CN111716146A - Numerical control milling machine clearance iron fillings device - Google Patents
Numerical control milling machine clearance iron fillings device Download PDFInfo
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- CN111716146A CN111716146A CN202010768453.4A CN202010768453A CN111716146A CN 111716146 A CN111716146 A CN 111716146A CN 202010768453 A CN202010768453 A CN 202010768453A CN 111716146 A CN111716146 A CN 111716146A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q11/00—Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling work; Safety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
- B23Q11/0042—Devices for removing chips
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q11/00—Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling work; Safety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
- B23Q11/0042—Devices for removing chips
- B23Q11/0064—Devices for removing chips by using a magnetic or electric field
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- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
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Abstract
The invention discloses a scrap iron cleaning device of a numerical control milling machine, which comprises a base, wherein an inner cavity is arranged in the base, the lower wall of the inner cavity is communicated with a temporary storage cavity, the left wall of the temporary storage cavity is communicated with a discharge hole with a leftward opening, the left wall and the right wall of the inner cavity are rotatably provided with a processing shaft piece, the rear wall of the inner cavity is rotatably connected with an eccentric wheel shaft, the front end of the eccentric wheel shaft is fixedly connected with an eccentric wheel, the front end of the eccentric wheel is rotatably connected with a transmission gear, and the rear wall of the inner cavity is fixedly connected with a rotating gear shaft. Meanwhile, the coating of lubricating oil is facilitated, and the lubricating effect is enhanced.
Description
Technical Field
The invention relates to the relevant field of numerical control milling machines, in particular to a scrap iron cleaning device of a numerical control milling machine.
Background
Numerical control milling machine is a be equipped with program control system's automatic lathe, can process the part of various shapes and machining precision is high, but numerical control milling machine can produce a large amount of iron fillings at the in-process of processing part, the scrap iron that produces is sharp, be difficult to clear up and the clearance is unclean, the iron fillings that numerical control milling machine produced in present factory often artificially clear up, the easy fish tail workman's of iron fillings during the period, and consume a large amount of time, the unable clearance of iron fillings in the numerical control milling machine gap usually comes out, cause harm to milling machine easily, cause the threat to workman's safety problem.
The scrap iron cleaning device for the numerical control milling machine can solve the problems.
Disclosure of Invention
The invention discloses a scrap iron cleaning device of a numerical control milling machine, which comprises a base, wherein an inner cavity is arranged in the base, the lower wall of the inner cavity is communicated with a temporary storage cavity, the left wall of the temporary storage cavity is communicated with a discharge hole with a leftward opening, a processing shaft piece is rotatably arranged on the left wall and the right wall of the inner cavity, the rear wall of the inner cavity is rotatably connected with an eccentric wheel shaft, the front end of the eccentric wheel shaft is fixedly connected with an eccentric wheel, the front end of the eccentric wheel is rotatably connected with a transmission gear, the rear wall of the inner cavity is fixedly connected with a rotating gear shaft, the rotating gear shaft is rotatably connected with a transmission gear and a swing rod, the swing rod is fixedly connected with the front end of the transmission gear, the lower end of the left side of the transmission gear is meshed with the transmission gear, the lower end of the swing rod is fixedly connected, the front wall of the temporary storage cavity is rotatably connected with a rotating shaft, a fixed block and a rotating rod are fixedly connected onto the rotating shaft, a fixed support is fixedly arranged in the upper wall of the temporary storage cavity, a connecting rod is rotatably connected into the fixed support, the rotating rod is fixedly connected with the front end of the fixed block, the upper end of the rotating rod is rotatably connected with a double-end connecting