Drop-resistant oral liquid storage bottle

By incorporating a multi-level cushioning system and drop-proof components into the oral liquid storage bottle, the problem of bottle breakage upon drop is solved, achieving highly efficient drop protection and enhancing safety and user experience.

CN224466400UActive Publication Date: 2026-07-07西藏邦臣药业集团有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
西藏邦臣药业集团有限公司
Filing Date
2025-07-22
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing oral liquid storage bottles lack shock-proof components when accidentally dropped, which can easily lead to bottle breakage, liquid leakage, and poor performance.

Method used

A multi-level physical buffer system is constructed using an upper outer buffer layer and a lower outer buffer layer. Combined with a wavy rubber protrusion strip and a thickened annular flange to protect the storage bottle, a flexible adsorption platform is designed to absorb and disperse the impact energy of the drop, enhancing the bottle's anti-drop performance.

Benefits of technology

Significantly reduces the risk of storage bottle breakage, improves safety during transportation, carrying and use, and ensures bottle integrity and user convenience.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224466400U_ABST
    Figure CN224466400U_ABST
Patent Text Reader

Abstract

The utility model discloses an oral liquid storage bottle of preventing falling relates to the technical field of storage bottle, including the storage bottle bottle body, the storage bottle bottle body top is equipped with the neck, the neck top cover is equipped with the bottle cap, the storage bottle bottle body outer wall is equipped with the anti -falling subassembly for realizing the anti -falling performance, the anti -falling subassembly includes the upper and lower distribution's upper outer buffer layer and lower outer buffer layer. The utility model discloses through upper outer buffer layer, lower outer buffer layer, first wave -shaped rubber convex strip and second wave -shaped rubber convex strip strengthen the impact area of storage bottle bottle body side wall and the thickening annular flange protection storage bottle bottle body bottle mouth area, has built multistage physical buffer system, can high -efficient absorption and dispersion when each angle's impact energy of falling, significantly reduces the risk of rupture of storage bottle bottle body, and the safety in the process of product transportation, carrying and use is greatly promoted, thereby realizes the anti -falling performance, and improved safety protection, user experience convenience.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of storage bottle technology, specifically to a drop-proof oral liquid storage bottle. Background Technology

[0002] Oral liquid storage bottles are small, airtight containers specifically designed for holding, storing, and dispensing liquid medicines (such as oral liquids, syrups, etc.). They are typically made of glass or medical-grade plastic and have a standard neck to match the tamper-evident cap.

[0003] For example, Chinese patent application CN202122320838.7 discloses an oral liquid bottle with a storage device, comprising: an outer shell of the oral liquid bottle and a first liquid storage chamber disposed in the center of the outer shell of the oral liquid bottle. A sealing cap is disposed above the first liquid storage chamber, and a storage cavity is disposed in the upper half of the sealing cap. A flip-top is disposed above the storage cavity. The flip-top rotates and opens and closes around a pivot under the action of an opening and closing control unit. A second liquid storage chamber is disposed between the outer shell of the oral liquid bottle and the first liquid storage chamber. A groove is disposed on the upper surface of the outer shell of the oral liquid bottle. A receiving cavity is opened on the left side of the second liquid storage chamber, and a straw is placed inside the receiving cavity. An injection hole is opened on the right side of the groove, through which liquid can be injected into the second liquid storage chamber. This can achieve the purpose of storing liquids or solids, and can also store straws, greatly improving the convenience of carrying.

[0004] However, in actual use, the device lacks anti-drop components when it is accidentally dropped, which can easily cause the storage bottle to break, resulting in liquid leakage. This makes it impossible to ensure the integrity of the bottle and results in poor performance. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a drop-resistant oral liquid storage bottle. It constructs a multi-level physical buffer system by using an upper outer buffer layer, a lower outer buffer layer, a first wavy rubber protrusion strip, and a second wavy rubber protrusion strip to reinforce the impact area of ​​the bottle's side wall, as well as a thickened annular flange to protect the bottle mouth area. This system efficiently absorbs and disperses impact energy from various angles during drops, significantly reducing the risk of bottle breakage and greatly improving safety during product transportation, carrying, and use. This achieves drop resistance, enhances safety and user convenience, and effectively solves the problems in the prior art.

