Part processing water grinder with filtering mechanism
By designing a filter tower that integrates multi-stage filtration and cooling on the grinding machine, the problem of the large space occupied by the grinding machine is solved, and efficient grinding fluid filtration and cooling are achieved, thereby improving the integration and efficiency of the grinding machine.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- KUNSHAN QIMINJIN PRECISION TECH CO LTD
- Filing Date
- 2025-06-25
- Publication Date
- 2026-06-09
AI Technical Summary
The existing grinding machine's filtration mechanism, due to its integrated heat dissipation and cooling functions, occupies a large space, affecting the grinding machine's integration and efficiency.
Design a grinding machine with a filter tower. The filter tower is equipped with multiple external and internal leakage baffles. Combined with a stirring and heat dissipation mechanism and an air-cooling mechanism, it realizes the integration of multi-stage filtration and cooling. The heat dissipation area of the grinding fluid is expanded by the stirring rod, and cold air is injected by the air duct to accelerate heat exchange.
This technology reduces the space occupied by the grinding machine while improving the filtration and cooling efficiency of the grinding fluid, thus enhancing the integration and efficiency of the grinding machine.
Smart Images

Figure CN224334222U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of grinding equipment technology, and in particular to a water grinding machine for parts processing with a filtration mechanism. Background Technology
[0002] During the grinding process, a large amount of grinding heat is generated between the grinding wheel and the material, with the temperature in the grinding zone reaching approximately 400–1000℃. At such high temperatures, the material will deform and burn, and the grinding wheel will wear severely, resulting in a decline in grinding quality. Grinding fluid is usually used in grinding to reduce the temperature in the grinding zone. However, after absorbing heat, the grinding fluid also contains a lot of impurities. To facilitate the recycling of the grinding fluid, a filtration mechanism is needed to filter it. However, existing grinding machine filtration mechanisms require the integration of heat dissipation and cooling functions, resulting in low integration of the entire grinding machine and a large space occupation. Based on this, a water-cooled grinding machine with a filtration mechanism is proposed to solve the above problems. Utility Model Content
[0003] To address the technical problem of grinding machines occupying a large space, this utility model provides a water grinding machine for parts processing with a filtration mechanism.
[0004] This utility model is achieved using the following technical solution: a water grinding machine for parts processing with a filtration mechanism, including a worktable, a body mounted on one side of the worktable, a filter tower mounted on one side of the worktable, multiple external leakage baffles mounted on the inner side of the filter tower, multiple external leakage holes opened on the outer edge of each external leakage baffle, an internal leakage baffle fixedly connected to the inner side of the filter tower between two adjacent external leakage baffles, an internal leakage hole opened at the center of each internal leakage baffle, a stirring and heat dissipation mechanism provided on each external leakage baffle and internal leakage baffle, a filtration mechanism provided in the upper internal space of the filter tower, a wind-cooling heat dissipation mechanism provided on the side of the filter tower, and a grinding fluid circulation mechanism provided on the upper side of the worktable.
[0005] As a further improvement to the above solution, the stirring and heat dissipation mechanism includes a transmission rod rotatably connected between the lower side of the uppermost outer leakage baffle and the bottom side of the filter tower. Multiple stirring rods arranged in a circular array are provided on the upper side of each outer and inner leakage baffle. The ends of the multiple stirring rods that are close to each other are fixedly connected to the side of the transmission rod. A servo motor is installed on the lower side of the filter tower, and the output end of the servo motor is fixedly connected to the lower end of the transmission rod.
[0006] As a further improvement to the above solution, the filtration mechanism includes multiple filter plate mounting slots opened on the filtration tower. The multiple filter plate mounting slots are arranged in a linear array. A filter frame is slidably connected to the inner side of each filter plate mounting slot, and a filter screen is provided on each filter frame.
[0007] As a further improvement to the above solution, the air-cooled heat dissipation mechanism includes an air duct that communicates with the outer side of the bottom of the filter tower. The lower port of the air duct is located below the lowest inner leakage baffle, and a blower is installed at the upper port of the air duct.
[0008] As a further improvement to the above solution, the grinding fluid circulation mechanism includes a water tank fixedly connected to the upper side of the worktable, and a diversion channel is provided on the worktable. One end of the diversion channel is connected to one side of the water tank, and the other end of the diversion channel is connected to the upper side of the filter tower.
[0009] As a further improvement to the above solution, an oil pump is installed on the outer bottom of the filter tower, and one end of the oil pump is connected to the water tank.
[0010] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0011] 1. This utility model integrates and installs multiple filter screens and multiple external and internal leakage baffles in one filter tower at the same time. Under the premise of ensuring multi-stage filtration function, it realizes the effect of filtration and cooling heat dissipation in one filter tower at the same time, reducing the space occupied by the grinding machine.
