A chip cleaning device for a numerical control turning and milling combined machine tool

Abstract

The utility model discloses a kind of waste chip cleaning devices for numerical control turning and milling composite machine tool, including bearing auxiliary assembly and recycling processing mechanism, the middle part inside of bearing auxiliary assembly is provided with the main cleaning component of bolt assembly, the inside of one end of bearing auxiliary assembly is provided with the recycling processing mechanism of bolt sleeve joint, the recycling processing mechanism includes bolt base, empty slot shell, end-to-end frame, isolation plate, non-woven fabric cover, evacuation fan, rotary motor, rotary stick, flexible hammer and cleaning box;The waste chip cleaning device for numerical control turning and milling composite machine tool utilizes rotary motor in the both end side of empty slot shell, so that, rotary motor carries out output power according to the need in time, let rotary stick and flexible hammer carry out rotation and then beat non-woven fabric cover, so that the waste attached on non-woven fabric cover falls into cleaning box due to the power of impact, to be able to timely alleviate jamming phenomenon, keep efficient recycling cleaning effect.

Description

Technical Field

[0001] This utility model relates to the field of CNC milling and turning composite machine tool technology, specifically a waste chip cleaning device for CNC milling and turning composite machine tools. Background Technology

[0002] Milling and turning is an advanced cutting process that uses the combined motion of the milling cutter and the workpiece to cut and process the workpiece, enabling it to meet various requirements in terms of shape accuracy, positional accuracy, and the integrity of the machined surface. Milling and turning is not simply combining turning and milling on one machine tool, but rather using the combined motion of milling and turning to complete the machining of various surfaces. It is a new cutting theory and technology that has emerged under the conditions of significant development in CNC technology.

[0003] In the field of waste chip cleaning devices, such as CN202122103044.5, a waste chip cleaning device for a CNC turning and milling composite machine tool includes a device base, a fixing device connecting the device base, a turning device connected to the device base, a milling device connected to the device base, and a cleaning device connected to the device base. The device base is provided with a first sliding groove, the opening direction of the first sliding groove is horizontal, and the cleaning device includes a baffle connected to the first sliding groove and a first drive motor for driving the baffle to move. However, in waste chip cleaning devices, the inlet is prone to blockage after waste is input, which reduces the extraction force of the recycling and affects the subsequent cleaning and recycling effect. Utility Model Content

[0004] The purpose of this invention is to provide a waste chip cleaning device for CNC milling and turning composite machine tools to solve the problems mentioned in the background art.

[0005] By adopting the above technical solution, rotating motors are installed on both sides of the empty tank shell. The rotating motors output power as needed, causing the rotating rod and flexible hammer to rotate and beat the non-woven fabric cover. The waste material attached to the non-woven fabric cover falls into the cleaning box due to the impact force, thereby relieving the blockage and maintaining a high-efficiency recycling and cleaning effect.

[0006] To achieve the purpose of this utility model, the utility model is implemented through the following technical solution: a waste chip cleaning device for CNC milling and turning composite machine tools, including a bearing auxiliary component and a recycling and processing mechanism, wherein a bolt-assembled main cleaning component is provided on the inner side of the middle part of the bearing auxiliary component, and a bolt-connected recycling and processing mechanism is provided on the inner side of one end of the bearing auxiliary component;

[0007] The recycling and processing mechanism includes a bolt base, an empty tank shell, an end-connecting frame, a partition plate, a non-woven fabric cover, an exhaust fan, a rotary motor, a rotating rod, a flexible hammer, and a cleaning box. The bolt base is bolted to the inner side of one end of the supporting auxiliary component. The inner end of the bolt base is provided with an empty tank shell, and the outer end of the empty tank shell is provided with an end-connecting frame. The partition plate is provided above the end-connecting frame. The upper inner side of the empty tank shell is provided with a non-woven fabric cover, and the exhaust fan is provided above the non-woven fabric cover. The rotary motor is provided on the side of the empty tank shell, and the output end of the rotary motor is provided with a rotating rod. The outer side of the rotating rod is provided with a flexible hammer, and the inner side of the empty tank shell is provided with a cleaning box.

