A bottle opener with a champagne bottle opening sound
By designing a bottle opener that produces the sound of a champagne bottle being opened, and utilizing the inertia of the claw hook and the weight, the problem of the lack of fun in bottle openers is solved, achieving both entertainment and practicality when opening a bottle, making it suitable for various occasions.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- YUEQING KEPAI MOULD CO LTD
- Filing Date
- 2021-12-31
- Publication Date
- 2026-06-23
AI Technical Summary
Existing bottle openers are limited in function and cannot meet people's needs for a rich and colorful life, lacking fun and entertainment when opening bottles.
A bottle opener with a champagne-like sound has been designed. It uses three claw hooks to simultaneously hook the bottle cap and uses a weighted hammer to instantly strike the cap, causing it to separate from the bottle opening in an instant, producing a sound similar to opening champagne. The design incorporates stainless steel or plastic materials to enhance durability and aesthetics.
It achieves an entertaining effect when opening bottles, with minimal cap deformation, making it suitable for various occasions and enhancing the fun and practicality of the bottle opener.
Smart Images

Figure CN114408835B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of bottle opener technology, specifically to a bottle opener that produces a champagne-opening sound. Background Technology
[0002] Existing bottle openers are based on the simple lever principle, resulting in a basic bottle opener. However, as people's living standards improve, ordinary bottle openers can no longer meet their diverse needs. If a different kind of bottle opener could be provided, then using bottle openers would be quite interesting. Summary of the Invention
[0003] This invention provides a bottle opener that produces a champagne-opening sound.
[0004] To solve the above-mentioned technical problems, the technical solution provided by the present invention is as follows: a bottle opener with a champagne-opening sound, comprising a first braking member, a first braking groove below the first braking member, a second braking member movably disposed within the first braking groove, at least three open sliding grooves along the circumference of the outer side of the second braking member, each of the open sliding grooves having a hinged claw hook, the claw hook being inverted L-shaped, a first abutting block on the opposite inner side of the claw hook, a second abutting block on the opposite inner side of the claw hook below the first abutting block, a third abutting block on the outer side of the claw hook away from the first abutting block and located between the first and second abutting blocks, a fourth abutting block below the end of the claw hook hinged to the open sliding groove, a second braking groove below the second braking member, and a third braking groove within the second braking groove. The first, second, and third brake grooves are all cylindrical grooves. The diameter of the third brake groove is smaller than that of the second brake groove. The second and third brake grooves are connected to an open sliding groove. The first brake component has a sliding groove on its surface. The bottom surface of the sliding groove is connected to the first brake groove and has a limiting circular groove. The diameter of the limiting circular groove is smaller than that of the sliding groove and the first brake groove. A pull rod is slidably installed in the limiting circular groove. One end of the pull rod extends into the sliding groove and has a limiting block. The other end of the pull rod extends sequentially from the first brake groove and the third brake groove into the second brake groove. A push plate is provided at the other end of the pull rod. A spring is provided on the outer side of the pull rod between the third brake groove and the push plate. A damping ring groove is provided circumferentially in the limiting circular groove. A damping ring is provided in the damping ring groove and is in close contact with the pull rod.
[0005] With the above structure, the present invention has the following advantages: Ordinary bottle openers use leverage to open the bottle cap at a point on the edge of the cap. At this time, the bottle cap opens from a small gap until it is fully opened. The corresponding air pressure inside the bottle will also leak when this gap is created, so there will only be a "gasping" sound. The product of the present invention uses three claw hooks to hook the bottle cap at the same time, and the opening force is generated by the instantaneous impact of the hammer. Therefore, when the bottle cap is opened, it separates from the bottle mouth in an instant, and the air pressure inside the bottle is released from the entire bottle mouth to produce a "pop" sound effect. In other words, the present invention uses the inertia of quickly lifting the bottle opener to open the bottle cap and make a "pop" sound similar to opening champagne, achieving an entertainment effect. It is suitable for various occasions, and the deformation of the bottle cap is very small when the product of the present invention is opened.
[0006] As an improvement, a spring groove is provided on the bottom surface of the second brake groove, and the diameter of the spring groove is smaller than the diameter of the third brake groove.
[0007] As an improvement, the first brake element is cylindrical, and the outer surface of the first brake element is provided with anti-slip ripples.
[0008] As an improvement, the first brake component, the second brake component, and the claw hook are all made of stainless steel, which has a metallic texture and is aesthetically pleasing and durable.
[0009] As an improvement, the first brake, the second brake, and the claw hook are all made of plastic. The first and second brakes are equipped with counterweights. To reduce costs, they can be made of plastic. To increase weight, an appropriate amount of counterweights, i.e. iron, should be embedded in the first and second brakes.
[0010] As an improvement, the second braking element is cylindrical.
[0011] As an improvement, a reinforcing block is provided at the connection between the push plate and the pull rod. Attached Figure Description
[0012] Figure 1 This is a schematic diagram of the main structure of a bottle opener that produces a champagne-opening sound according to the present invention.
[0013] Figure 2 This is a schematic diagram of the usage state of a bottle opener with a champagne-opening sound according to the present invention.