[0012] 2. This utility model uses a wind-cooled heat dissipation mechanism in conjunction with multiple external and internal leakage baffles. The grinding oil flows back and forth between the external and internal leakage holes on the external and internal leakage baffles, encountering the cold air injected from the external blower. Then, the grinding oil on each external and internal leakage baffle is stirred by the stirring rod, which expands the contact area for heat dissipation of the grinding oil and has the effect of accelerating heat exchange and rapid cooling. Attached Figure Description
[0013] Figure 1 A schematic diagram of the overall structure of a water grinding machine with a filtration mechanism for parts processing provided by this utility model;
[0014] Figure 2 for Figure 1 Side view;
[0015] Figure 3 for Figure 2 A sectional view;
[0016] Figure 4 for Figure 3 A schematic diagram of the explosion structure.
[0017] Explanation of key symbols:
[0018] 1. Workbench; 2. Vehicle body; 3. Drainage channel; 4. Filter screen; 5. Water tank; 6. Blower; 7. Air duct; 8. Filter tower; 9. Filter frame; 10. External leakage partition; 11. Internal leakage partition; 12. External leakage hole; 13. Internal leakage hole; 14. Transmission rod; 15. Stirring rod; 16. Servo motor; 17. Filter plate mounting slot. Detailed Implementation
[0019] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. It should be noted that, without conflict, the various embodiments or technical features described below can be arbitrarily combined to form new embodiments.
[0020] Example:
[0021] Please combine Figures 1-3 This embodiment of a water grinding machine for parts processing with a filtration mechanism includes a worktable 1, a body 2 mounted on one side of the worktable 1, and components such as grinding wheels and motors mounted on the body 2.
[0022] Please combine Figure 3 As shown, a filter tower 8 is installed on one side of the workbench 1. In this embodiment, the filter tower 8 is a cylindrical structure. It should be noted that sufficient space is reserved at the bottom of the filter tower 8 for use as a settling tank. The grinding oil filtered through the settling tank is directly pumped to the water tank 5.
[0023] Please combine Figure 3 As shown, two external leakage baffles 10 are installed on the inner side of the filter tower 8. Each external leakage baffle 10 has multiple external leakage holes 12 on its outer edge. An internal leakage baffle 11 fixedly connected to the inner side of the filter tower 8 is provided between two adjacent external leakage baffles 10. An internal leakage hole 13 is provided at the center of the two internal leakage baffles 11. In this embodiment, the internal leakage hole 13 is a circular structure.
[0024] Please combine Figure 1 As shown, each external leakage baffle 10 and internal leakage baffle 11 is equipped with a stirring and heat dissipation mechanism, the upper space inside the filter tower 8 is equipped with a filtration mechanism, the side of the filter tower 8 is equipped with a wind-cooling heat dissipation mechanism, and the upper side of the workbench 1 is equipped with a grinding fluid circulation mechanism.
[0025] Please combine Figure 3 As shown, the stirring and heat dissipation mechanism includes a transmission rod 14 rotatably connected between the lower side of the uppermost outer leakage baffle 10 and the bottom side of the filter tower 8. It should be noted that the transmission rod 14 is rotatably connected to each outer leakage baffle 10. In addition, the transmission rod 14 passes through the inner leakage hole 13 on the inner leakage baffle 11.
[0026] Please combine Figure 1As shown, each outer leakage baffle 10 and inner leakage baffle 11 is provided with three circumferentially arrayed stirring rods 15 on its upper side. The ends of the three stirring rods 15 that are close to each other are fixedly connected to the side of the transmission rod 14, and the lower end of each stirring rod 15 is slidably connected to the upper side of the baffle.
[0027] Through the above technical solution, when the grinding oil flows on each partition under its own gravity, the stirring rod 15 can expand the heat dissipation area by disrupting the grinding oil, so as to make full contact with the cold air and achieve the heat dissipation effect by the upward flow of the high temperature air.
[0028] Please combine Figure 4 As shown, the filtration mechanism includes three filter plate mounting slots 17 opened on the filter tower 8. The three filter plate mounting slots 17 are arranged in a linear array. In this embodiment, the filter plate mounting slots 17 are opened at an angle. Currently, the grinding oil filtration system commonly used in the market has five layers of filter screens, and the mesh size increases layer by layer, down to 5 nanometers. In other embodiments, it can be set according to actual needs.
[0029] Please combine Figure 4 As shown, a filter frame 9 is slidably connected to the inner side of each filter plate mounting slot 17, and a filter screen 4 is provided on each filter frame 9. Since the filter system of the grinding machine needs to be replaced frequently, the filter frame 9 and the filter screen 4 are assembled in a detachable manner for easy replacement later.
[0030] Please combine Figure 4 As shown, the air-cooled heat dissipation mechanism includes an air duct 7 that is connected to the outer side of the bottom of the filter tower 8. The lower end of the air duct 7 is located below the bottommost inner leakage baffle 11, and a blower 6 is installed at the upper end of the air duct 7.
