A transmission shaft milling processing platform
By installing a collection box and cleaning device at the bottom of the milling cutter, the problem of separating and collecting metal chips and water in the milling of drive shafts is solved, achieving efficient chip collection and water recycling.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU WEIJIA PRECISION MASCH CO LTD
- Filing Date
- 2025-05-27
- Publication Date
- 2026-07-14
AI Technical Summary
During the milling process of the drive shaft, metal chips mixed with cooling water fall all over the machine tool and are difficult to collect effectively.
A collection box is installed at the bottom of the milling cutter, and a cleaning device consisting of a filter plate, spring, magnetic plate and rubber plate is used to collect and separate metal chips.
It effectively prevents metal shavings from scattering on the machine tool, facilitating subsequent cleaning and reducing resource waste.
Smart Images

Figure CN224488497U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of milling table technology, and in particular to a transmission shaft milling table. Background Technology
[0002] A drive shaft milling table is a special machine tool or worktable used for milling drive shafts. It is mainly used to machine planes, grooves, keyways, tooth profiles and other structures on the surface of drive shafts, and is one of the common pieces of equipment in the field of mechanical processing.
[0003] When milling a drive shaft on a milling machine, a water tank is installed on one side of the machine to prevent the tool and drive shaft from overheating. The water in the tank is used to cool the tool and drive shaft during machining. At the same time, the drive shaft will also generate a lot of metal chips during machining. These metal chips, mixed with the water used for cooling, will fall all over the machine tool, making it inconvenient to collect them later. Utility Model Content
[0004] This invention provides a milling table for drive shafts to address the problem that during the machining of drive shafts, a large amount of metal debris is generated. This debris, mixed with the water used for cooling, falls onto various parts of the machine tool, making subsequent collection inconvenient.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: a transmission shaft milling table, comprising a base, a housing mounted on one side of the top of the base, a movable block slidably mounted on the other side of the top of the base, fixtures mounted on the side of the movable block and the housing close to each other, an operating table disposed between the two fixtures, the operating table slidably mounted on the top of the base, a milling cutter mounted on the top of the operating table, a water tank mounted on the top of one side of the operating table, the milling cutter disposed on one side of the water tank, and a cleaning device disposed at the bottom of the milling cutter, the cleaning device receiving and collecting metal shavings generated during the processing by setting a collection box.
[0006] The effect achieved by the above components is as follows: by setting a collection box at the bottom of the milling cutter, the collection box is connected to the operating table. When the moving plate moves, it will drive the collection box to move synchronously. Thus, the collection box can continuously collect metal chips, which helps to prevent metal chips from falling to various parts of the machine tool and facilitates the subsequent collection of metal chips.
[0007] Preferably, the cleaning device includes a collection box, which is located at the bottom of the milling cutter and installed on one side of the top of the operating table. The same filter plate is slidably installed on both sides of the inner wall of the collection box, and a water outlet pipe is fixedly installed at the bottom of one side of the collection box. The inner wall of the water outlet pipe is connected to the inner wall of the collection box.
[0008] The effect achieved by the above components is as follows: by setting up a collection box, the metal shavings produced by the milling cutter on the drive shaft and the water used for cooling will fall into the collection box. The metal shavings will be blocked by the filter plate, while the water will pass through the filter plate and be discharged from the collection box through the outlet pipe, so that the metal shavings are concentrated in the collection box, making it easier to collect the metal shavings.
[0009] Preferably, springs are symmetrically fixedly installed on one side of the filter plate, and one end of the springs is fixedly installed on one side of the outer surface of the collection.
[0010] The effect achieved by the above components is as follows: pushing the filter plate causes it to slide against the inner wall of the collection box. When the filter plate moves, it compresses the spring, causing the spring to deform. At the same time, it moves and accumulates metal debris, making it easier to remove the metal debris. When the external force on the filter plate is removed, the spring will return to its original position and move the filter plate away from the side of the milling cutter until one side of the filter plate abuts against the side of the inner wall of the collection box. This helps to prevent metal debris from falling between the filter plate and the water outlet pipe, which would cause metal debris to enter the water outlet pipe and result in waste.