[0008] In a preferred embodiment of this utility model, the flexible hammer has a flexible strip-shaped structure.

[0009] In a preferred embodiment of the present invention, the bearing auxiliary component includes a base pad, a machine tool housing, a railing, a material base, a hydraulic telescopic rod, and a push plate. The machine tool housing is disposed above the base pad, and a railing is disposed on the inner side of one end of the machine tool housing.

[0010] In a preferred embodiment of the present invention, a material base is provided on the inner bottom side of the machine tool housing, and a hydraulic telescopic rod is provided on the lower inner side of the material base, with a push plate provided at the output end of the hydraulic telescopic rod.

[0011] In a preferred embodiment of this utility model, the main cleaning component includes a first bolt plate, a drive motor, a first lead screw assembly, a first sliding block, a first cleaning plate, a second bolt plate, a second lead screw assembly, a second sliding block, and a second cleaning plate. The first bolt plate is bolted to the outer side of one end of the machine tool housing, and the second bolt plate is disposed on both sides of the machine tool housing. A drive motor is disposed on the outer side of the first bolt plate, and a first lead screw assembly is disposed at the output end of the drive motor.

[0012] In a preferred embodiment of the present invention, the first lead screw assembly is threadedly connected to a first sliding block, and a first cleaning plate is provided on one side of the first sliding block. The second lead screw assembly is provided on the inner side of the second bolt plate, and a second sliding block is provided at the output end of the second lead screw assembly. A second cleaning plate is provided on one side of the second sliding block.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows: The waste cleaning device for CNC milling and turning composite machine tools utilizes a rotary motor installed on both sides of the empty slot shell. The rotary motor outputs power as needed, causing the rotating rod and flexible hammer to rotate and beat the non-woven fabric cover. As a result, the waste material attached to the non-woven fabric cover falls into the cleaning box due to the impact force, thereby alleviating the blockage phenomenon in a timely manner and maintaining a highly efficient recycling and cleaning effect. Attached Figure Description

[0014] Figure 1 This is a front-view three-dimensional structural schematic diagram of the present invention;

[0015] Figure 2 This is a three-dimensional structural diagram of the present invention viewed from below;

[0016] Figure 3 This is a three-dimensional structural diagram of the main cleaning component of this utility model;

[0017] Figure 4 This is a three-dimensional structural diagram of the recycling and processing mechanism of this utility model.

[0018] In the diagram: 1. Supporting auxiliary components; 101. Base pad; 102. Machine tool housing; 103. Railing; 104. Material base; 105. Hydraulic telescopic rod; 106. Push plate; 2. Main cleaning components; 201. First bolt plate; 202. Drive motor; 203. First lead screw assembly; 204. First sliding block; 205. First cleaning blade; 206. Second bolt plate; 207. Second lead screw assembly; 208. Second sliding block; 209. Second cleaning blade; 3. Recycling and processing mechanism; 301. Bolt base; 302. Empty trough shell; 303. End frame; 304. Isolation plate; 305. Non-woven fabric cover; 306. Exhaust fan; 307. Rotary motor; 308. Rotating rod; 309. Flexible hammer; 3010. Cleaning box. Detailed Implementation

[0019] 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.

[0020] Please see Figure 1-4This utility model provides a technical solution: a waste chip cleaning device for CNC milling and turning composite machine tools, including a supporting auxiliary component 1 and a recycling and processing mechanism 3. The main cleaning component 2 with bolts is provided on the inner side of the middle part of the supporting auxiliary component 1, and the recycling and processing mechanism 3 with bolts is provided on the inner side of one end of the supporting auxiliary component 1.

