An inter-process operating platform
By setting up a hollow workpiece placement platform, protective baffle, funnel structure, and iron filings collection box on the inter-process operation platform, the problem of iron filings scattering was solved, and the automatic collection of iron filings and the cleanliness and accuracy of the inspection tools were improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGLING MOTORS
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-23
AI Technical Summary
During the workpiece cleaning and deburring process, the existing inter-process operation platform causes severe iron filings to scatter, resulting in time-consuming and labor-intensive cleaning, and affecting the cleanliness of the inspection tools and the accuracy of the inspection.
Design an inter-process operation platform, including a hollow workpiece placement platform, a protective baffle, a funnel structure, and a chip collection box. Combined with a grid and a protective sleeve, it can realize automatic collection of chips and prevent splashing, ensuring the cleanliness and accuracy of the inspection tool.
It enables automatic collection of iron filings, reduces manual cleaning time, and improves the cleanliness and detection accuracy of the inspection tool.
Smart Images

Figure CN224391087U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of automobile manufacturing, specifically to an inter-process operation platform. Background Technology
[0002] An inter-process operating platform is typically set up between machining operations. Workers take the finished workpieces from the machine tool to this platform for cleaning, deburring, and inspection. Common inter-process operating platforms have relatively simple structures. While they fulfill basic functions, they offer little or no protection or collection of metal shavings, requiring workers to spend considerable time cleaning and tidying them. Furthermore, scattered metal shavings falling onto the inspection fixtures affect their cleanliness, consequently impacting the fixture's inspection accuracy.
[0003] Existing technologies employ, such as Figure 1 The operating platform shown has the following issues: after machining, the workpiece is placed on the workpiece placement platform. During the cleaning and deburring process, metal shavings splashed onto the shavings collection tray. The fixture placement platform is located below the workpiece placement platform and is used for the fixed placement of fixtures. However, this type of operating platform has the following problems: metal shavings generated during workpiece cleaning and deburring can randomly scatter to various locations on the operating platform between processes, and may even fly off the platform; the shavings collection tray at the bottom needs to be manually cleaned regularly, which is time-consuming and labor-intensive; and since the fixtures are placed below or on the same plane as the workpiece placement platform, the random falling of metal shavings onto the fixtures can affect their cleanliness, thus affecting the inspection accuracy. Utility Model Content
[0004] To address the aforementioned problems, this utility model proposes an inter-process operation platform for cleaning, deburring, and inspecting workpieces. The specific technical solution is as follows:
[0005] An inter-process operating platform includes four platform supports. A workpiece placement platform is set in the middle of the platform supports, with open spaces between the two ends of the workpiece placement platform and the platform supports. A funnel is set below the workpiece placement platform, with its perimeter aligned with the perimeter of the platform supports. A scrap collection box is set at the bottom of the funnel. Protective baffles are set on three sides of the workpiece placement platform, excluding the operating standing surface. A gauge placement box is set on the protective baffle opposite the operating standing surface, and the gauge placement box is higher than the workpiece placement platform.
[0006] Furthermore, one end of the workpiece placement platform and the platform support is designed to be hollowed out.
[0007] Furthermore, a grid is provided at the inlet of the funnel, and the grid is covered with a protective sleeve.
[0008] Furthermore, a grid mesh is provided at the inlet of the funnel.
[0009] Furthermore, multiple inspection tool placement boxes can be set up and placed in appropriate positions on the protective barrier according to the needs of the staff.
[0010] This invention features protective baffles around the workpiece placement platform to prevent iron filings generated during workpiece cleaning and deburring from flying out. A funnel structure is designed at the bottom, allowing iron filings to pass through the gaps in the sheathed steel pipes and automatically fall into the iron filings collection box at the bottom. A fixture placement box is designed on the protective baffle, with a height difference between it and the operating platform, making it difficult for iron filings to fall into the box, ensuring the cleanliness and reliable accuracy of the fixtures. This invention eliminates the need for manual iron filings, providing automatic iron filings collection and excellent iron filings protection. Attached Figure Description
[0011] Figure 1 Inter-process operation platforms in existing technologies;
[0012] Figure 2 This utility model relates to an inter-process operation platform.
[0013] Figure label:
[0014] 1. Protective baffle; 2. Workpiece placement platform; 3. Inspection tool placement box; 4. Grating; 5. Funnel; 6. Scrap collection box.
[0015] 1'-Workpiece placement platform, 2'-Inspection tool placement platform, 3'-Scrap collection tray. Detailed Implementation
[0016] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0017] like Figure 2 As shown, an inter-process operating platform includes four platform supports. A workpiece placement platform 2 is set in the middle of the platform supports, with open spaces between the two ends of the workpiece placement platform and the platform supports. A funnel 5 is set below the workpiece placement platform, with its four sides aligned with the four sides of the platform supports. A scrap collection box 6 is set at the bottom of the funnel. Protective baffles 1 are set on the three sides of the workpiece placement platform except for the operating standing surface. A gauge placement box 3 is set on the protective baffle opposite to the operating standing surface, and the gauge placement box is higher than the workpiece placement platform.
[0018] Alternatively, depending on operational needs, a hollowed-out section can be set only on one end of the workpiece placement platform and the platform support.
[0019] A grid 4 is provided at the inlet of the funnel, and the grid is covered with a protective sleeve.
[0020] A grid can also be installed at the inlet of the funnel.
[0021] Multiple inspection tool placement boxes can be set up and placed in appropriate positions on the protective barrier according to the needs of the staff.
[0022] Protective baffles are installed around the workpiece placement platform to prevent iron filings generated during workpiece cleaning and deburring from flying out. A funnel structure is designed at the bottom, allowing iron filings to pass through the gaps in the sheathed steel pipes and automatically fall into the iron filings collection box at the bottom. A fixture placement box is designed on the protective baffle, with a height difference between it and the operating platform, making it difficult for iron filings to fall into the fixture placement box, ensuring the fixtures are clean and accurate.
[0023] The preferred embodiments of this patent have been described in detail above. However, this patent is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of this patent.
Claims
1. An inter-process operation platform, characterized in that: It includes four platform supports, with a workpiece placement platform set in the middle of the platform supports, and the two ends of the workpiece placement platform are hollowed out between the platform supports; A funnel is installed below the workpiece placement platform, with its four sides aligned with the platform support. A scrap collection box is installed at the bottom of the funnel. Protective baffles are installed on three sides of the workpiece placement platform, excluding the operating standing surface. A gauge placement box is installed on the protective baffle opposite the operating standing surface, and the gauge placement box is higher than the workpiece placement platform.
2. The inter-process operation platform according to claim 1, characterized in that: The workpiece placement platform and the platform support are separated by a hollowed-out section on one side.
3. The inter-process operation platform according to claim 1, characterized in that: A grid is provided at the inlet of the funnel, and the grid is covered with a protective sleeve.
4. The inter-process operation platform according to claim 1, characterized in that: A grid mesh is installed at the inlet of the funnel.
5. The inter-process operation platform according to claim 1, characterized in that: Multiple inspection tool placement boxes can be set up and placed in appropriate positions on the protective barrier according to the needs of the staff.