A machine parts processing worktable that facilitates chip removal

By combining a slotted plate with an electromagnet on the worktable, the problem of difficult collection and cleaning of iron filings is solved, enabling convenient iron filings handling and improving processing efficiency.

CN224425509UActive Publication Date: 2026-06-30XIANGYANG WEIBANG MASCH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIANGYANG WEIBANG MASCH CO LTD
Filing Date
2025-03-26
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Traditional workbenches are difficult to collect and clean effectively when processing mechanical parts, and the iron filings generated are prone to slipping onto the ground, increasing the difficulty of cleaning.

Method used

A slot is set on the workbench to support the iron plate, and an electromagnet is embedded below the iron plate area. When energized, the iron plate and iron filings are attracted and the iron filings are collected by magnetism. After the power is turned off, the iron plate is removed for cleaning.

Benefits of technology

It enables convenient collection and cleaning of iron filings, prevents iron filings from slipping, simplifies the cleaning process, and improves work efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224425509U_ABST
    Figure CN224425509U_ABST
Patent Text Reader

Abstract

This utility model relates to the field of workbench technology and discloses a machining workbench for easy chip removal of mechanical parts. It includes a tabletop and an iron plate. A groove is formed on the front surface of the tabletop, and the iron plate is supported and placed in the groove. Support grooves are formed at the four corners of the groove, and inserts are fixed at the four corners of the bottom of the iron plate, aligned with the support grooves. When the iron plate is placed in the groove, the inserts are inserted into the support grooves. An electromagnet is embedded in the tabletop below the groove. When the electromagnet is magnetic, the iron plate is attracted and adhered tightly to the groove, becoming magnetic. This utility model's technical solution, by setting a groove on the tabletop to support and place the iron plate, and embedding an electromagnet inside the tabletop below the iron plate area, allows the electromagnet to be energized and magnetic during part machining. This not only attracts the iron plate tightly in the groove but also makes the iron plate magnetic, facilitating the collection of iron chips and preventing them from slipping. It also allows for easy removal of the iron plate and cleaning of the collected iron chips afterward by de-energizing the electromagnet.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of workbench technology, specifically to a mechanical parts processing workbench that facilitates chip removal. Background Technology

[0002] Mechanical parts, also known as mechanical components, are the basic elements that make up a machine. They are individual components that cannot be separated from a machine. During the processing of mechanical parts, it is usually done on a specific workbench to facilitate the processing of mechanical parts by workers. The processing includes operations such as cutting, grinding, and drilling. Some iron filings will be generated during these processing.

[0003] Traditional workbenches generate metal shavings on their surface during machining, which is inconvenient to clean after machining and can easily slide onto the floor during the process, further increasing the cleaning difficulty. Therefore, we propose a machine tool workbench that facilitates shaving removal. Utility Model Content

[0004] The purpose of this utility model is to provide a machining workbench for easy chip removal of mechanical parts. By setting a groove on the table surface to support and place an iron plate, and embedding an electromagnet inside the table surface below the iron plate area, the electromagnet is energized and becomes magnetic during part processing. This not only attracts the iron plate tightly into the groove, but also makes the iron plate magnetic, which facilitates the collection of iron chips and prevents the iron chips from slipping. Afterward, the electromagnet can be de-energized to remove the iron plate and clean up the collected iron chips, thus solving the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a machine parts processing workbench for easy chip removal, comprising a table surface and an iron plate. A groove is formed on the front surface of the table surface, and the iron plate is supported and placed in the groove at the front end of the table surface. Support grooves are formed at the four corners of the surface of the groove, and inserts are fixed at the four corners of the bottom of the iron plate aligned with the support grooves. When the iron plate is placed in the groove, the inserts are inserted into the support grooves. An electromagnet is also embedded in the table surface below the groove. When the electromagnet is energized and becomes magnetic, the iron plate will be attracted and adhered to the groove and become magnetic.

[0006] By adopting the above technical solution, when processing parts, the electromagnet is energized to attract the iron plate, and at the same time, the iron plate becomes magnetic, which facilitates the attraction and collection of iron filings generated during the processing. After processing, the electromagnet can be de-energized, making it easy to remove the iron plate and clean up the collected iron filings.

[0007] Optionally, a surrounding plate is fixed around the outer ring of the iron plate surface, and the surrounding plate is fixed to the outer ring of the iron plate surface by welding.

[0008] By adopting the above technical solution, when there are waste chips that cannot be magnetically attracted, the enclosure can play a role in blocking and preventing slippage.

[0009] Optionally, handles are fixed to both sides of the iron plate, and the handles are fixed to the sides of the iron plate by welding.