[0031] Through the above scheme, cold air from outside can be injected into the bottom of the filter tower 8 via the air duct 7 and the blower 6;
[0032] Please combine Figure 1 As shown, the grinding fluid circulation mechanism includes a water tank 5 fixedly connected to the upper side of the worktable 1. A diversion channel 3 is provided on the worktable 1. One end of the diversion channel 3 is connected to one side of the water tank 5, and the other end of the diversion channel 3 is connected to the upper side of the filter tower 8.
[0033] Please combine Figure 1 As shown, an oil pump is installed on the outer side of the bottom of the filter tower 8. One end of the oil pump is connected to the water tank 5. The low-temperature grinding oil at the bottom of the filter tower 8 can be directly injected into one end of the water tank 5 through the oil pump, thereby achieving the effect of circulating heat dissipation and filtration.
[0034] The implementation principle of a water grinding machine with a filtration mechanism in this application embodiment is as follows: the grinding oil after grinding flows through the water tank 5, along the guide channel 3, to the top of the filter tower 8, and then enters the interior of the filter tower 8. After passing through multiple filter screens 4 with different filtration precisions, the grinding oil flows downward to the first external leakage baffle 10. The grinding oil flows downward to the internal leakage baffle 11 through multiple external leakage holes 12 distributed around the perimeter, and then flows downward to the next external leakage baffle 10 along the internal leakage hole 13 on the internal leakage baffle 11, and so on, migrating and flowing back and forth. At the same time, the blower 6 on one side injects air into the bottom of the filter tower 8 from the lower end of the air duct 7. The air flows upward and fully interacts with the high-temperature grinding oil flowing downward from the external leakage hole 12, internal leakage hole 13 and filter screen 4. By increasing the heat dissipation area, the heat of the grinding oil is dissipated to the outside.
[0035] The above embodiments are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.
Claims
1. A water grinder for machining parts with a filtration mechanism, comprising a worktable (1), characterized in that, A vehicle body (2) is installed on one side of the workbench (1), and a filter tower (8) is installed on one side of the workbench (1). Multiple external leakage baffles (10) are installed on the inner side of the filter tower (8). Multiple external leakage holes (12) are opened on the outer edge of each external leakage baffle (10). An internal leakage baffle (11) is fixedly connected to the inner side of the filter tower (8) between two adjacent external leakage baffles (10). An internal leakage hole (13) is opened at the center of each internal leakage baffle (11). A stirring and heat dissipation mechanism is provided on each external leakage baffle (10) and internal leakage baffle (11). A filtration mechanism is provided in the upper space inside the filter tower (8). A wind-cooled heat dissipation mechanism is provided on the side of the filter tower (8). A grinding fluid circulation mechanism is provided on the upper side of the workbench (1).
2. A water grinding machine for machining parts with a filtration mechanism as described in claim 1, characterized in that, The stirring and heat dissipation mechanism includes a transmission rod (14) rotatably connected between the lower side of the uppermost outer leakage partition (10) and the bottom side of the filter tower (8). Each outer leakage partition (10) and inner leakage partition (11) is provided with a plurality of stirring rods (15) arranged in a circumferential array on its upper side. The ends of the plurality of stirring rods (15) that are close to each other are fixedly connected to the side of the transmission rod (14). A servo motor (16) is installed on the lower side of the filter tower (8). The output end of the servo motor (16) is fixedly connected to the lower end of the transmission rod (14).
3. A water-jetting machine for machining parts with a filtration mechanism as described in claim 1, characterized in that, The filtration mechanism includes multiple filter plate mounting slots (17) opened on the filter tower (8). The multiple filter plate mounting slots (17) are arranged in a linear array. A filter frame (9) is slidably connected to the inner side of each filter plate mounting slot (17). A filter screen (4) is provided on each filter frame (9).
4. A water grinding machine for machining parts with a filtration mechanism as described in claim 1, characterized in that, The air-cooled heat dissipation mechanism includes an air duct (7) that communicates with the outer side of the bottom of the filter tower (8). The lower port of the air duct (7) is located below the bottommost inner leakage baffle (11), and a blower (6) is installed at the upper port of the air duct (7).
5. A water grinding machine for machining parts with a filtration mechanism as described in claim 1, characterized in that, The grinding fluid circulation mechanism includes a water tank (5) fixedly connected to the upper side of the workbench (1). A diversion channel (3) is provided on the workbench (1). One end of the diversion channel (3) is connected to one side of the water tank (5), and the other end of the diversion channel (3) is connected to the upper side of the filter tower (8).
6. A water grinding machine for machining parts with a filtration mechanism as described in claim 5, characterized in that, An oil pump is installed on the outer bottom of the filter tower (8), and one end of the oil pump is connected to the water tank (5).