[0021] The recycling and processing mechanism 3 includes a bolt base 301, an empty slot shell 302, an end-aligning frame 303, a partition plate 304, a non-woven fabric cover 305, an exhaust fan 306, a rotary motor 307, a rotating rod 308, a flexible hammer 309, and a cleaning box 3010. The bolt base 301 is bolted to the inner side of one end of the supporting auxiliary component 1. The inner end of the bolt base 301 is provided with the empty slot shell 302, and the outer end of the empty slot shell 302 is provided with the end-aligning frame 3. 03. An isolation plate 304 is provided above the end frame 303. A non-woven fabric cover 305 is provided on the inner side of the upper part of the empty trough shell 302, and an exhaust fan 306 is provided above the non-woven fabric cover 305. A rotary motor 307 is provided on the side of the empty trough shell 302, and a rotating rod 308 is provided at the output end of the rotary motor 307. A flexible hammer 309 is provided on the outer side of the rotating rod 308. A cleaning box 3010 is provided on the inner side of the empty trough shell 302.

[0022] The flexible hammer 309 has a flexible strip structure.

[0023] In this embodiment, the exhaust fan 306 on the non-woven fabric cover 305 is then used to operate, so that the waste is effectively extracted. After a long period of extraction, the rotary motor 307 is used to operate, so that the rotating rod 308, in conjunction with the rotation of the flexible hammer 309, strikes the non-woven fabric cover 305, so that the waste is input into the cleaning box 3010, thereby facilitating effective cleaning after long-term accumulation.

[0024] The supporting auxiliary component 1 includes a base pad 101, a machine tool housing 102, a railing 103, a material base 104, a hydraulic telescopic rod 105, and a push plate 106. The machine tool housing 102 is arranged above the base pad 101, and a railing 103 is arranged on the inner side of one end of the machine tool housing 102.

[0025] In this embodiment, when in use, the machine tool housing 102 is set by the base pad 101, and then the material base 104 installs and sets up each component.

[0026] A material base 104 is provided on the inner bottom side of the machine tool housing 102, and a hydraulic telescopic rod 105 is provided on the lower inner side of the material base 104. A push plate 106 is provided at the output end of the hydraulic telescopic rod 105.

[0027] In this embodiment, the hydraulic telescopic rod 105 on the material base 104 is then used to output power and run, causing the push plate 106 to push the waste material into the lower part of the frame 103.

[0028] The main cleaning component 2 includes a first bolt plate 201, a drive motor 202, a first lead screw assembly 203, a first sliding block 204, a first cleaning plate 205, a second bolt plate 206, a second lead screw assembly 207, a second sliding block 208, and a second cleaning plate 209. The first bolt plate 201 is bolted to the outer side of one end of the machine tool housing 102. The second bolt plate 206 is disposed on both sides of the machine tool housing 102. The drive motor 202 is disposed on the outer side of the first bolt plate 201, and the first lead screw assembly 203 is disposed at the output end of the drive motor 202.

[0029] In this embodiment, during the product processing, the drive motor 202 on one side of the first bolt plate 201 outputs power to drive the output end to run, so that after the drive motor 202 outputs power to run, the first lead screw assembly 203 outputs power to run, so that the first sliding block 204 and the first cleaning plate 205 perform preliminary cleaning.

[0030] The first lead screw assembly 203 is threadedly connected to the first sliding block 204, and a first cleaning plate 205 is provided on one side of the first sliding block 204. The second lead screw assembly 207 is provided on the inner side of the second bolt plate 206, and a second sliding block 208 is provided at the output end of the second lead screw assembly 207. A second cleaning plate 209 is provided on one side of the second sliding block 208.

[0031] In this embodiment, the second lead screw assembly 207 is then used to output power and run, so that the second sliding block 208 runs and the second sweeping plate 209 cooperates to achieve a secondary cleaning effect.

