bottle 1, then tearing off the first sealing film 5 from the top opening of the first inner liner 4, then using the spoon 3 to scoop out the cream from inside the first inner liner 4, and then closing the first cap 43.

[0047] When it is necessary to replace the first inner liner 4, the first inner liner 4 is removed from the inside of the first outer bottle 1, thereby replacing the first inner liner 4.

[0048] When the first bottle cap 43 needs to be replaced, press button 8 to deform the bow buckle 11 and disengage it. The bow buckle 11 touches the inclined surface 13. Press button 8 again to make the bow buckle 11 move upward along the inclined surface 13, so that the bow buckle 11 disengages and the first bottle cap 43 can be easily removed for replacement.

[0049] Option 2: The outer bottle and cap are designed as separate units, with the inner bottle assembled from the bottom up;

[0050] Please see Figures 10 to 15 The container consists of a second inner bottle 20, a second inner liner 21, a second outer bottle 19, a spoon 3, a first easy-tear sealing film 5, and a second bottle cap 44. The second inner bottle 20 is inserted into the bottom opening of the second outer bottle 19, and the second inner liner 21 is inserted into the top opening of the second inner bottle 20. The top of the second inner liner 21 is located above the top of the second inner bottle 20. The first easy-tear sealing film 5 is provided at the top opening of the second inner liner 21. A spoon clip 14 is fixedly connected to the inner wall of the second bottle cap 44, and the spoon 3 is placed inside the second bottle cap 44 through the spoon clip 14. A clip groove 24 is opened on the inner side of the second outer bottle 19, and a clip groove is fixedly connected to the outer side of the bottom of the second inner bottle 20. The inner bottle has a locking point 25 that matches the second bottle 24. The top of the second outer bottle 19 has a first positioning groove 28. A bow positioning block 27 is inserted into the first positioning groove 28. A second bottle cap 44 is installed at one end of the bow positioning block 27. A box cap buckle 22 is fixedly connected to the bottom of the second bottle cap 44. A second slot 23 that matches the box cap buckle 22 is fixedly connected to the top of the second outer bottle 19 away from the bow positioning block 27. An airtight part 26 is formed between the second bottle cap 44 and the second inner liner 21. A positioning point 29 is provided on the outside of the second inner bottle 20. A second positioning groove 30 that matches the positioning point 29 is provided on the inner wall of the second outer bottle 19.

[0051] The second bottle cap 44 is fastened to the top of the second outer bottle 19 by the lid buckle 22 and the second slot 23. The second inner bottle 20 is fastened inside the second outer bottle 19 by the buckle groove 24 and the second slot 23. The second inner bottle 20 is positioned inside the second outer bottle 19 by the positioning point 29 and the second positioning groove 30.

[0052] Option 3: The cap and bottle are designed as a single unit, with the inner bottle assembled from the bottom up;

[0053] Please see Figures 16 to 17The container is composed of a first bottle body and cap integrated structure 31, a third inner bottle 32 and a third inner liner 33. The third inner bottle 32 is inserted into the bottom opening of the first bottle body and cap integrated structure 31, and the third inner liner 33 is inserted into the top opening of the third inner liner 33. A third slot 45 is provided on the inner wall of the bottle body in the first bottle body and cap integrated structure 31, and a replacement slot that cooperates with the third slot 45 is provided on the outer wall of the third inner liner 33 for replacing the third inner liner 33.

[0054] Option 4: The outer bottle and cap are designed as a single unit, with the inner bottle assembled from top to bottom;

[0055] Please see Figure 18 The container is composed of a second bottle body and cap integrated structure 35, a fourth inner bottle 36, a fourth inner liner 37 and a second sealing easy-tear film 38. The fourth inner bottle 36 is inserted into the top opening of the second bottle body and cap integrated structure 35, the fourth inner liner 37 is inserted into the top opening of the fourth inner bottle 36, and the second sealing easy-tear film 38 is provided at the top opening of the fourth inner liner 37.