[0014] Figure 3 This is a top view schematic diagram of the second braking component of a bottle opener that produces a champagne-opening sound according to the present invention.
[0015] As shown in the figure: 1. First brake element, 2. First brake groove, 3. Second brake element, 4. Open slide groove, 5. Claw hook, 6. First abutment block, 7. Second abutment block, 8. Third abutment block, 9. Second brake groove, 10. Third brake groove, 11. Sliding groove, 12. Limiting circular groove, 13. Pull rod, 14. Push plate, 15. Spring, 16. Damping ring groove, 17. Damping ring, 18. Spring groove, 19. Anti-slip ripples, 20. Reinforcing block, 21. Bottle mouth, 22. Limiting block, 23. Fourth abutment block; A. Force point A, B. Force point B, C. Force point C. Detailed Implementation
[0016] The present invention will now be described in further detail with reference to the accompanying drawings.
[0017] Combined with appendix Figure 1 , Figure 2 , Figure 3A bottle opener with a champagne-opening sound includes a first braking element 1, a first braking groove 2 below the first braking element 1, a second braking element 3 movably disposed within the first braking groove 2, and at least three open sliding grooves 4 on the outer side of the second braking element 3 along its circumference. Each open sliding groove 4 is hinged with a claw hook 5, which is inverted L-shaped. A first abutting block 6 is provided on the opposite inner side of each claw hook 5, with the first abutting block 6 serving as a force point A. A second abutting block 7 is provided on the opposite inner side of each claw hook 5, below the first abutting block 6. A third abutting block 8 is provided on the outer side of each claw hook 5, away from the first abutting block 6 and located between the first and second abutting blocks 6. The upper part is designated as force point B. A fourth contact block 23 is located below the end of the claw hook 5 that is hinged to the open slide 4. Force point C is located below the fourth contact block 23. The first, second, and third contact blocks all protrude outwards, and the length of the third contact block is equal to the distance between the first and second contact blocks. Preferably, the second contact block is located at the lower end of the claw hook 5. A second braking groove 9 is located below the second braking element 3, and a third braking groove 10 is located within the second braking groove 9. The first, second, and third braking grooves 2 and 9 are all cylindrical grooves. The diameter of the third braking groove 10 is smaller than that of the second braking groove 9, and the second braking groove 9 is larger than that of the third braking groove 10. Its function is to prevent the bottle cap from getting stuck in the third braking groove 10 when the bottle cap is opened. The second and third braking grooves 9 and 10 are connected to the open slide 4. The first braking component 1 is provided with a sliding groove 11. The bottom surface of the sliding groove 11 is connected to the first braking groove 2 and is provided with a limiting circular groove 12. The diameter of the limiting circular groove 12 is smaller than that of the sliding groove 11 and the first braking groove 2. A pull rod 13 is slidably provided in the limiting circular groove 12. One end of the pull rod 13 extends into the sliding groove 11 and is provided with a limiting block 22. The area of the limiting block is larger than the cross-sectional area of the limiting circular groove 12, which is used to limit one end of the pull rod to be located in the sliding groove. The other end of the pull rod 13 extends sequentially from the first braking groove 2 and the third braking groove 10 into the second braking groove 9. The other end of the pull rod 13 is provided with a push plate 14. A spring 15 is provided on the outer side of the pull rod 13 and located between the third braking groove 10 and the push plate 14. A damping ring groove 16 is provided circumferentially in the limiting circular groove 12. A damping ring 17 is provided in the damping ring groove 16 and is in close contact with the pull rod 13.
[0018] The bottom surface of the third brake groove 10 is provided with a spring groove 18, the diameter of which is smaller than the diameter of the third brake groove 10.
[0019] The first braking component 1 is cylindrical, and the outer side of the first braking component 1 is provided with anti-slip ripples 19.
[0020] The first braking component 1, the second braking component 3, and the claw hook 5 are all made of stainless steel and have a metallic texture.
[0021] The first braking component 1, the second braking component 3, and the claw hook 5 are all made of plastic material, and the first braking component 1 and the second braking component 3 are provided with counterweights.
[0022] The second braking component 3 is cylindrical.
[0023] A reinforcing block 20 is provided at the connection between the push plate 14 and the pull rod 13.
[0024] In a specific implementation of this invention, the second braking groove 9 is larger than the third braking groove 10. Its function is to prevent the bottle cap from getting stuck in the third braking groove 10 when the bottle cap is opened, as the cap will open wider. When the bottle opening 21 is not placed in the second braking groove 9 or the third braking groove 10 (i.e., when the bottle is not opened), the claw hook 5 remains open. When the bottle opening 21 is placed in the second braking groove 9 or the third braking groove 10, the claw hook 5 must hook the bottle cap, i.e., the second contact block 7 abuts against the bottom of the bottle cap. At the moment the first braking component 1 is lifted, the push plate 14 will not pop out and push away the claw hook 5, causing the claw hook 5 to disengage from the bottle cap (a damping ring 17 is used here, and the force point C of the claw hook 5 keeps it in a retracted state). When the bottle cap separates from the bottle opening, the bottle cap cannot be blocked by the claw hook 5 (here, the push plate 14 pushes the claw hook 5 at the same time as it pushes, and the claw hook 5 must be opened wide enough before the push plate 14 contacts it to avoid getting stuck on the bottle cap).