rod, the left end of the double-end connecting rod is rotatably connected with the connecting rod, the lower end of the connecting rod is fixedly connected with a special-shaped pipeline, a special-shaped groove is arranged in the special-shaped pipeline, a push rod is slidably connected into the special-shaped groove from side to side, the left end of the push rod is fixedly connected with an electromagnetic slider, the electromagnetic slider slides from side to side along the lower wall of the temporary storage cavity, a conductive strip is arranged in the lower wall of the temporary, driving the eccentric wheel to rotate, further driving the transmission gear to slide left and right, simultaneously driving the transmission gear to rotate, further driving the rotary gear shaft to rotate, simultaneously driving the swinging rod and the swinging rod to swing left and right, further driving the brush to swing left and right, and brushing off iron chips on the surface of the processing shaft member, at the moment, the rotating shaft rotates, drives the fixed block and the rotating rod to rotate, further drives the double-end connecting rod to move left, further drives the connecting rod and the special-shaped pipeline to swing left and right, simultaneously drives the push rod to slide left and right along the special-shaped groove, further drives the electromagnetic slider to slide left and right along the lower wall of the temporary storage cavity, at the moment, the power switch is switched on, further the conductive bar is powered on, when the electromagnetic slider slides to the upper end of the conductive bar, the electromagnetic slider generates magnetic force, and adsorbs the iron, the electromagnetic slide block slides to the inclined position to lose magnetic force, and the iron chips adsorbed on the surface are discharged to the outside through the discharge hole.
Beneficially, a motor is fixedly arranged in the lower wall of the temporary storage cavity, the upper end of the motor is in power connection with a motor shaft, a double-faced gear plate is fixedly connected to the upper end of the motor shaft, a rotating gear is meshed with the lower end of the double-faced gear plate, the front end of the rotating gear is fixedly connected to the rotating shaft, the motor is started to drive the motor shaft to rotate, and then the double-faced gear plate is driven to rotate, and meanwhile, the rotating gear is driven to rotate, and then the rotating shaft is driven to rotate.
Beneficially, drive gear has been meshed to double-sided gear dish upper end, the drive gear front end links firmly has the drive gear axle, drive gear axle front end rotate connect in the inner chamber antetheca, the epaxial driving gear that links firmly of drive gear, at this moment the double-sided gear dish rotates, drives drive gear rotates, and then drives the drive gear axle rotates, and then drives the driving gear rotates.
Advantageously, a fixing plate is connected between the left and right walls of the inner cavity, a fixing support is fixedly arranged on the fixing plate, a cam shaft is rotatably connected to the rear wall of the inner cavity, the cam shaft is rotatably connected to the fixing support, a cam is fixedly connected to the front end of the cam shaft, a cam link is rotatably connected to the front end of the cam link, a rotating link is rotatably connected to the rear end of the left side of the cam link, a lubricating oil tank which slides left and right is rotatably connected to the front end of the right side of the rotating link, an oil outlet pipe is fixedly arranged at the front end of the lubricating oil tank, an oil outlet passage is arranged in the oil outlet pipe, the front wall of the oil outlet passage is communicated with an oil injection port, the cam shaft rotates to drive the cam to rotate, the cam link is further driven to rotate, the rotating link is further driven to move left and right, the, and then the oil is sprayed out of the oil spray opening, and the machining shaft is lubricated.
Beneficially, a supporting plate is fixedly connected between the left wall and the right wall of the inner cavity, a transmission rack is arranged on the supporting plate in a left-right sliding mode, a cavity is formed in the supporting plate, the driving gear is arranged in the cavity, the driving gear is meshed with the lower end of the transmission rack, the lower end of the synchronizing gear is meshed with the left side of the upper end of the transmission rack, and at the moment, the driving gear rotates to drive the transmission rack to slide leftwards, so that the synchronizing gear is driven to rotate, and meanwhile, the eccentric wheel shaft and the eccentric wheel are driven.