[0032] The working principle of the waste chip cleaning device for CNC milling and turning composite machine tools is as follows: During use, the machine tool housing 102 is set up via the base pad 101, and then the various components are installed on the material base 104. During product processing, the drive motor 202 on one side of the first bolt plate 201 outputs power to drive the output end, causing the first lead screw assembly 203 to operate, which in turn causes the first sliding block 204 and the first cleaning plate 205 to perform initial cleaning. Then, the second lead screw assembly 207 outputs power, causing the second sliding block 208 to operate, which in turn causes the second... The sliding block 208, in conjunction with the second sweeping blade 209, achieves a secondary cleaning effect. Then, the hydraulic telescopic rod 105 on the material base 104 outputs power to drive the push plate 106, which pushes the waste material into the lower part of the frame 103. Next, the vacuum fan 306 on the non-woven fabric cover 305 outputs power to drive the waste material effectively. After a long period of extraction, the rotary motor 307 outputs power to drive the rotating rod 308, in conjunction with the rotation of the flexible hammer 309, to strike the non-woven fabric cover 305, so that the waste material can be input into the cleaning box 3010, thus facilitating effective cleaning after long-term accumulation.

[0033] 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.

Claims

1. A waste chip cleaning device for a CNC milling and turning machine tool, comprising a support auxiliary component (1) and a recycling and processing mechanism (3), characterized in that: The bearing auxiliary component (1) is provided with a bolt-assembled main cleaning component (2) on the inner side of the middle part, and a bolt-connected recycling processing mechanism (3) is provided on the inner side of one end of the bearing auxiliary component (1). The recycling and processing mechanism (3) includes a bolt base (301), an empty slot shell (302), an end-mounted frame (303), a partition plate (304), a non-woven fabric cover (305), an exhaust fan (306), a rotary motor (307), a rotating rod (308), a flexible hammer (309), and a cleaning box (3010). The bolt base (301) is bolted to the inner side of one end of the bearing auxiliary component (1). The inner end of the bolt base (301) is provided with an empty slot shell (302), and the outer end of the empty slot shell (302) is provided with an end-mounted frame (3010). 03), an isolation plate (304) is provided above the end frame (303), a non-woven fabric cover (305) is provided on the inner side of the upper part of the empty slot shell (302), and an exhaust fan (306) is provided above the non-woven fabric cover (305). A rotary motor (307) is provided on the side of the empty slot shell (302), and a rotating rod (308) is provided at the output end of the rotary motor (307). A flexible hammer (309) is provided on the outer side of the rotating rod (308), and a cleaning box (3010) is provided on the inner side of the empty slot shell (302).

2. The chip cleaning device for a CNC milling and turning machine tool according to claim 1, characterized in that: The flexible hammer (309) has a flexible strip structure.

3. A chip cleaning device for a CNC milling and turning machine tool according to claim 1, characterized in that: The supporting auxiliary component (1) includes a base pad (101), a machine tool housing (102), a railing (103), a material base (104), a hydraulic telescopic rod (105), and a push plate (106). The machine tool housing (102) is arranged above the base pad (101), and a railing (103) is arranged on the inner side of one end of the machine tool housing (102).

4. A chip cleaning device for a CNC milling and turning machine tool according to claim 3, characterized in that: The inner bottom side of the machine tool housing (102) is provided with a material base (104), and a hydraulic telescopic rod (105) is provided on the lower inner side of the material base (104), and a push plate (106) is provided at the output end of the hydraulic telescopic rod (105).

5. A chip cleaning device for a CNC milling and turning machine tool according to claim 3, characterized in that: The main cleaning component (2) includes a first bolt plate (201), a drive motor (202), a first lead screw assembly (203), a first sliding block (204), a first cleaning plate (205), a second bolt plate (206), a second lead screw assembly (207), a second sliding block (208), and a second cleaning plate (209). The first bolt plate (201) is bolted to the outer side of one end of the machine tool housing (102). The second bolt plate (206) is disposed on both sides of the machine tool housing (102). The drive motor (202) is disposed on the outer side of the first bolt plate (201), and the first lead screw assembly (203) is disposed at the output end of the drive motor (202).

6. A chip cleaning device for a CNC milling and turning machine tool according to claim 5, characterized in that: The first lead screw assembly (203) is threadedly connected to a first sliding block (204), and a first cleaning plate (205) is provided on one side of the first sliding block (204). The second lead screw assembly (207) is provided on the inner side of the second bolt plate (206), and a second sliding block (208) is provided at the output end of the second lead screw assembly (207). A second cleaning plate (209) is provided on one side of the second sliding block (208).

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