[0025] When the first brake 1 is pushed up quickly, the damping ring 17 on the handle will counteract the force of the spring 15, so that the pull rod 13 has an upward force pulling the push plate 15 to prevent it from springing down. At this time, the force point C of the claw hook 5 will always hold the bottle cap under the action of the push plate 14 until the bottle cap is opened due to the inertia of the first brake 1 on the handle.
[0026] This invention has the following advantages: Ordinary bottle openers use a lever principle to open the bottle cap at a point on the edge. At this time, the bottle cap opens from a small gap until it is fully opened. The corresponding air pressure inside the bottle will also leak out due to this gap, so there will only be a "gasping" sound. The product of this invention uses three claw hooks to hook the bottle cap simultaneously, and the opening force is generated by the instantaneous impact of the weight. Therefore, when the bottle cap is opened, it separates from the bottle mouth in an instant, and the air pressure inside the bottle is released instantly from the entire bottle mouth, producing a "pop" sound effect. In other words, this invention uses the inertia of quickly lifting the bottle opener to open the bottle cap and make a "pop" sound similar to opening champagne, achieving an entertainment effect. It is suitable for various occasions, and the bottle cap deforms very little when the product of this invention is opened.
[0027] The principle of this invention: When the bottle mouth is fitted into the second braking groove 9 and the third braking groove 10, the bottle cap pushes the push plate 14 upward, and the force point A is open, giving the claw hook 5 space to rotate inward. At this time, the claw hook 5 will push the force point B inward when the first braking member 1 is pressed down, and at the same time, the push plate 14 will also push the force point C, causing the claw hook 5 to retract outward and inward to hook the bottle cap. After the bottle cap is separated from the bottle, the claw hook 5 loses its downward pulling force. At this time, the second braking member 3 will be bounced upward by the force of the spring 15, and the force point A of the claw hook 5 will contact the push plate 14 again and open. The bottle cap is pushed out of the second braking member 3 by the push plate 14.
[0028] The present invention and its embodiments have been described above. This description is not restrictive, and the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and, without departing from the spirit of the invention, design similar structures and embodiments without creative effort, all such designs should fall within the protection scope of the present invention.
Claims
1. A bottle opener with a champagne-opening sound, characterized in that: The system includes a first braking component, a first braking groove below the first braking component, a second braking component movably mounted within the first braking groove, and at least three open sliding grooves along the circumferential direction on the outer side of the second braking component. Each open sliding groove is hinged with a pawl hook, which is inverted L-shaped. A first abutment block is located on the opposite inner side of each pawl hook, a second abutment block is located on the opposite inner side of each pawl hook below the first abutment block, and a third abutment block is located on the outer side of each pawl hook away from the first abutment block and between the first and second abutment blocks. A fourth abutment block is located below the end of each pawl hook hinged to the open sliding groove. The second braking component has a second braking groove below it, and a third braking groove is located within the second braking groove. The first braking groove, the second braking groove, and the third braking groove... All grooves are cylindrical. The diameter of the third braking groove is smaller than that of the second braking groove. The second and third braking grooves are connected to an open sliding groove. The first braking component has a sliding groove on its top. The bottom surface of the sliding groove is connected to the first braking groove and has a limiting circular groove. The diameter of the limiting circular groove is smaller than that of the sliding groove and the first braking groove. A pull rod is slidably installed in the limiting circular groove. One end of the pull rod extends into the sliding groove and has a limiting block. The other end of the pull rod extends sequentially from the first braking groove and the third braking groove into the second braking groove. A push plate is provided at the other end of the pull rod. A spring is provided on the outer side of the pull rod and between the third braking groove and the push plate. A damping ring groove is provided circumferentially in the limiting circular groove. A damping ring is provided in the damping ring groove and is in close contact with the pull rod.
2. The corkscrew with a champagne-opening sound according to claim 1, characterized in that: The bottom surface of the second brake groove is provided with a spring groove, the diameter of which is smaller than the diameter of the third brake groove.
3. A corkscrew with a champagne-opening sound according to claim 1, characterized in that: The first braking component is cylindrical, and its outer surface is provided with anti-slip ripples.
4. A corkscrew with a champagne-opening sound according to any one of claims 1-3, characterized in that: The first braking component, the second braking component, and the claw hook are all made of stainless steel.
5. A corkscrew with a champagne-opening sound according to any one of claims 1-3, characterized in that: The first brake component, the second brake component, and the claw hook are all made of plastic material, and the first brake component and the second brake component are equipped with counterweights.
6. A corkscrew with a champagne-opening sound according to any one of claims 1-3, characterized in that: The second braking component is cylindrical.
7. A corkscrew with a champagne-opening sound according to any one of claims 1-3, characterized in that: A reinforcing block is provided at the connection between the push plate and the pull rod.