[0010] By adopting the above technical solution, the iron plate can be easily picked up and the iron filings collected by the magnetic absorption can be poured out using the handle.

[0011] Optionally, a rubber block is attached to and fixed to the bottom surface of the support groove, and a rubber pad is attached to and fixed to the bottom surface of the iron plate. When the iron plate is clamped in the plate groove, the insert block is pressed against the surface of the rubber block, and the rubber pad at the bottom of the iron plate is pressed against the surface of the plate groove.

[0012] By adopting the above technical solution, when the iron plate is magnetically locked, the insert block is pressed against the surface of the rubber block, while the iron plate is pressed against the surface of the plate groove by the rubber pad, which can fill the gap between the iron plate and the plate groove and prevent the iron plate from shaking when magnetically attracted.

[0013] Optionally, a back panel is vertically fixed to the rear end of the tabletop, and two storage boards are horizontally fixed to the front end of the back panel.

[0014] By adopting the above technical solution, tools used in the processing can be placed on the surface of the shelf.

[0015] Optionally, the bottom four corners of the tabletop are each vertically supported and fixed with legs, and four legs are provided.

[0016] By adopting the above technical solution, stable support for the tabletop is achieved through the support legs.

[0017] Compared with the prior art, the beneficial effects of the technical solution of this application are as follows:

[0018] 1. The technical solution of this application sets a slot on the table to support and place an iron plate, and embeds an electromagnet inside the table below the iron plate area. When the parts are processed, the electromagnet is energized and becomes magnetic, which can not only hold the iron plate tightly in the slot, but also make the iron plate magnetic to facilitate the adsorption and collection of iron filings, preventing the iron filings from slipping off and making it easy to remove the iron plate and clean up the collected iron filings after the electromagnet is de-energized.

[0019] 2. The technical solution of this application has a surrounding plate fixed around the outer ring of the iron plate, which can block and collect a small amount of waste that cannot be magnetically attracted.

[0020] 3. The technical solution of this application provides support grooves at the four corners of the plate groove, and inserts that can be inserted into the support grooves are provided at the bottom of the iron plate. When the iron plate is supported in the plate groove, the inserts are inserted into the support grooves, which can achieve the purpose of quick positioning and support of the iron plate. Attached Figure Description

[0021] Other features, objects, and advantages of this invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:

[0022] Figure 1 This is a schematic diagram of the overall structure of the machine parts processing workbench for easy chip removal according to this utility model.

[0023] Figure 2 This is a schematic diagram of the structure of the machine parts processing workbench of this utility model after the iron plate is removed, which facilitates chip removal.

[0024] Figure 3 This is a schematic diagram of the cross-sectional structure of the support groove of the machining workbench for easy chip removal of mechanical parts according to this utility model.

[0025] In the diagram: 1. Tabletop; 11. Slot; 12. Support slot; 121. Rubber block; 13. Electromagnet; 14. Support leg; 2. Iron plate; 21. Enclosure; 22. Handle; 23. Insert block; 3. Back panel; 31. Shelf. Detailed Implementation

[0026] Please see Figure 1-3 This utility model provides a technical solution: a mechanical parts processing workbench that facilitates chip removal. Similar to the prior art, it includes a table surface 1, with four vertically fixed support legs 14 at the bottom corners of the table surface 1. The four support legs 14 are of the same height, which realizes the horizontal support of the table surface 1, and parts processing operations can be performed on the table surface 1.

[0027] A back panel 3 is vertically fixed at the rear end of the tabletop 1. The back panel 3 is perpendicular to the tabletop 1, and two shelves 31 are horizontally fixed at the front end of the back panel 3. Tools needed during processing can be placed on the top of each shelf 31 for easy access. For lighting purposes, supplementary lights can be installed at the bottom of the shelf 31 as needed.

[0028] To facilitate the collection and cleaning of iron filings, the following features differ from existing technologies: an iron plate 2 is also provided. The front surface of the tabletop 1 has a groove 11 adapted to the size of the iron plate 2, so that the iron plate 2 can be properly supported and placed in the groove 11 at the front of the tabletop 1. In order to ensure that the iron plate 2 is aligned and positioned during placement, support grooves 12 are provided at the four corners of the surface of the groove 11. Insert blocks 23 are fixed at the four corners of the bottom of the iron plate 2, which are aligned with the support grooves 12. When the iron plate 2 is placed in the groove 11, the insert blocks 23 are inserted into the support grooves 12.