[0006] To achieve the above objectives, the technical solution adopted by this utility model is as follows: a drop-proof oral liquid storage bottle, including a bottle body, a bottleneck fixedly provided at the top of the bottle body, and a bottle cap provided at the top of the bottleneck;

[0007] The storage bottle is equipped with a drop-proof component on its outer wall to achieve drop protection.

[0008] The anti-drop component includes an upper outer buffer layer and a lower outer buffer layer distributed vertically. The upper outer buffer layer is fitted onto the top of the storage bottle body, and the lower outer buffer layer is fitted onto the bottom of the storage bottle body. The upper and lower outer buffer layers are respectively fixed with a plurality of evenly distributed first wavy rubber protrusions and a plurality of evenly distributed second wavy rubber protrusions. The first and second wavy rubber protrusions are tightly attached to the outside of the storage bottle body to increase structural strength and guide the dispersion of impact force. At the same time, the thickness of the upper outer buffer layer is smaller than that of the lower outer buffer layer to save materials and maintain the user's feel. Both the upper and lower outer buffer layers are made of food-grade silicone or thermoplastic elastomer.

[0009] Preferably, both the upper and lower outer buffer layers have a honeycomb structure inside, which facilitates the effective absorption of impact energy by utilizing cavities and elastic deformation. The upper and lower outer buffer layers are respectively provided with several evenly distributed first anti-slip grooves and several evenly distributed second anti-slip grooves on their outer surfaces, which makes it easy for users to grip, especially suitable for users whose hands are prone to sweating, and achieves an anti-slip effect.

[0010] Preferably, the top outer wall of the upper outer buffer layer is fixedly provided with a thickened annular flange to prevent the surface of the storage bottle from contacting the ground when the bottle body falls, thereby absorbing the impact force, achieving a drop-proof effect, and ensuring the integrity of the storage bottle body.

[0011] Preferably, a thickened adsorption platform is fixedly provided at the bottom of the lower outer buffer layer, and the storage bottle body is located on the top of the thickened adsorption platform. By designing the thickened adsorption platform into a concave flexible suction cup shape, the buffer stroke and adsorption stability when the storage bottle body lands are increased, reducing the bouncing and rolling of the storage bottle body. At the same time, the edges of the thickened adsorption platform are rounded to avoid stress concentration at sharp corners.

[0012] Preferably, the bottle cap is covered with a rubber cushioning sleeve to protect the bottle cap and prevent it from being damaged by impact or falling, which could lead to breakage of the bottle body and neck.

[0013] Preferably, the rubber buffer sleeve has openings on both sides of its bottom, and the two openings are respectively located on both sides of the bottom of the bottle cap. This allows the rubber buffer sleeve to be placed on the surface of the bottle cap through the two openings, reducing the impact of the bottle cap falling and hitting the storage bottle body, improving the cushioning effect, preventing drop, and indirectly ensuring the integrity of the storage bottle body.

[0014] Compared with the prior art, this utility model provides a drop-proof oral liquid storage bottle, which has the following beneficial effects:

[0015] This invention constructs a multi-level physical cushioning system by placing an upper outer buffer layer over the top of the storage bottle and a lower outer buffer layer over the bottom. A rubber buffer sleeve is then placed over the bottle cap. A thickened adsorption platform is specifically designed to protect the bottom of the storage bottle. First and second wavy rubber protrusions reinforce the impact areas on the bottle's side walls, and a thickened annular flange protects the bottle opening area. This system efficiently absorbs and disperses impact energy from various angles during drops, significantly reducing the risk of bottle breakage and greatly improving safety during transportation, carrying, and use. Furthermore, this integrated design eliminates the need for additional protective accessories, ensuring a compact structure and good sealing and hygiene between the storage bottle and the anti-drop components. The first and second anti-slip grooves on the upper and lower outer buffer layers provide excellent grip and stability during drops, preventing secondary impacts and thus achieving drop protection performance. This enhances safety and user convenience. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a cross-sectional view of the overall structure of this utility model;

