A glass bottle impact resistance testing device
By designing an automated glass bottle impact resistance testing device, which utilizes transmission and clamping components to achieve automatic rotation and impact testing of glass bottles, the problems of complex operation and poor continuity of existing devices are solved, and testing efficiency is improved.
CN224383025UActive Publication Date: 2026-06-19HONGZE GANGHONG GLASS BOTTLE MFG CO LTD
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HONGZE GANGHONG GLASS BOTTLE MFG CO LTD
- Filing Date
- 2025-05-12
- Publication Date
- 2026-06-19
AI Technical Summary
⚠Technical Problem
Existing glass bottle impact resistance testing equipment is complex to operate and has poor continuity, resulting in low testing efficiency.
⚗Method used
A glass bottle impact resistance testing device was designed, comprising a first ring seat, a transmission assembly, a clamping assembly, and an impact plate. The transmission assembly drives the rotating ring to rotate, thereby realizing the automated rotation and impact testing of the glass bottle and simplifying the operation process.
🎯Benefits of technology
This improved the ease of operation and continuity of glass bottle impact resistance testing, significantly enhancing testing efficiency.
✦ Generated by Eureka AI based on patent content.
Smart Images
Figure 1 Figure 2
Abstract
This utility model discloses a glass bottle impact resistance testing device, relating to the field of glass bottle testing technology. Its key technical features include a first ring seat and a transmission assembly. A first rotating ring is rotatably connected to the first ring seat, and multiple clamping components are arranged on the first rotating ring for clamping glass bottles. A horizontal arm is fixedly connected to the first ring seat, and a second ring seat is fixedly connected to the horizontal arm. A second rotating ring is rotatably connected to the second ring seat, and multiple push rods are fixedly connected to the second rotating ring. A horizontal shaft is fixedly connected to the second ring seat, and an impact plate is rotatably connected to the horizontal shaft. An impact head is fixedly connected to the impact plate, and a release groove adapted to the push rods is formed on the impact plate. The operator only needs to rotate the first rotating ring to sequentially send multiple glass bottles to the testing position and complete the impact. The operation is simple, and the testing continuity is good, effectively improving testing efficiency.
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