A heating furnace for tempered glass production

By introducing a labeling mechanism and a material-blocking mechanism into the heating furnace used in tempered glass production, the problem of low efficiency in manually applying 3C certification icons has been solved, achieving automated application, improving efficiency and saving manpower.

CN224377917UActive Publication Date: 2026-06-19LUOHE YIBO NEW BUILDING MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LUOHE YIBO NEW BUILDING MATERIALS CO LTD
Filing Date
2025-07-25
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In current tempered glass production, the application of 3C certification icons is inefficient and relies on manual operation, resulting in a waste of human resources.

Method used

Design a heating furnace for tempered glass production, equipped with a labeling mechanism and a material-blocking mechanism, to automatically apply 3C certification icons to the glass before it enters the heating furnace in a mechanized manner, including the coordinated use of a labeling pigment box, a translation component, a slider, a telescopic mechanism, and a baffle.

Benefits of technology

It improves painting efficiency, saves manpower, and automates the icon painting process.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224377917U_ABST
    Figure CN224377917U_ABST
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Abstract

The utility model discloses a kind of heating furnaces for toughened glass production, including heating furnace, the import end of heating furnace is equipped with coating mechanism and material blocking mechanism and coating pigment box;Coating mechanism includes the translation component that can move before and after being equipped in heating furnace import end, sliding block is equipped on translation component, first telescopic mechanism is equipped in the below of sliding block, the downside of first telescopic mechanism is equipped with icon seal;Coating pigment box is equipped in the side of translation component;Material blocking mechanism includes the support rod that is set in the import end of heating furnace before and after, coaxial through slot is equipped on two support rods, rotating column is inserted in through slot. The heating furnace for toughened glass production, under the cooperation of each component, 3C authentication icon is conveniently printed on glass.
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Description

Technical Field

[0001] This utility model relates to the field of tempered glass production technology, specifically to a heating furnace for tempered glass production. Background Technology

[0002] Before tempering, tempered glass usually needs to be coated with 3C certification on qualified glass. However, currently, most of the time, the coating is applied manually by hand before the glass enters the heating furnace. This ensures that the logo is applied to the glass after tempering and will not be rubbed off. However, manual coating is inefficient. In order to improve coating efficiency and save manpower, this application proposes a heating furnace that facilitates printing 3C certification logos on glass. Utility Model Content

[0003] To address the shortcomings of existing technologies, this utility model provides a heating furnace for tempered glass production, which facilitates the printing of 3C certification icons on the glass.

[0004] To achieve the above objectives, this utility model is implemented through the following technical solution: a heating furnace for tempered glass production, comprising a heating furnace, wherein the inlet end of the heating furnace is provided with a labeling mechanism, a material blocking mechanism, and a labeling pigment box;

[0005] The labeling mechanism includes a translation component that can move back and forth at the inlet end of the heating furnace, a slider on the translation component, a first telescopic mechanism below the slider, and an icon stamp on the lower side of the first telescopic mechanism.

[0006] The labeling paint box is located on the side of the translation component;

[0007] The baffle mechanism includes support rods set on both the front and rear sides of the inlet end of the heating furnace. Coaxial through slots are provided on the two support rods. A rotating column is inserted into the through slot. One end of the rotating column extends to the outside of the support rod and is connected to a drive component. A baffle is provided on the rotating column.

[0008] Preferably, the translation component includes two support blocks arranged on the front and rear sides of the furnace inlet, a limiting post between the two support blocks, the slider being sleeved on the limiting post, and a second telescopic mechanism connected to the slider being provided on the side of the support block.

[0009] Preferably, the labeling pigment box is located inside one of the support blocks.

[0010] Preferably, the side of the baffle opposite to the heating furnace is provided with a soft pad.

[0011] Preferably, the driving component includes a motor horizontally mounted on the support rod and coaxially connected to the rotating column.

[0012] This utility model provides a heating furnace for tempered glass production, which has the following beneficial effects:

[0013] This tempered glass production furnace features a baffle that intercepts the glass before it enters the furnace. After the glass is intercepted, various components work together to easily stamp the glass with an icon, improving coating efficiency and saving manpower. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This utility model Figure 1 Enlarged structural diagram at point A in the middle.

[0016] In the diagram: 1. Heating furnace; 2. Labeling pigment box; 3. Slider; 4. First telescopic mechanism; 5. Icon stamp; 6. Support rod; 7. Through groove; 8. Rotating column; 10. Baffle; 11. Support block; 12. Limiting column; 13. Second telescopic mechanism; 14. Soft pad; 15. Motor. Detailed Implementation

[0017] The present invention will be further described below with reference to specific embodiments, such as... Figures 1-2 As shown:

[0018] Example 1: A heating furnace for tempered glass production, including a heating furnace 1, wherein the inlet end of the heating furnace 1 is provided with a labeling mechanism, a material blocking mechanism, and a labeling pigment box 2;

[0019] The labeling mechanism includes a translation component that can move back and forth at the inlet end of the heating furnace 1, a slider 3 on the translation component, a first telescopic mechanism 4 below the slider 3, and an icon stamp 5 on the lower side of the first telescopic mechanism 4.

[0020] The labeling pigment box 2 is located on the side of the translation component;

[0021] The translation mechanism can drive the slider 3 to move back and forth, so that the first telescopic mechanism 4 can drive the icon stamp 5 to pick up the pigment in the label pigment box 2.