It is profitable, the inner chamber antetheca rotates and is connected with driven gear shaft, driven gear has linked firmly driven gear on the driven gear shaft, driven gear mesh in drive rack upper end right side, driven gear shaft with drive belt wheel has been linked firmly respectively on the camshaft, the upside drive belt wheel is located driven gear rear side, two be connected with the drive belt between the drive belt wheel, at this moment the driving gear rotates, drives the drive rack slides right, and then drives driven gear rotates, drives simultaneously drive belt wheel rotates, and then drives the camshaft rotates.
The invention has the beneficial effects that: according to the invention, the scrap iron generated after the part is processed can be adsorbed on the surface of the part through the electromagnetic slide block, is transmitted to the outside and is collected uniformly, so that the difficulty of cleaning the part by workers is reduced, the injury probability of the workers is reduced, a large amount of time is saved, the scrap iron remained in gaps is avoided, the scrap iron on the surface of the part to be processed is brushed away by swinging the hairbrush, the damage of the scrap iron to the part during processing is avoided, meanwhile, the lubrication effect is enhanced, and the lubrication effect is facilitated to be coated.
Drawings
For ease of illustration, the invention is described in detail by the following specific examples and figures.
FIG. 1 is a schematic view of the overall structure of a device for cleaning iron chips of a numerically controlled milling machine according to the present invention;
FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;
FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;
FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 2;
FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 3;
FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 5.
Detailed Description
The invention will now be described in detail with reference to fig. 1-5, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The invention relates to a device for cleaning iron chips by a numerical control milling machine, which comprises a base 11, wherein an inner cavity 34 is arranged in the base 11, the lower wall of the inner cavity 34 is communicated with a temporary storage cavity 21, the left wall of the temporary storage cavity 21 is communicated with a discharge hole 20 with a leftward opening, the left wall and the right wall of the inner cavity 34 are rotatably provided with a processing shaft piece 19, the rear wall of the inner cavity 34 is rotatably connected with an eccentric wheel shaft 33, the front end of the eccentric wheel shaft 33 is fixedly connected with an eccentric wheel 13, the front end of the eccentric wheel 13 is rotatably connected with a transmission gear 14, the rear wall of the inner cavity 34 is fixedly connected with a rotary gear shaft 18, the rotary gear shaft 18 is rotatably connected with a transmission gear 17 and an oscillating rod 16, the oscillating rod 16 is fixedly connected with the front end of the transmission gear 17, the lower end of the left side of the transmission gear 14 is meshed with, the front wall of the temporary storage cavity 21 is rotatably connected with a rotating shaft 29, a fixed block 28 and a rotating rod 30 are fixedly connected onto the rotating shaft 29, a fixed support 32 is fixedly arranged on the upper wall of the temporary storage cavity 21, a connecting rod 26 is rotatably connected into the fixed support 32, the rotating rod 30 is fixedly connected with the front end of the fixed block 28, the upper end of the rotating rod 30 is rotatably connected with a double-end connecting rod 31, the left end of the double-end connecting rod 31 is rotatably connected with the connecting rod 26, the lower end of the connecting rod 26 is fixedly connected with a special-shaped pipeline 25, a special-shaped groove 27 is arranged in the special-shaped pipeline 25, a push rod 24 is slidably connected into the special-shaped groove 27 in a left-right manner, an electromagnetic slider 23 is fixedly connected at the left end of the push rod 24, the electromagnetic slider 23 slides along the lower wall of the temporary storage cavity 21 in a left-right manner, a conductive strip 22, facilitating the discharge of iron filings, at this time, the eccentric wheel shaft 33 rotates to drive the eccentric wheel 13 to rotate, further driving the transmission gear 14 to slide left and right, simultaneously driving the transmission gear 17 to rotate, further driving the rotary gear shaft 18 to rotate, simultaneously driving the swinging rod 16 to swing left and right, further driving the brush 15 to swing left and right, and brushing off the iron filings on the surface of the processing shaft 19, at this time, the rotating shaft 29 rotates to drive the fixing block 28 and the rotating rod 30 to rotate, further driving the double-end connecting rod 31 to move left, further driving the connecting rod 26 and the special-shaped pipeline 25 to swing left and right, simultaneously driving the push rod 24 to slide left and right along the special-shaped groove 27, further driving the electromagnetic slider 23 to slide left and right along the lower wall of the temporary storage cavity 21, at this time, opening the power switch 60, further powering on the conductive bar, when the electromagnetism slider 23 slides to when conducting strip 22 upper end, electromagnetism slider 23 produces magnetic force, and will iron fillings in the chamber 21 of keeping in adsorb to the surface, electromagnetism slider 23 slides and loses magnetic force to the slope department, and the iron fillings of surface adsorption pass through this moment discharge gate 20 is arranged to the external world.