[0011] Preferably, the spring has a round rod inside, and both ends of the round rod are fixedly installed on one side of the collection box.
[0012] The effect achieved by the above components is that by setting up the round rod, the round rod can limit and guide the spring, which helps to prevent the spring from easily deforming.
[0013] Preferably, a magnetic suction plate is installed at the bottom of the inner wall of the collection box.
[0014] The effect achieved by the above components is as follows: by setting up magnetic suction plates, and since the drive shaft is mostly made of iron alloy, the magnetic suction plates can attract falling metal debris, especially smaller metal particles, which helps to prevent these metal particles from entering the water outlet pipe through the filter plate and causing waste.
[0015] Preferably, a silicone plate is fixedly installed at the bottom of the filter plate, and the bottom of the silicone plate abuts against the top of the magnetic plate.
[0016] The effect achieved by the above components is that by setting up a silicone plate, the bottom of the filter plate can be replaced by the bottom of the magnetic plate, so that the filter plate can be pushed by the metal debris attracted by the magnetic plate during the movement, making it easier to collect the metal debris quickly.
[0017] Preferably, a flared plate is fixedly installed on the top of the collection box near the end mill, and the flared plate is made of rubber.
[0018] The effect achieved by the above components is as follows: by setting the flared plate made of rubber, the receiving area of the top of the collection box can be increased, making it easier to collect metal shavings. At the same time, the rubber material has good deformation ability, which helps to prevent the flared plate from blocking the components connected to the milling cutter.
[0019] Preferably, a pin is installed on the top of one side of the filter plate, and a rubber protrusion is provided at one end of the pin. A round hole block is installed on one side of the top of the collection box, and the size and shape of the outer surface of the pin are adapted to the size and shape of the inner wall of the round hole block.
[0020] The effect achieved by the above components is as follows: by setting the pin and the round hole block, the pin with the rubber protrusion is inserted into the inner wall of the round hole block, which can fix the filter plate and the inner wall of the collection box, which helps to prevent the filter plate from shifting and makes it easier to remove metal debris.
[0021] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0022] In this invention, a collection box is installed at the bottom of the milling cutter and connected to the operating table. When the moving plate moves, it will drive the collection box to move synchronously, so that the collection box can continuously collect metal scraps, which helps to prevent metal scraps from falling to various parts of the machine tool and facilitates subsequent collection of metal scraps. Attached Figure Description
[0023] Figure 1 This is a three-dimensional structural diagram of the main body of this utility model;
[0024] Figure 2 This is a three-dimensional structural diagram of the collection device of this utility model;
[0025] Figure 3 This utility model Figure 2 A magnified structural diagram at point A;
[0026] Figure 4 This is a cross-sectional view of the collection box of this utility model.
[0027] Legend: 1. Base; 2. Chassis; 3. Moving block; 4. Fixture; 5. Operating table; 6. Water tank; 7. Milling cutter; 8. Cleaning device; 81. Collection box; 82. Filter plate; 83. Water outlet pipe; 84. Spring; 85. Round rod; 86. Silicone plate; 87. Magnetic plate; 88. Flared plate; 89. Pin; 810. Round hole block. Detailed Implementation
[0028] Example 1, referring to Figures 1-3As shown, this embodiment discloses a transmission shaft milling table, including a base 1, a housing 2 mounted on one side of the top of the base 1, and a moving block 3 slidably mounted on the other side of the top of the base 1. A fixture 4 is mounted on the side of the moving block 3 and the housing 2 that are close to each other. An operating table 5 is arranged between the two fixtures 4. The operating table 5 is slidably mounted on the top of the base 1. A milling cutter 7 is mounted on the top of the operating table 5. A water tank 6 is mounted on the top of one side of the operating table 5. The milling cutter 7 is located on one side of the water tank 6. A cleaning device 8 is provided at the bottom of the milling cutter 7. The cleaning device 8 collects and receives metal debris generated during the machining process by setting a collection box 81. By setting the collection box 81 at the bottom of the milling cutter 7 and connecting the collection box 81 to the operating table 5, when the moving plate moves, it will drive the collection box 81 to move synchronously. Thus, the collection box 81 can continuously collect metal debris, which helps prevent metal debris from falling to various parts of the machine tool and facilitates subsequent collection of metal debris.