[0056] Option 5: Single-layer structure with one-piece cap and bottle body;

[0057] Please see Figure 19 The container consists of a third outer bottle cap integrated structure 39, a fifth inner liner 41, a third sealing easy-tear film 40, and a spoon 3. The fifth inner liner 41 is inserted into the top opening of the third outer bottle cap integrated structure 39, and the third sealing easy-tear film 40 is set at the top opening of the fifth inner liner 41. The spoon 3 is installed on the inner wall of the bottle cap on the third outer bottle cap integrated structure 39. The entire product consists of only four parts, and the product is extremely plastic-reduced, thereby saving costs and being energy-saving and environmentally friendly.

[0058] Option 6: Single-layer structure with one-piece cap and bottle body;

[0059] Please see Figures 20 to 23 The container is composed of a fourth outer bottle cap integrated structure (46), a third inner bottle (47), a rotating slot (48), a third scoop (49), and a fourth sealing easy-tear film (50). The fourth outer bottle cap integrated structure (46) has two rotating slots (48) fixedly connected to the inner side of the bottle cap. The third scoop (49) is inserted into the two rotating slots (48). The third scoop (49) can be placed in any direction at the bottle mouth step of the third inner bottle (47). The third scoop (49) can be rotated and inserted into the two rotating slots (48) of the flip-top. The third scoop (49) can be placed in any direction in the space of the third inner bottle (47). The third scoop (49) can be inserted into the material when the bottle is full and can be taken out very easily without falling sideways to the bottom of the bottle.

[0060] In the digging state, the third digging spoon (49) is in close contact with the entire circumference side wall and bottom of the third inner bottle (47), and this structural design makes it easy to dig the material clean.

[0061] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A single material 100% recyclable replaceable container of detachable design comprising a first outer bottle (1), a spoon (3) and a first bottle cap (43), characterized in that: The first inner bottle (2) is inserted into the top opening of the first outer bottle (1). The first inner liner (4) is placed in the opening of the first inner bottle (2). The top of the first inner liner (4) is located above the first inner bottle (2). The top opening of the first inner liner (4) is provided with a first sealing easy-tear film (5). A button (8) is installed on the inside of the first inner liner (4). A bow buckle (11) is installed at one end of the first bottle cap (43). The inner wall of the first outer bottle (1) is provided with a slope (13). The first bottle cap (43) is connected to the first outer bottle (1) by the bow buckle (11) and the button (8). The outer side of the first bottle cap (43) and the outer side of the bottom end of the first outer bottle (1) are provided with an R angle.

2. The detachable, single-material, 100% recyclable and replaceable container according to claim 1, characterized in that: The inner wall of the first bottle cap (43) is fixedly connected with a scooping spoon buckle (14), and the spoon (3) is placed inside the first bottle cap (43) through the scooping spoon buckle (14).

3. The detachable, single-material, 100% recyclable and replaceable container according to claim 1, characterized in that: The first inner liner (4) has a placement step (12) for placing a spoon (3) on the inner side of the top opening.

4. A detachable, single-material, 100% recyclable and replaceable container according to claim 1, characterized in that: The first outer bottle (1) has an anti-detachment groove (15) on its inner side, and the first inner bottle (2) has a first anti-detachment buckle (16) that cooperates with the anti-detachment groove (15) on its outer side.

5. A detachable, single-material, 100% recyclable and replaceable container according to claim 1, characterized in that: The bottom of the inner wall of the first outer bottle (1) is equipped with a second anti-detachment buckle (17), and the bottom of the first inner bottle (2) is fixedly connected with an anti-detachment locking point (18) that cooperates with the second anti-detachment buckle (17).

6. A detachable, single-material, 100% recyclable and replaceable container according to claim 1, characterized in that: The inner wall of the first outer bottle (1) is provided with several rib grooves (10), the outer side of the first inner bottle (2) is fixedly connected with positioning ribs (9) that cooperate with the rib grooves (10), the outer side of the first inner liner (4) is fixedly connected with several replacement locking points (6), and the inner wall of the first inner bottle (2) is provided with replacement locking grooves (7) that cooperate with the replacement locking points (6).