Advantageously, a motor 47 is fixedly arranged in the lower wall of the temporary storage cavity 21, the upper end of the motor 47 is in power connection with a motor shaft 49, the upper end of the motor shaft 49 is fixedly connected with a double-sided gear disc 48, the lower end of the double-sided gear disc 48 is engaged with a rotating gear 50, the front end of the rotating gear 50 is fixedly connected to the rotating shaft 29, and at this time, the motor 47 is started to drive the motor shaft 49 to rotate, so as to drive the double-sided gear disc 48 to rotate, and at the same time, the rotating gear 50 is driven to rotate, so as to.
Beneficially, a transmission gear 51 is meshed at the upper end of the double-sided gear disc 48, a transmission gear shaft 52 is fixedly connected to the front end of the transmission gear 51, the front end of the transmission gear shaft 52 is rotatably connected to the front wall of the inner cavity 34, a driving gear 55 is fixedly connected to the transmission gear shaft 52, at the moment, the double-sided gear disc 48 rotates to drive the transmission gear 51 to rotate, and then the transmission gear shaft 52 is driven to rotate, and further the driving gear 55 is driven to rotate.
Advantageously, a fixing plate 44 is connected between the left and right walls of the inner cavity 34, a fixing bracket 39 is fixedly arranged on the fixing plate 44, a cam shaft 42 is rotatably connected to the rear wall of the inner cavity 34, the cam shaft 42 is rotatably connected to the fixing bracket 39, a cam 40 is fixedly connected to the front end of the cam shaft 42, a cam link 38 is rotatably connected to the front end of the cam 40, a rotating link 37 is rotatably connected to the rear end of the left side of the cam link 38, a lubricating oil tank 36 which slides left and right is rotatably connected to the front end of the right side of the rotating link 37, an oil outlet pipe 35 is fixedly arranged at the front end of the lubricating oil tank 36, an oil outlet passage 46 is arranged in the oil outlet pipe 35, the front wall of the oil outlet passage 46 is communicated with an oil injection port 45, and at this time, the cam shaft 42 rotates to drive the cam 40 to, and then the lubricating oil tank 36 is driven to slide left and right, at this time, the lubricating oil in the lubricating oil tank 36 passes through the oil outlet channel 46 and is further sprayed out from the oil spray opening 45, and the machining shaft 19 is lubricated.
Advantageously, a supporting plate 64 is fixedly connected between the left wall and the right wall of the inner cavity 34, a transmission rack 61 is arranged on the supporting plate 64 in a left-right sliding manner, a cavity 65 is arranged in the supporting plate 64, the driving gear 55 is arranged in the cavity 65, the driving gear 55 is meshed with the lower end of the transmission rack 61, the lower end of the synchronizing gear 58 is meshed with the left side of the upper end of the transmission rack 61, at the moment, the driving gear 55 rotates to drive the transmission rack 61 to slide leftwards, further drive the synchronizing gear 58 to rotate, and simultaneously drive the eccentric wheel shaft 33 and the eccentric wheel 13 to rotate.