[0029] Reference Figures 2-4 As shown, the cleaning device 8 includes a collection box 81, which is located at the bottom of the milling cutter 7 and mounted on one side of the top of the operating table 5. A filter plate 82 is slidably mounted on both sides of the inner wall of the collection box 81. A water outlet pipe 83 is fixedly mounted on the bottom of one side of the collection box 81, and the inner wall of the water outlet pipe 83 is connected to the inner wall of the collection box 81. By setting up the collection box 81, metal shavings generated by the milling of the drive shaft by the milling cutter 7 and the water used for cooling will fall into the collection box 81. The metal shavings will be blocked by the filter plate 82, while the water will pass through the filter plate 82 and be discharged from the collection box 81 through the water outlet pipe 83, thus accumulating metal shavings in the collection box 81 for easy collection. The filter plate 82... A spring 84 is symmetrically fixed on one side, with one end of the spring 84 fixedly installed on one side of the outer surface of the collection box. Pushing the filter plate 82 causes the filter plate 82 to slide on the inner wall of the collection box 81. When the filter plate 82 moves, it will squeeze the spring 84, causing the spring 84 to deform. At the same time, it will drive the metal debris to move and accumulate, making it easier to remove the metal debris. When the external force on the filter plate 82 is removed, the spring 84 will return to its original position and drive the filter plate 82 away from the side of the milling cutter 7 until one side of the filter plate 82 abuts against one side of the inner wall of the collection box 81. This helps to prevent metal debris from falling between the filter plate 82 and the water outlet pipe 83, which would cause the metal debris to enter the water outlet pipe 83 and cause waste.
[0030] Reference Figures 2-4As shown, a round rod 85 is provided inside the spring 84. Both ends of the round rod 85 are fixedly installed on one side of the collection box 81. By setting the round rod 85, the round rod 85 can limit and guide the spring 84, which helps to prevent the spring 84 from easily deforming. A magnetic suction plate 87 is installed at the bottom of the inner wall of the collection box 81. By setting the magnetic suction plate 87, the drive shaft is mostly made of iron alloy. The magnetic suction plate 87 can attract falling metal debris, especially small metal particles, which helps to prevent these metal particles from entering the water outlet pipe 83 through the filter plate 82 and causing waste.
[0031] Reference Figures 2-4 As shown, a silicone plate 86 is fixedly installed at the bottom of the filter plate 82. The bottom of the silicone plate 86 abuts against the top of the magnetic plate 87. By setting the silicone plate 86, the bottom of the filter plate 82 can be replaced by the bottom of the magnetic plate 87, so that the filter plate 82 can be pushed by the metal debris attracted by the magnetic plate 87 during the movement, making it easier to collect the metal debris quickly. A flared plate 88 is fixedly installed on the top of the collection box 81 near the end mill 7. The flared plate 88 is made of rubber. By setting the flared plate 88 made of rubber, the bearing area of the top of the collection box 81 can be increased, making it easier to collect the metal debris. At the same time, the rubber material has good deformation ability, which helps to prevent the flared plate 88 from blocking the parts connected to the end mill 7.
[0032] Reference Figures 2-4 As shown, a pin 89 is installed on the top of one side of the filter plate 82. One end of the pin 89 is provided with a rubber protrusion. A round hole block 810 is installed on one side of the top of the collection box 81. The size and shape of the outer surface of the pin 89 are adapted to the size and shape of the inner wall of the round hole block 810. By setting the pin 89 and the round hole block 810, the pin 89 with the rubber protrusion is inserted into the inner wall of the round hole block 810, which can fix the filter plate 82 and the inner wall of the collection box 81, which helps to prevent the filter plate 82 from shifting and makes it easier to remove metal debris.
