Tempering hollow glass butyl rubber coating device
By designing a butyl sealant coating device for tempered insulating glass and utilizing the coordinated operation of the dispensing component and the cleaning section, the problem of oxidation and hardening at the dispensing port was solved, achieving a highly efficient coating process and improving production quality and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANDAN CHENYUXIN GLASS PROD CO LTD
- Filing Date
- 2025-08-04
- Publication Date
- 2026-07-07
AI Technical Summary
During the production of insulated glass, the butyl sealant at the glue outlet is prone to oxidation and hardening, which affects the quality of the sealant application and leads to production efficiency and quality problems.
A device for applying butyl sealant to tempered insulating glass was designed, comprising a dispensing component, a cleaning section, and a lifting component. A robotic arm drives the dispensing component to rotate and the cleaning section to clean the outlet. Combined with a hydraulic rod and a dissolving liquid, the outlet is cleaned in real time to prevent the sealant from hardening. The lifting component moves the glass body to a designated station to avoid scratches.
This effectively prevents the adhesive from hardening at the outlet, improves the quality of adhesive application and production efficiency, and ensures a smooth adhesive application process on the glass.
Smart Images

Figure CN224463077U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field, and more specifically, to a device for applying butyl sealant to tempered insulating glass. Background Technology
[0002] Insulating glass is usually composed of two panes of glass combined to form a hollow structure. During its production, the edges need to be sealed with glue. If the machine is stopped for a long time during actual production, the butyl rubber at the glue outlet will oxidize and harden, affecting the quality of subsequent glue application. Therefore, it is necessary to design a glue application mechanism to prevent the glue outlet from hardening. Utility Model Content
[0003] To address the above deficiencies, this utility model provides a butyl sealant application device for tempered insulating glass, thus solving the aforementioned problems.
[0004] To achieve the above objectives, the present invention adopts the following technical solution:
[0005] A butyl sealant application device for tempered insulating glass includes a glass body, a robotic arm, and a conveyor roller, and also includes...
[0006] The butyl rubber is discharged through the dispensing component.
[0007] The cleaning department cleans the dispensing components;
[0008] The lifting component is used to lift the glass body diagonally upwards.
[0009] Furthermore, the dispensing assembly includes a tube 1 installed at the working end of the robotic arm, a three-way valve installed at the lower end of the tube, and a tube 2 installed on both sides of the three-way valve. The tube 2 has an outlet on its side, and the robotic arm can drive the tube 2 to rotate 180 degrees.
[0010] Furthermore, it also includes a crossbar, which is installed on the side of the conveyor roller. A rotating motor is installed at one end of the crossbar, and the cleaning part is installed at the working end of the rotating motor. A hydraulic rod is installed between the crossbar and the conveyor roller. The hydraulic rod drives the crossbar to swing up and down. A dissolving liquid is provided on one side of the lower end of the conveyor roller to dissolve the glue on the cleaning part.
[0011] Furthermore, the lifting assembly includes a pair of horizontal bars installed on the underside of the conveyor rollers. A swing rod is installed at both ends of the horizontal bar, and a support rod is hinged to the swing rod. A pad is installed on the upper surface of the support rod. The horizontal bar, the swing rod, and the support rod form a parallelogram hinge relationship. A hydraulic rod is hinged between the swing rod and the horizontal bar.
[0012] Furthermore, the cleaning section is a cleaning brush, which facilitates cleaning the arc-shaped outlet.
[0013] Furthermore, the cleaning section is blade-shaped, making it easy to clean the flat outlet.
[0014] The beneficial effects of this utility model are: through the coordinated operation of the dispensing component and the cleaning part, the outlet position can be cleaned in real time, avoiding the hardening of butyl rubber at the outlet position, and indirectly improving production quality;
[0015] By enhancing the function of the component, the glass body can be actively moved to the designated station, avoiding the exit position from rubbing against the conveyor roller. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the butyl sealant coating device for tempered insulating glass described in this utility model;
[0017] Figure 2 This is an enlarged schematic diagram of the crossbar;
[0018] Figure 3 This is a schematic diagram of the glue dispensing assembly;
[0019] Figure 4 This is a top view of the cross-section of pipe 2;
[0020] Figure 5 This is a schematic diagram showing the relative positions of the pad and the conveyor roller;
[0021] Figure 6 It is a schematic diagram of a blade shape;
[0022] Figure 7 This is a diagram illustrating the cleaning brush;
[0023] In the diagram, 1. Glass body; 2. Robotic arm; 3. Conveyor roller; 4. Glue dispensing assembly; 5. Cleaning section; 6. Lifting assembly; 41. Pipe 1; 42. Three-way valve; 43. Pipe 2; 44. Outlet; 51. Crossbar; 52. Rotating motor; 53. Hydraulic rod 1; 54. Dissolving liquid; 61. Horizontal bar; 62. Swinging rod; 63. Support rod; 64. Pad; 65. Hydraulic rod 2; 511. Cleaning brush; 512. Blade-shaped. Detailed Implementation
[0024] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.
[0025] This application provides a butyl sealant application device for tempered insulating glass. Please refer to [reference needed]. Figures 1-7 It includes a glass body 1, a robotic arm 2, a conveyor roller 3, and also includes...
[0026] Butyl rubber is discharged through dispensing component 4;
[0027] Cleaning section 5 cleans the dispensing assembly 4;
[0028] Lift component 6 to lift the glass body 1 diagonally upwards.
[0029] In practical applications, the conveyor roller 3 can move the glass body 1 stably. After moving to the designated position, the lifting component 6 moves the glass body 1 to an obliquely upward position to avoid the glue dispensing component 4 being too low and scraping against the conveyor roller 3. Then, the robotic arm 2 moves to drive the glue dispensing component 4 to apply glue to the glass body 1. After the glue application is completed, each component can be reset for the next operation.