Beneficially, inner chamber 34 antetheca rotates and is connected with driven gear shaft 62, driven gear shaft 62 is last to have linked firmly driven gear 63, driven gear 63 mesh in drive rack 61 upper end right side, driven gear shaft 62 with driving pulley 43 has been linked firmly respectively on the camshaft 42, the upside driving pulley 43 is located driven gear 63 rear side, two be connected with drive belt 41 between the driving pulley 43, this moment the driving gear 55 rotates, drives drive rack 61 slides right, and then drives driven gear 63 rotates, drives simultaneously driving pulley 43 rotates, and then drives camshaft 42 rotates.
The following describes in detail the use steps of a numerically controlled milling machine iron chip cleaning device in the present disclosure with reference to fig. 1 to 6:
initially, the lubricant tank 36 is at the right limit position, the electromagnetic slider 23 is at the right limit position, and the brush 15 is at the left limit position.
At this time, the motor 47 is started to drive the motor shaft 49 to rotate, and further drive the double-sided gear disc 48 to rotate, and drive the transmission gear 51 to rotate in the forward direction, and further drive the transmission gear shaft 52 to rotate, and further drive the driving gear 55 to rotate, and drive the transmission rack 61 to slide leftward, and further drive the synchronous gear 58 to rotate, and simultaneously drive the eccentric wheel shaft 33 and the eccentric wheel 13 to rotate, and further drive the transmission gear 14 to slide leftward and rightward, and simultaneously drive the transmission gear 17 to rotate, and further drive the rotating gear shaft 18 to rotate, and simultaneously drive the oscillating rod 16 and the leftward and rightward oscillation, and further drive the brush 15 to oscillate leftward and rightward, and brush off the iron filings on the surface of the processing shaft 19, and simultaneously drive the double-sided gear disc 48 to rotate the rotating gear 50, and further drive the rotating shaft 29 to rotate, and further drive the fixed block, meanwhile, the push rod 24 is driven to slide leftwards along the special-shaped groove 27, the electromagnetic slider 23 is driven to slide leftwards along the lower wall of the temporary storage cavity 21, the power switch 60 is turned on, the conductive bar 22 is electrified, when the electromagnetic slider 23 slides to the upper end of the conductive bar 22, the electromagnetic slider 23 generates magnetic force, iron scraps in the temporary storage cavity 21 are adsorbed to the surface, the electromagnetic slider 23 slides to an inclined position to lose the magnetic force, the iron scraps adsorbed on the surface are discharged to the outside through the discharge hole 20, the transmission gear 51 rotates reversely, the driving gear 55 rotates reversely, the transmission rack 61 slides rightwards, the driven gear 63 rotates, the driven gear shaft 62 rotates, the cam shaft 42 rotates, the cam 40 rotates, the cam connecting rod 38 rotates, the rotating connecting rod 37 moves leftwards and rightwards, and the lubricating oil box 36 slides leftwards and rightwards, at this time, the lubricating oil in the lubricating oil tank 36 passes through the oil outlet passage 46 and is further ejected from the oil ejection port 45, and lubricates the machining shaft 19 cleaned of the iron chips.
The invention has the beneficial effects that: according to the invention, the scrap iron generated after the part is processed can be adsorbed on the surface of the part through the electromagnetic slide block, is transmitted to the outside and is collected uniformly, so that the difficulty of cleaning the part by workers is reduced, the injury probability of the workers is reduced, a large amount of time is saved, the scrap iron remained in gaps is avoided, the scrap iron on the surface of the part to be processed is brushed away by swinging the hairbrush, the damage of the scrap iron to the part during processing is avoided, meanwhile, the lubrication effect is enhanced, and the lubrication effect is facilitated to be coated.
In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.