[0022] The baffle mechanism includes support rods 6 set on both sides of the inlet end of the heating furnace 1, coaxial through grooves 7 on the two support rods 6, a rotating column 8 inserted in the through grooves 7, one end of the rotating column 8 extending to the outside of the support rod 6 and connected to a drive component, and a baffle 10 on the rotating column 8.

[0023] The baffle 10 can block the glass discharged from the heating furnace 1, making it convenient for the marking mechanism to mark the glass. The driving component can drive the baffle 10 to rotate through the rotating column 8, making it convenient for the glass to be discharged after marking.

[0024] Example 2: A heating furnace for tempered glass production, including a heating furnace 1, wherein the inlet end of the heating furnace 1 is provided with a labeling mechanism, a material blocking mechanism, and a labeling pigment box 2;

[0025] The labeling mechanism includes a translation component that can move back and forth at the inlet end of the heating furnace 1, a slider 3 on the translation component, a first telescopic mechanism 4 below the slider 3, and an icon stamp 5 on the lower side of the first telescopic mechanism 4.

[0026] The labeling pigment box 2 is located on the side of the translation component;

[0027] The translation component includes two support blocks 11 arranged on the front and rear sides of the inlet end of the heating furnace 1, a limiting post 12 is provided between the two support blocks 11, the slider 3 is sleeved on the limiting post 12, and a second telescopic mechanism 13 connected to the slider 3 is provided on the side of the support block 11.

[0028] The paint box 2 is located inside one of the support blocks 11, which facilitates the first telescopic mechanism 4 to move the icon stamp 5 into the paint box 2 to pick up paint.

[0029] The translation mechanism can drive the slider 3 to move back and forth, so that the first telescopic mechanism 4 can drive the icon stamp 5 to pick up the pigment in the label pigment box 2.

[0030] The baffle mechanism includes support rods 6 set on both sides of the inlet end of the heating furnace 1, coaxial through grooves 7 on the two support rods 6, a rotating column 8 inserted in the through grooves 7, one end of the rotating column 8 extending to the outside of the support rod 6 and connected to a drive component, and a baffle 10 on the rotating column 8.

[0031] A soft pad 14 is provided on the side of the baffle 10 opposite to the heating furnace 1. The soft pad 14 is provided to protect the glass and prevent it from being bumped against the baffle 10 as much as possible.

[0032] The baffle 10 can block the glass discharged from the heating furnace 1, making it convenient for the marking mechanism to mark the glass. The driving component can drive the baffle 10 to rotate through the rotating column 8, making it convenient for the glass to be discharged after marking.

[0033] Working principle:

[0034] 1. Before tempering, the glass is moved to the conveying mechanism of the heating furnace 1, so that one end of the glass rests on the soft pad 14 of the baffle 10, which can block the glass on the conveying mechanism of the heating furnace. Then, the second telescopic mechanism 13 pushes the slider 3 to move, which moves the icon stamp 5 to the top of the icon pigment box 2. The first telescopic mechanism 4 moves the icon stamp 5 to the labeling pigment box 2 to dip into the pigment. Then, the first telescopic mechanism 4 returns to its original position. The second telescopic mechanism 13 pushes the slider to move the icon stamp 5 to the labeling area. The first telescopic mechanism 4 moves the icon stamp 5 to the glass to apply the label.

[0035] 2. After the cover is applied, the motor 15 drives the baffle 10 to rotate via the rotating column 8, so that the glass with the cover and label can enter the heating furnace 1. After the glass enters the heating furnace 1, the motor 15 drives the baffle 10 back to its original position to continue to block the next piece of glass that needs to enter the heating furnace 1.

[0036] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this utility model, based on the technical solution and inventive concept of this utility model, should be included within the scope of protection of this utility model.

Claims

1. A heating furnace for tempered glass production, comprising a heating furnace (1), characterized in that: The heating furnace (1) is equipped with a labeling mechanism, a material blocking mechanism, and a labeling pigment box (2) at its inlet end; The labeling mechanism includes a translation component that can move back and forth at the inlet end of the heating furnace (1), a slider (3) on the translation component, a first telescopic mechanism (4) below the slider (3), and an icon stamp (5) on the lower side of the first telescopic mechanism (4). The labeling paint box (2) is located on the side of the translation component; The baffle mechanism includes support rods (6) arranged on both sides of the inlet end of the heating furnace (1), and coaxial through grooves (7) are provided on the two support rods (6). A rotating column (8) is inserted in the through groove (7). One end of the rotating column (8) extends to the outside of the support rod (6) and is connected to a driving component. A baffle (10) is provided on the rotating column (8).

2. The heating furnace for tempered glass production according to claim 1, characterized in that: The translation component includes two support blocks (11) arranged on the front and rear sides of the inlet end of the heating furnace (1), a limiting post (12) is provided between the two support blocks (11), the slider (3) is sleeved on the limiting post (12), and a second telescopic mechanism (13) connected to the slider (3) is provided on the side of the support block (11).

3. A heating furnace for tempered glass production according to claim 2, characterized in that: The labeling pigment box (2) is located inside one of the support blocks (11).

4. A heating furnace for tempered glass production according to claim 1, characterized in that: The baffle (10) is provided with a pad (14) on the side opposite to the heating furnace (1).

5. A heating furnace for tempered glass production according to claim 1, characterized in that: The driving component includes a motor (15) that is horizontally mounted on the support rod (6) and coaxially connected to the rotating column (8).