Anti-two-dimensional code wear bottle cap

Abstract

This utility model discloses a bottle cap designed to prevent QR code wear. It includes: a crystal head, an upper cap, a threaded cap, an inner cap, a lower sleeve, an inner plug, and an inner sleeve. The crystal head is an irregular sphere with a threaded post at its bottom. The threaded cap is threaded onto the threaded post, the inner cap is threaded onto the threaded cap, and the inner plug is threaded onto the inner cap. The upper cap is snapped onto the crystal head, locking onto the inner cap. The lower sleeve is pressed into place below the upper cap, and the inner sleeve is pressed into its inner wall. The upper opening of the inner sleeve is inserted between the inner cap and the inner plug. This utility model features a double-elliptical top surface on the crystal head. The outer bottle code is printed on the upper surface of the inner ellipse, and the inner bottle code is printed on the inner cap, preventing the QR code on the bottle cap from being worn away, enhancing the consumer's scanning experience, and promoting the sales of liquor.

Description

Technical Field

[0001] This utility model relates to the field of bottle cap technology, and in particular to a bottle cap that prevents QR code wear. Background Technology

[0002] In the liquor industry, companies often use QR code rewards to attract consumers in order to boost sales. Currently, there are two main methods used in the market: one is to use inkjet printing technology to directly print the QR code on the bottle cap surface; the other is to affix a QR code label to the bottle.

[0003] However, over time, QR codes printed or affixed directly to the bottle cap surface may wear down. This not only affects the consumer's scanning experience but may also cause the QR code to become unreadable, thereby reducing the consumer's willingness to purchase. Summary of the Invention

[0004] The purpose of this invention is to design a bottle cap that prevents the QR code on the bottle cap from being worn away, thereby enhancing the consumer's scanning experience and promoting the sales of liquor.

[0005] The technical solution of this utility model is: the anti-QR code wear bottle cap includes: a crystal head, a top cap, a threaded cap, an inner cap, a lower sleeve, an inner plug, and an inner sleeve; the crystal head is an irregular ball, and the bottom end of the crystal head is provided with a threaded post. The threaded cap is threadedly connected to the threaded post of the crystal head, the inner cap is threadedly connected to the threaded cap, and the inner plug is threadedly connected to the inner cap. The top cap is installed on the crystal head by a snap-fit ​​method, and the top cap is snapped onto the outside of the inner cap. The lower sleeve is pressed into place below the top cap, and the inner sleeve is pressed into place on the inner wall of the lower sleeve. The upper opening of the inner sleeve is embedded between the inner cap and the inner plug.

[0006] Furthermore, the crystal head is an irregular spherical shape, and the top surface of the crystal head is double-elliptical, with the outer ellipse being at least 8mm higher than the inner ellipse.

[0007] Furthermore, the outer code of the bottle is printed on the upper surface of the inner ellipse using inkjet printing technology.

[0008] Furthermore, the diameter of the long end of the outer ellipse is 50mm, and the diameter of the long end of the inner ellipse is 25mm.

[0009] Furthermore, the threaded post height of the crystal head is 8.1mm.

[0010] Furthermore, the inner bottle code is printed on the lower surface of the corresponding threaded post of the inner cap using inkjet printing technology.

[0011] Furthermore, the bottom opening of the upper cover is symmetrically connected to the lower cover by three 1×2×1mm cuboids on each side, spaced 1mm apart.

[0012] The beneficial effects of this utility model are:

[0013] (1) The outer code of the bottle is printed on the upper surface of the inner ellipse of the crystal head using inkjet printing technology, which effectively prevents the QR code on the bottle cap from being worn.

[0014] (2) The inner bottle code is printed on the lower surface of the corresponding threaded post of the inner cap using inkjet printing technology. The QR code on the inner cap does not come into contact with the wine, which further effectively prevents the QR code from being worn. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure of this utility model;

[0016] In the diagram: 1 is the crystal head, 2 is the top cover, 3 is the threaded cap, 4 is the inner cover, 5 is the lower sleeve, 6 is the inner plug, 7 is the inner sleeve, and 8 is the threaded post. Detailed Implementation

[0017] The technical solution of this utility model will be further described below with reference to the accompanying drawings.

