Alloy block processing and polishing mechanism
The alloy block processing and grinding mechanism, designed with wind suction and multi-stage barrier nets, solves the problems of resource waste and equipment damage in existing technologies, and achieves efficient debris collection and equipment protection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUIZHOU PUJI PRECISION CUTTING TOOL CO LTD
- Filing Date
- 2025-06-16
- Publication Date
- 2026-06-05
Smart Images

Figure CN224322876U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of alloy processing technology, specifically to an alloy stop processing and grinding mechanism. Background Technology
[0002] In the alloy processing process, grinding equipment is also needed to grind some alloy parts. Through grinding, alloy blocks are made to limit the range of motion of equipment or structures, and to ensure the safety and stability of equipment or structures.
[0003] Publication number CN214213280U discloses a grinding device for alloy processing. This device, through the coordinated use of a vertical rod, threaded shaft, pressure block, horizontal rod, and a second hydraulic cylinder, can clamp and fix alloy parts of different sizes. It is simple and convenient to operate, highly flexible, and enhances practicality. However, during use, this equipment uses a spray method to wash the alloy surface, and the grinding process is a long and formulaic process that consumes a large amount of water. Furthermore, it requires an additional collection and filtration mechanism to reuse the sprayed water. Additionally, the connection seals need to be checked regularly to prevent water from flowing into the clamping mechanism below and damaging the equipment, which is relatively wasteful of resources. Therefore, we propose an alloy block processing and grinding mechanism. Utility Model Content
[0004] To address the problems in the existing technology, this utility model provides an alloy stop block processing and grinding mechanism.
[0005] The technical solution adopted by this utility model to solve its technical problem is an alloy block processing and grinding mechanism, including a processing chamber, a transfer chamber is connected through one side of the processing chamber, a ventilation connection chamber is connected through and fixedly connected to the side of the transfer chamber away from the processing chamber, an exhaust fan box is connected through the side of the ventilation connection chamber away from the transfer chamber, and a second barrier net is installed on the side of the exhaust fan box facing the ventilation connection chamber.
[0006] A first barrier net is fixedly installed inside the transfer compartment on the side facing the ventilation connection compartment. The bottom end of the first barrier net has a debris passage. A waste collection compartment is fixedly connected to the bottom end of the transfer compartment. A guide plate for guiding waste to slide down is provided on the inner wall of the top of the waste collection compartment. A collection box for collecting waste is provided inside the waste collection compartment.
[0007] By adopting the above technical solution, during the processing and polishing process in the processing chamber, the suction machine in the exhaust fan box guides the airflow along the transfer chamber and the ventilation connection chamber, and finally enters the exhaust fan box. This allows the generated debris to enter the collection container along the airflow and the guide path. During the guidance process, the first and second barrier nets are used to prevent debris from entering the exhaust fan box and causing equipment damage. The wind-powered suction structure attracts and collects the debris, which relatively reduces the waste of resources.
[0008] Once processing is complete, the debris blocked by the ventilation connection chamber falls directly down along the guide plate into the inside of the collection box, while the debris blocked by the anti-debris baffle and the second barrier net slides down the ventilation connection chamber, passes through the debris inlet, and enters the collection box placed inside the waste collection chamber for collection.
[0009] Specifically, a debris-proof baffle is fixedly connected to the end of the ventilation connection chamber away from the transfer chamber.
[0010] By adopting the above technical solution, a multi-stage blocking mechanism and a debris discharge baffle are used to block and change the airflow direction during the debris suction process, thereby further preventing debris from entering the exhaust fan box with the airflow and causing equipment damage.
[0011] Specifically, the processing chamber is equipped with a plastic door on the side away from the transfer chamber to prevent debris from splashing; and multiple equidistant auxiliary ventilation ports are provided on both sides of the processing chamber adjacent to the transfer chamber.
[0012] By adopting the above technical solution, the grinding status can be observed through the plastic opening during the processing and grinding process, while preventing debris from flying. At the same time, air can be introduced through the auxiliary air vent on the side wall to help suck up debris.
[0013] Specifically, the bottom of the processing chamber is fixedly connected to an extension base, and the extension base is equipped with a clamping mechanism.
[0014] By adopting the above technical solution, the clamping mechanism can be adjusted to hold and fix the metal blocks of different specifications for processing, thereby enabling processing and polishing.