[0018] Figure 3 This is a schematic diagram of the anti-fall component structure of this utility model;

[0019] Figure 4 This is a partial structural diagram of the anti-fall component of this utility model;

[0020] Figure 5 This is a partial structural diagram of the anti-fall component of this utility model.

[0021] In the picture: 1. Storage bottle body, 2. Bottle neck, 3. Bottle cap, 4. Shock-proof components;

[0022] 41 Upper outer buffer layer, 42 Lower outer buffer layer, 43 First anti-slip groove, 44 Second anti-slip groove, 45 Thickened annular flange, 46 Thickened adsorption platform, 47 First wavy rubber protrusion strip, 48 Second wavy rubber protrusion strip, 49 Rubber buffer sleeve. Detailed Implementation

[0023] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.

[0024] like Figure 1-5 As shown, this utility model provides a drop-proof oral liquid storage bottle, including a storage bottle body 1, a bottleneck 2 fixedly provided on the top of the storage bottle body 1, and a bottle cap 3 covering the top of the bottleneck 2;

[0025] like Figure 1-5 As shown, the outer wall of the storage bottle body 1 is provided with an anti-drop component 4 to achieve anti-drop performance. The anti-drop component 4 includes an upper outer buffer layer 41 and a lower outer buffer layer 42 distributed vertically. The upper outer buffer layer 41 is fitted onto the top of the storage bottle body 1, and the lower outer buffer layer 42 is fitted onto the bottom of the storage bottle body 1. Several evenly distributed first wavy rubber protrusions 47 and several evenly distributed second wavy rubber protrusions 48 are fixed inside the upper outer buffer layer 41 and the lower outer buffer layer 42, respectively. The first wavy rubber protrusions 47 and the second wavy rubber protrusions 48 are tightly attached to the outside of the storage bottle body 1 to increase structural strength and guide the dispersion of impact force. At the same time, the thickness of the upper outer buffer layer 41 is less than the thickness of the lower outer buffer layer 42 to save materials and maintain the user's feel. Both the upper outer buffer layer 41 and the lower outer buffer layer 42 are made of food-grade silicone or thermoplastic elastomer.

[0026] The upper outer buffer layer 41 and the lower outer buffer layer 42 both have a honeycomb structure inside, which makes it easy to effectively absorb impact energy by utilizing cavities and elastic deformation. The upper outer buffer layer 41 and the lower outer buffer layer 42 are respectively provided with several evenly distributed first anti-slip grooves 43 and several evenly distributed second anti-slip grooves 44 on their outer surfaces, which makes it easy for users to grip, especially suitable for users whose hands are prone to sweating, and achieves an anti-slip effect.

[0027] The upper outer buffer layer 41 is fixedly provided with a thickened annular flange 45 on its top outer wall to prevent the surface of the storage bottle 1 from contacting the ground when it falls, thus absorbing the impact force and achieving a drop-proof effect to ensure the integrity of the storage bottle 1. The lower outer buffer layer 42 is fixedly provided with a thickened adsorption platform 46 at its bottom, and the storage bottle 1 is placed on top of the thickened adsorption platform 46. By designing the thickened adsorption platform 46 into a concave flexible suction cup shape, the buffer stroke and adsorption stability of the storage bottle 1 when it lands are increased, reducing the bouncing and rolling of the storage bottle 1. At the same time, the edges of the thickened adsorption platform 46 are rounded to avoid stress concentration at sharp corners.