[0030] Reference Figure 1 and Figure 3 The dispensing assembly 4 includes a pipe 41 installed at the working end of the robotic arm 2, a three-way valve 42 installed at the lower end of the pipe 41, and two pipes 43 installed on both sides of the three-way valve 42. The pipe 43 has an outlet 44 on its side. The robotic arm 2 can drive the pipe 43 to rotate 180 degrees.
[0031] In practical applications, when one of the outlets 44 has been in contact with the product for a long time and shows a tendency to oxidize and harden, the robotic arm 2 drives the tube 43 to rotate 180 degrees. At this time, the new outlet 44 has just been cleaned by the cleaning section 5, so as to avoid the hardened butyl rubber from affecting the product quality.
[0032] Reference Figure 1 , Figure 2 , Figure 3 and Figure 4 It also includes a crossbar 51, which is installed on the side of the conveyor roller 3. A rotating motor 52 is installed at one end of the crossbar 51. The cleaning part 5 is installed at the working end of the rotating motor 52. A hydraulic rod 53 is installed between the crossbar 51 and the conveyor roller 3. The hydraulic rod 53 drives the crossbar 51 to swing up and down. A dissolving liquid 54 is provided on one side of the lower end of the conveyor roller 3 to dissolve the glue on the cleaning part 5.
[0033] In practical applications, when the hydraulic rod 53 extends, it can drive the crossbar 51 to rotate upward until it drives the rotating motor 52 and the cleaning part 5 to move to the position of the outlet 44 to perform a cleaning operation on the outlet 44. When the hydraulic rod 53 shortens, it drives the cleaning part 5 to move into the dissolving liquid 54 to perform a cleaning operation.
[0034] Reference Figure 1 , Figure 2 , Figure 3 and Figure 4 The lifting assembly 6 includes a horizontal bar 61 installed on the lower side of the conveyor roller 3. The horizontal bar 61 has a pair of horizontal bars, and swing bars 62 are installed at both ends of the horizontal bar 61. A support rod 63 is hinged to the swing bar 62. A pad 64 is installed on the upper surface of the support rod 63. The horizontal bar 61, the swing bar 62 and the support rod 63 form a parallelogram hinge relationship. A hydraulic rod 65 is hinged between the swing bar 62 and the horizontal bar 61.
[0035] In practical applications, the lifting component 6 is located within the gap of the conveying roller 3. When the glass body 1 moves to the designated position, the hydraulic rod 65 is extended, which drives the swing rod 62 to rotate to the right and at the same time drives the support rod 63 to rotate to the upward position. Then, the glass body 3 is moved to the glue application station. The glue application operation is realized by the movement of the robotic arm 2.
[0036] Example 1 of cleaning unit 5, refer to Figure 7 The cleaning section 5 is a cleaning brush 511, which facilitates cleaning of the arc-shaped outlet 44.
[0037] In practical applications, the cleaning brush 511 facilitates the cleaning of the opposite-sex outlet 44.
[0038] Example 2 of cleaning unit 5, refer to Figure 6 The cleaning section 5 is blade-shaped 512, which facilitates cleaning of the flat outlet 44.
[0039] In practical applications, the blade-shaped 512 facilitates cleaning of the flat outlet 44.
Claims
1. A butyl sealant applicator for tempered insulating glass, comprising a glass body (1), a robotic arm (2), and a conveyor roller (3), characterized in that, It also includes, Butyl rubber is discharged through the dispensing assembly (4); The cleaning section (5) cleans the dispensing assembly (4); Lifting component (6) lifts the glass body (1) diagonally upward.
2. The butyl sealant applicator for tempered insulating glass according to claim 1, characterized in that, The dispensing assembly (4) includes a pipe (41) installed at the working end of the robotic arm (2), a three-way valve (42) installed at the lower end of the pipe (41), a pipe (43) installed on both sides of the three-way valve (42), and an outlet (44) opened on the side of the pipe (43). The robotic arm (2) can drive the pipe (43) to rotate 180 degrees.
3. The butyl sealant applicator for tempered insulating glass according to claim 2, characterized in that, It also includes a crossbar (51), which is installed on the side of the conveyor roller (3). A rotating motor (52) is installed at one end of the crossbar (51), and the cleaning part (5) is installed at the working end of the rotating motor (52). A hydraulic rod (53) is installed between the crossbar (51) and the conveyor roller (3). The hydraulic rod (53) drives the crossbar (51) to swing up and down. A dissolving liquid (54) is provided on one side of the lower end of the conveyor roller (3) to dissolve the glue on the cleaning part (5).
4. The butyl sealant applicator for tempered insulating glass according to claim 3, characterized in that, The lifting assembly (6) includes a horizontal bar (61) installed on the lower side of the conveyor roller (3). The horizontal bar (61) has a pair of horizontal bars (61). Swing rods (62) are installed at both ends of the horizontal bar (61). Support rods (63) are hinged on the swing rods (62). Pads (64) are installed on the upper surface of the support rods (63). The horizontal bar (61), swing rods (62) and support rods (63) form a parallelogram hinge relationship. A hydraulic rod (65) is hinged between the swing rods (62) and the horizontal bar (61).
5. The butyl sealant applicator for tempered insulating glass according to claim 3, characterized in that, The cleaning section (5) is a cleaning brush (511) for easy cleaning of the arc-shaped outlet (44).
6. The butyl sealant applicator for tempered insulating glass according to claim 1, characterized in that, The cleaning section (5) is blade-shaped (512) to facilitate cleaning of the flat outlet (44).