[0015] Specifically, a grinding mechanism is installed at the top of the processing chamber.
[0016] By adopting the above technical solution, the pre-set grinding mechanism on the top of the processing chamber can be remotely operated and controlled to process and grind the alloy block.
[0017] Compared with the prior art, the present invention has the following beneficial effects:
[0018] During the processing and polishing process in the processing chamber of this application's technical solution, the suction machine in the exhaust fan box guides the airflow along the transfer chamber and ventilation connection chamber, finally entering the exhaust fan box. This allows the generated debris to enter the collection container along the airflow and the guide path. During the guidance process, two barrier structures, the first barrier net and the second barrier net, are used to prevent debris from entering the exhaust fan box and causing equipment damage. The use of wind-powered suction structure to attract and collect the debris relatively reduces resource waste.
[0019] Once processing is complete, the debris blocked by the ventilation connection chamber falls directly down along the guide plate into the inside of the collection box, while the debris blocked by the anti-debris baffle and the second barrier net slides down the ventilation connection chamber, passes through the debris inlet, and enters the collection box placed inside the waste collection chamber for collection. Attached Figure Description
[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0021] Figure 1 This is an isometric view of the present invention;
[0022] Figure 2 This is a schematic diagram showing the structural breakdown between the transfer compartment, the ventilation connection compartment, and the exhaust fan box of this utility model.
[0023] Figure 3 This is a schematic diagram of the overall planar structure of the device of this utility model;
[0024] In the diagram: 1. Processing chamber; 2. Transfer chamber; 3. First barrier net; 4. Ventilation connection chamber; 5. Anti-chip baffle; 6. Exhaust fan box; 7. Second barrier net; 8. Waste collection chamber; 9. Collection box; 10. Chip inlet; 11. Guide plate; 12. Extension base; 13. Clamping mechanism; 14. Grinding mechanism; 15. Auxiliary ventilation port. Detailed Implementation
[0025] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0026] Please see Figure 1-3 This utility model provides a technical solution: an alloy block processing and grinding mechanism, including a processing chamber 1, a transfer chamber 2 is connected through one side of the processing chamber 1, a ventilation connection chamber 4 is connected through and fixedly connected to the side of the transfer chamber 2 away from the processing chamber 1, an exhaust fan box 6 is connected through the side of the ventilation connection chamber 4 away from the transfer chamber 2, and a second barrier net 7 is installed on the side of the exhaust fan box 6 facing the ventilation connection chamber 4.
[0027] The first barrier net 3 is fixedly installed inside the side of the transfer chamber 2 facing the ventilation connection chamber 4. The bottom end of the first barrier net 3 is provided with a debris passage 10. The bottom end of the transfer chamber 2 is connected to a waste collection chamber 8. The top inner wall of the waste collection chamber 8 is provided with a guide plate 11 for guiding the waste to slide down. The inside of the waste collection chamber 8 is provided with a collection box 9 for collecting waste.
[0028] During use, when the processing chamber 1 is being processed and polished, the suction machine in the exhaust fan box 6 guides the airflow along the transfer chamber 2 and the ventilation connection chamber 4, and finally enters the exhaust fan box 6. This allows the generated debris to enter the collection container along the airflow and the guide path. During the guidance process, the first barrier net 3 and the second barrier net 7 are used to prevent debris from entering the exhaust fan box 6 and causing equipment damage. The structure of wind power suction is used to attract and collect the debris, which relatively reduces the waste of resources.
[0029] After processing is completed, the debris blocked by the ventilation connection chamber 4 falls directly down along the guide plate 11 into the collection box 9. The debris blocked by the anti-debris baffle 5 and the second barrier net 7 slides down the ventilation connection chamber 4, passes through the debris opening 10, and enters the collection box 9 placed in the waste collection chamber 8 to complete the collection.
[0030] As shown in the figure, a debris-proof baffle 5 is fixedly connected to the end of the ventilation connection chamber 4 that is away from the transfer chamber 2.
[0031] During use, a multi-stage blocking mechanism and a debris discharge baffle are used to block and change the airflow direction during the debris suction process, thereby further preventing debris from entering the exhaust fan box 6 with the airflow and causing equipment damage.
[0032] As shown in the figure, the processing chamber 1 is equipped with a plastic door to prevent debris from splashing on the side away from the transfer chamber 2; and multiple auxiliary ventilation ports 15 are provided on both sides of the processing chamber 1 adjacent to the transfer chamber 2.