[0028] The bottle cap 3 is covered with a rubber cushioning sleeve 49 to protect the bottle cap 3 and prevent the bottle cap 3 from being damaged by impact or falling, which would cause the storage bottle body 1 and neck 2 to break. The rubber cushioning sleeve 49 has openings on both sides of the bottom, and the two openings are respectively located on the bottom sides of the bottle cap 3. This allows the rubber cushioning sleeve 49 to be placed on the surface of the bottle cap 3 through the two openings, reducing the impact force of the bottle cap 3 falling and hitting the storage bottle body 1, improving the cushioning effect, and playing a role in preventing drop, thereby indirectly ensuring the integrity of the storage bottle body 1.

[0029] By incorporating a drop-proof component 4, an upper outer buffer layer 41 is fitted onto the top of the storage bottle body 1, while a lower outer buffer layer 42 is fitted onto the bottom of the storage bottle body 1. A rubber buffer sleeve 49 is then fitted onto the bottle cap 3. A thickened adsorption platform 46 is specifically designed to protect the bottom of the storage bottle body 1. A first wavy rubber protrusion 47 and a second wavy rubber protrusion 48 reinforce the impact area on the side wall of the storage bottle body 1, and a thickened annular flange 45 protects the bottle mouth area. This multi-level physical buffer system effectively absorbs and disperses impacts from falls. Impact energy from all angles significantly reduces the risk of breakage of the storage bottle body 1, greatly improving the safety of the product during transportation, carrying, and use. At the same time, this integrated design eliminates the need for additional protective accessories, ensuring a compact structure and good sealing and hygiene between the storage bottle body 1 and the anti-drop component 4. The first anti-slip groove 43 and the second anti-slip groove 44 on the upper outer buffer layer 41 and the lower outer buffer layer 42 provide excellent anti-slip grip and stability during drop cushioning, avoiding secondary collisions, thereby achieving anti-drop performance and improving safety protection and user convenience.

[0030] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. 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.

Claims

1. A drop-resistant oral liquid storage bottle, comprising a bottle body (1), characterized in that: The storage bottle body (1) is fixedly provided with a bottleneck (2) at the top, and a bottle cap (3) is provided on the top of the bottleneck (2). The outer wall of the storage bottle body (1) is provided with a drop-proof component (4) to achieve drop-proof performance; The anti-drop component (4) includes an upper outer buffer layer (41) and a lower outer buffer layer (42) distributed vertically. The upper outer buffer layer (41) is fitted on the top of the outer side of the storage bottle body (1), and the lower outer buffer layer (42) is fitted on the bottom of the outer side of the storage bottle body (1). The upper outer buffer layer (41) and the lower outer buffer layer (42) are respectively fixed with a number of evenly distributed first wavy rubber protrusions (47) and a number of evenly distributed second wavy rubber protrusions (48), and the first wavy rubber protrusions (47) and the second wavy rubber protrusions (48) are tightly attached to the outer side of the storage bottle body (1).

2. The drop-proof oral liquid storage bottle according to claim 1, characterized in that: The upper outer buffer layer (41) and the lower outer buffer layer (42) both have a honeycomb structure inside. The upper outer buffer layer (41) and the lower outer buffer layer (42) are respectively provided with a number of evenly distributed first anti-slip grooves (43) and a number of evenly distributed second anti-slip grooves (44).

3. The drop-proof oral liquid storage bottle according to claim 1, characterized in that: The top outer wall of the upper outer buffer layer (41) is fixed with a thickened annular flange (45).

4. The drop-proof oral liquid storage bottle according to claim 1, characterized in that: The bottom of the lower outer buffer layer (42) is fixedly provided with a thickened adsorption platform (46), and the storage bottle body (1) is located on the top of the thickened adsorption platform (46).

5. The drop-proof oral liquid storage bottle according to claim 1, characterized in that: The bottle cap (3) is covered with a rubber buffer sleeve (49).

6. The drop-proof oral liquid storage bottle according to claim 5, characterized in that: The rubber buffer sleeve (49) has openings on both sides of its bottom, and the two openings are respectively located on both sides of the bottom of the bottle cap (3).