[0018] like Figure 1 As shown, the anti-QR code wear bottle cap includes: a crystal head 1, an upper cap 2, a threaded cap 3, an inner cap 4, a lower sleeve 5, an inner plug 6, and an inner sleeve 7. The crystal head 1 is an irregular ball, and the bottom end of the crystal head 1 is provided with a threaded post 8. The threaded cap 3 is threadedly connected to the threaded post 8 of the crystal head 1. The inner cap 4 is threadedly connected to the threaded cap 3. The inner plug 6 is threadedly connected to the inner cap 4. The upper cap 2 is installed on the crystal head 1 in a snap-fit ​​manner. The upper cap 2 is snapped onto the outside of the inner cap 4. The lower sleeve 5 is pressed into place below the upper cap 2. The inner sleeve 7 is pressed into the inner wall of the lower sleeve 5. The upper opening of the inner sleeve 7 is embedded between the inner cap 4 and the inner plug 6.

[0019] Furthermore, the crystal head 1 is an irregular spherical shape, and the top surface of the crystal head is double-elliptical, with the outer ellipse being at least 8mm higher than the inner ellipse.

[0020] Furthermore, the outer code of the bottle is printed on the upper surface of the inner ellipse using inkjet printing technology.

[0021] Furthermore, the diameter of the long end of the outer ellipse is 50mm, and the diameter of the long end of the inner ellipse is 25mm.

[0022] Furthermore, the height of the threaded post 8 of the crystal head 1 is 8.1mm.

[0023] Furthermore, the inner bottle code is printed on the lower surface of the inner cap 4 corresponding to the threaded post 8 using inkjet printing technology.

[0024] Furthermore, on each side of the bottom opening of the upper cover 2, three 1×2×1mm cuboids are used, spaced 1mm apart, to connect the upper cover 2 and the lower sleeve 5.

Claims

1. Anti-QR code abrasion on bottle caps, its characteristic is that it include: Crystal head, top cover, threaded cap, inner cover, lower sleeve, inner plug, inner sleeve; The crystal head is an irregular ball with a threaded post at the bottom. A threaded cap is threaded onto the threaded post of the crystal head, an inner cover is threaded onto the threaded cap, and an inner plug is threaded onto the inner cover. The top cover is installed on the crystal head by a snap-fit ​​method, and the top cover is snapped onto the outside of the inner cover. The lower sleeve is pressed into place below the top cover, and the inner sleeve is pressed into the inner wall of the lower sleeve. The upper opening of the inner sleeve is inserted between the inner cover and the inner plug.

2. The anti-QR code wear bottle cap according to claim 1, characterized in that: The crystal head is an irregular spherical shape, and the top surface of the crystal head is double-elliptical, with the outer ellipse being at least 8mm higher than the inner ellipse.

3. The anti-QR code wear bottle cap according to claim 2, characterized in that: The outer code of the bottle is printed on the upper surface of the inner ellipse using inkjet printing technology.

4. The anti-QR code wear bottle cap according to claim 3, characterized in that: The diameter of the long end of the outer ellipse is 50mm, and the diameter of the long end of the inner ellipse is 25mm.

5. The anti-QR code wear bottle cap according to claim 1, characterized in that: The threaded post height of the crystal head is 8.1mm.

6. The anti-QR code wear bottle cap according to claim 1, characterized in that: The inner bottle code is printed using inkjet printing technology on the lower surface of the corresponding threaded post on the inner cap.

7. The anti-QR code wear bottle cap according to claim 1, characterized in that: The bottom opening of the upper cover is symmetrically connected to the lower cover by three 1×2×1mm cuboids on each side, spaced 1mm apart.

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