[0029] Additionally, an electromagnet 13 is embedded inside the platform 1 below the slot 11. When the electromagnet 13 is energized and becomes magnetic, the iron plate 2 will be attracted and adhered to the slot 11 and become magnetic. A rubber block 121 is attached and fixed to the bottom surface of the support slot 12, and a rubber pad is attached and fixed to the bottom surface of the iron plate 2. When the iron plate 2 is attracted and fixed in the slot 11, the insert block 23 presses against the surface of the rubber block 121, and the rubber pad at the bottom of the iron plate 2 presses against the surface of the slot 11. Through the setting of the rubber block 121 and the rubber pad, the iron plate 2 is attracted and adhered to the slot 11 without shaking. Then, mechanical parts processing operations can be performed. The generated iron filings will fall onto the surface of the iron plate 2 and be magnetically attracted, making it difficult for them to slide outward.

[0030] A surrounding plate 21 is fixed around the outer ring of the surface of the iron plate 2. The surrounding plate 21 is fixed to the outer ring of the surface of the iron plate 2 by welding. The surrounding plate 21 can block a small amount of waste that cannot be magnetically attracted and prevent it from slipping off.

[0031] Handles 22 are fixed to both sides of the iron plate 2. The handles 22 are fixed to the sides of the iron plate 2 by welding. After processing, the electromagnet 13 is de-energized and loses its magnetism. The iron plate 2 can be lifted by the handles 22 on both sides, and the insert block 23 at the bottom of the iron plate 2 can be removed from the support groove 12. Thus, the iron filings and waste collected on the surface of the iron plate 2 can be quickly and conveniently poured away and cleaned by tilting.

[0032] In use, connect electromagnet 13 to the control device and energize the control device. When machining mechanical parts, first energize electromagnet 13 to make it magnetic. Electromagnet 13 will then pull the iron plate 2 downwards and make it stick to the plate groove 11. At the same time, the surface of the iron plate 2 will also become magnetic. When cutting, grinding and other processing of parts, iron chips will fall on the surface of the iron plate 2 and be attracted by the magnet, making it difficult for them to slide outwards. The setting of the enclosure plate 21 can block a small amount of waste chips that cannot be attracted by the magnet and prevent them from sliding down. After processing is completed, de-energize electromagnet 13 and make it lose its magnetism. The iron plate 2 can be lifted by the handles 22 on both sides, so that the insert block 23 at the bottom of the iron plate 2 can be removed from the support groove 12. Thus, the iron chips and waste chips collected on the surface of the iron plate 2 can be quickly and conveniently poured out and cleaned by tilting. Tools frequently used in the processing can be placed on the surface of the shelf 31.

Claims

1. A machining workbench for easy chip removal of mechanical parts, comprising a table surface (1) and an iron plate (2), characterized in that: The front surface of the table (1) is provided with a plate groove (11), and the iron plate (2) is supported in the plate groove (11) at the front end of the table (1); The plate groove (11) has support grooves (12) at all four corners. The bottom corners of the iron plate (2) aligned with the support grooves (12) are fixed with inserts (23). When the iron plate (2) is placed in the plate groove (11), the inserts (23) are inserted into the support grooves (12). An electromagnet (13) is also embedded in the platform (1) below the plate groove (11). When the electromagnet (13) is energized and becomes magnetic, the iron plate (2) will be attracted and stuck to the plate groove (11) and become magnetic.

2. The machining workbench for easy chip removal of mechanical parts according to claim 1, characterized in that: The outer ring of the surface of the iron plate (2) is fixed with a surrounding plate (21), and the surrounding plate (21) is fixed to the outer ring of the surface of the iron plate (2) by welding.

3. The machining workbench for easy chip removal of mechanical parts according to claim 1, characterized in that: Handles (22) are fixed to both sides of the iron plate (2), and the handles (22) are fixed to the side of the iron plate (2) by welding.

4. The machining workbench for easy chip removal of mechanical parts according to claim 1, characterized in that: A rubber block (121) is attached to the bottom surface of the support groove (12), and a rubber pad is attached to the bottom surface of the iron plate (2). When the iron plate (2) is sucked into the plate groove (11), the insert block (23) abuts against the surface of the rubber block (121), and the rubber pad at the bottom of the iron plate (2) abuts against the surface of the plate groove (11).

5. The machining workbench for easy chip removal of mechanical parts according to claim 1, characterized in that: The back panel (3) is vertically fixed at the rear end of the tabletop (1), and two storage boards (31) are horizontally fixed at the front end of the back panel (3).

6. The machining workbench for easy chip removal of mechanical parts according to claim 1, characterized in that: The bottom four corners of the tabletop (1) are each vertically supported and fixed with legs (14), and there are four legs (14).