[0033] Working principle: The collection box 81 is located at the bottom of the milling cutter 7. Metal shavings generated by the milling of the drive shaft by the milling cutter 7 and the water used for cooling will fall into the collection box 81. The metal shavings will be blocked by the filter plate 82, while the water will pass through the filter plate 82 and be discharged from the collection box 81 through the outlet pipe 83. The metal shavings will remain in the collection box 81, pushing the filter plate 82, causing it to slide against the inner wall of the collection box 81. When the filter plate 82 moves, it will compress the spring 84, causing the spring 84 to deform. At the same time, it will move and accumulate the metal shavings, making them easier to remove. When the external force on the filter plate 82 is removed, the spring 84 will return to its original position, moving the filter plate 82 away from the side of the milling cutter 7 until one side of the filter plate 82 is as close as possible to the side of the inner wall of the collection box 81. This helps to prevent metal shavings from falling into the filter plate 82 and the outlet pipe 83. The filter plate 82 is pushed to insert the rubber-protruding pin 89 into the inner wall of the round hole block 810, which fixes the filter plate 82 and the inner wall of the collection box 81, preventing the filter plate 82 from shifting and making it easier to remove the metal debris. The bottom of the collection box 81 is equipped with a magnetic suction plate 87. The drive shaft is mostly made of iron alloy. The magnetic suction plate 87 can attract falling metal debris, especially small metal particles, which helps prevent these metal particles from entering the water outlet pipe 83 through the filter plate 82 and causing waste. At the same time, the silicone plate 86 at the bottom of the filter plate 82 can replace the bottom of the filter plate 82 and abut against the bottom of the magnetic suction plate 87, so that the filter plate 82 can push the metal debris attracted by the magnetic suction plate 87 during the movement, making it easier to collect the metal debris quickly.
Claims
1. A milling table for drive shafts, comprising a base (1), characterized in that: A housing (2) is installed on one side of the top of the base (1), and a moving block (3) is slidably installed on the other side of the top of the base (1). A clamp (4) is installed on the side of the moving block (3) and the housing (2) that are close to each other. An operating table (5) is set between the two clamps (4). The operating table (5) is slidably installed on the top of the base (1). A milling cutter (7) is installed on the top of the operating table (5). A water tank (6) is installed on the top of one side of the operating table (5). The milling cutter (7) is set on one side of the water tank (6). A cleaning device (8) is set at the bottom of the milling cutter (7). The cleaning device (8) receives and collects the metal scraps generated during the processing by setting a collection box (81).
2. The milling table for a transmission shaft according to claim 1, characterized in that: The cleaning device (8) includes a collection box (81), which is located at the bottom of the milling cutter (7) and installed on one side of the top of the operating table (5). The same filter plate (82) is slidably installed on both sides of the inner wall of the collection box (81). A water outlet pipe (83) is fixedly installed at the bottom of one side of the collection box (81), and the inner wall of the water outlet pipe (83) is connected to the inner wall of the collection box (81).
3. The milling table for a transmission shaft according to claim 2, characterized in that: A spring (84) is symmetrically fixedly installed on one side of the filter plate (82), and one end of the spring (84) is fixedly installed on one side of the outer surface of the collection.
4. A transmission shaft milling table according to claim 3, characterized in that: The spring (84) has a round rod (85) inside, and both ends of the round rod (85) are fixedly installed on one side of the collection box (81).
5. A transmission shaft milling table according to claim 2, characterized in that: A magnetic suction plate (87) is installed at the bottom of the inner wall of the collection box (81).
6. A transmission shaft milling table according to claim 5, characterized in that: A silicone plate (86) is fixedly installed at the bottom of the filter plate (82), and the bottom of the silicone plate (86) abuts against the top of the magnetic plate (87).
7. A transmission shaft milling table according to claim 2, characterized in that: A flared plate (88) is fixedly installed on the top of the collection box (81) near the end mill (7), and the flared plate (88) is made of rubber.
8. A transmission shaft milling table according to claim 2, characterized in that: A pin (89) is installed on the top of one side of the filter plate (82), and a rubber protrusion is provided at one end of the pin (89). A round hole block (810) is installed on one side of the top of the collection box (81). The size and shape of the outer surface of the pin (89) are adapted to the size and shape of the inner wall of the round hole block (810).