[0033] During use, the grinding process can be observed through the plastic opening to prevent debris from flying, while the auxiliary air vent 15 on the side wall allows air to be introduced and debris to be sucked in.
[0034] As shown in the figure, the bottom of the processing chamber 1 is fixedly connected to an extension base 12, and the extension base 12 is equipped with a clamping mechanism 13.
[0035] When in use, the clamping mechanism 13 is adjusted to clamp and fix the metal blocks to be processed according to different specifications, so as to carry out processing and grinding.
[0036] As shown in the figure, a grinding mechanism 14 is installed at the top of the processing chamber 1.
[0037] In use, the pre-set grinding mechanism 14 on the top of the processing chamber 1 is remotely operated and controlled to process and grind the alloy block.
[0038] The working principle and usage process of this utility model are as follows: The clamping mechanism 13 is adjusted to clamp and fix the metal blocks to be processed according to different specifications, thus performing processing and grinding. The grinding mechanism 14, preset on the top of the processing chamber 1, is remotely operated and controlled to process and grind the alloy blocks. During the processing and grinding process inside the processing chamber 1, the suction fan inside the exhaust fan box 6 guides the airflow along the transfer chamber 2 and the ventilation connection chamber 4, finally entering the exhaust fan box 6. This allows the generated debris to enter the collection container along the airflow and the guide path. During the guidance process, the first barrier net 3 and the second barrier net 7 prevent debris from entering the exhaust fan box 6 and causing equipment damage. The structure uses wind-powered suction to remove the debris. By attracting and collecting debris, resource waste is relatively reduced. During the process of suctioning debris, a multi-stage blocking mechanism and debris baffle are used to block and change the airflow direction, thereby further preventing debris from entering the exhaust fan box 6 with the airflow and causing equipment damage. During the processing and grinding process, the grinding status can be observed through the plastic opening and closing port while preventing debris from splashing. At the same time, air is introduced through the auxiliary ventilation port 15 on the side wall to assist in the suction of debris. When the processing is completed, the debris blocked by the ventilation connection chamber 4 falls directly down along the guide plate 11 into the collection box 9. The debris blocked by the debris baffle 5 and the second blocking net 7 slides down along the ventilation connection chamber 4, passes through the debris opening 10, and enters the collection box 9 placed in the waste collection chamber 8 to complete the collection.
[0039] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The descriptions of the above embodiments and specifications are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A machining and grinding mechanism for alloy stops, characterized in that, The equipment includes a processing chamber (1), a transfer chamber (2) is connected through one side of the processing chamber (1), a ventilation connection chamber (4) is connected through and fixedly connected to the side of the transfer chamber (2) away from the processing chamber (1), an exhaust fan box (6) is connected through the side of the ventilation connection chamber (4) away from the transfer chamber (2), and a second barrier net (7) is installed on the side of the exhaust fan box (6) facing the ventilation connection chamber (4). The transfer chamber (2) has a first barrier net (3) fixedly installed inside the side facing the ventilation connection chamber (4). The bottom end of the first barrier net (3) has a debris passage (10). The bottom end of the transfer chamber (2) is connected to a waste collection chamber (8). The top inner wall of the waste collection chamber (8) is provided with a guide plate (11) for guiding the waste to slide down. The inside of the waste collection chamber (8) is provided with a collection box (9) for collecting waste.
2. The alloy stop block processing and grinding mechanism according to claim 1, characterized in that, A debris-proof baffle (5) is fixedly connected to the end of the ventilation connection chamber (4) away from the transfer chamber (2).
3. The alloy stop processing and grinding mechanism according to claim 1, characterized in that, The processing chamber (1) is equipped with a plastic door on the side away from the transfer chamber (2) to prevent debris from splashing; and the processing chamber (1) is provided with multiple equidistant auxiliary ventilation ports (15) on both sides adjacent to the transfer chamber (2).
4. The alloy stop processing and grinding mechanism according to claim 1, characterized in that, The bottom end of the processing chamber (1) is fixedly connected to an extension base (12), and the extension base (12) is equipped with a clamping mechanism (13).
5. The alloy stop block processing and grinding mechanism according to claim 1, characterized in that, The top of the processing chamber (1) is equipped with a grinding mechanism (14).