Claims (6)
1. The utility model provides a numerically controlled fraise machine clearance iron fillings device, includes the base, its characterized in that: the inner cavity is arranged in the base, the lower wall of the inner cavity is communicated with a temporary storage cavity, the left wall of the temporary storage cavity is communicated with a discharge port with a left opening, the left wall and the right wall of the inner cavity are rotatably provided with a processing shaft component, the rear wall of the inner cavity is rotatably connected with an eccentric wheel shaft, the front end of the eccentric wheel shaft is fixedly connected with an eccentric wheel, the front end of the eccentric wheel is rotatably connected with a transmission gear, the rear wall of the inner cavity is fixedly connected with a rotating gear shaft, the rotating gear shaft is rotatably connected with a transmission gear and a swinging rod, the left lower end of the transmission gear is meshed with the transmission gear, the lower end of the swinging rod is fixedly connected with a brush, the lower end of the brush is in clearance contact with the upper surface of the processing shaft component, the front wall of the temporary storage cavity is rotatably, the fixing support internal rotation is connected with the connecting rod the rotary rod link firmly in the fixed block front end, the rotary rod upper end is rotated and is connected with the double-end connecting rod, double-end connecting rod left end rotate connect in the connecting rod, the connecting rod lower extreme has linked firmly special-shaped pipeline, be equipped with the dysmorphism groove in the dysmorphism pipeline, dysmorphism inslot horizontal sliding connection has the push rod, the push rod left end links firmly has electromagnetic slider, electromagnetic slider follows keep in chamber lower wall horizontal slip, be equipped with the busbar in the chamber lower wall of keeping in, busbar left end electric connection has switch, the switch left end keep in the chamber lower wall for the tilt state, make things convenient for the discharge of iron fillings.
2. The numerically controlled fraise machine clearance iron fillings device of claim 1 characterized in that: the temporary storage cavity is characterized in that a motor is fixedly arranged in the lower wall of the temporary storage cavity, the upper end of the motor is in power connection with a motor shaft, the upper end of the motor shaft is fixedly connected with a double-sided gear plate, the lower end of the double-sided gear plate is meshed with a rotating gear, and the front end of the rotating gear is fixedly connected to a rotating shaft.
3. The numerically controlled fraise machine clearance iron fillings device of claim 2, characterized in that: the double-sided gear dish upper end meshing has drive gear, the drive gear front end is linked firmly has the drive gear axle, drive gear axle front end rotate connect in the inner chamber antetheca, the epaxial driving gear that has linked firmly of drive gear.
4. The numerically controlled fraise machine clearance iron fillings device of claim 1 characterized in that: the movable oil-spraying device is characterized in that a fixing plate is connected between the left wall and the right wall of the inner cavity, a fixing support is fixedly arranged on the fixing plate, a cam shaft is rotatably connected to the rear wall of the inner cavity, the cam shaft is rotatably connected to the fixing support, a cam is fixedly connected to the front end of the cam shaft, a cam connecting rod is rotatably connected to the front end of the cam connecting rod, a rotating connecting rod is rotatably connected to the rear end of the left side of the cam connecting rod, a lubricating oil tank which slides left and right is rotatably connected to the front end of the right side of the rotating connecting rod, an oil outlet pipeline is fixedly arranged at the front end of the.
5. The numerically controlled fraise machine clearance iron fillings device of claim 1 characterized in that: the inner cavity is characterized in that a supporting plate is fixedly connected between the left wall and the right wall of the inner cavity, a transmission rack is arranged on the supporting plate in a left-right sliding mode, a cavity is formed in the supporting plate, the driving gear is arranged in the cavity, the driving gear is meshed with the lower end of the transmission rack, and the lower end of the synchronizing gear is meshed with the left side of the upper end of the transmission rack.
6. The numerically controlled fraise machine clearance iron fillings device of claim 1 characterized in that: the inner chamber antetheca rotates and is connected with driven gear shaft, driven gear has linked firmly driven gear on the driven gear shaft, driven gear mesh in drive rack upper end right side, driven gear shaft with linked firmly driving pulley on the camshaft respectively, the upside driving pulley is located driven gear rear side, two be connected with the drive belt between the driving pulley.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010768453.4A CN111716146B (en) | 2020-08-03 | 2020-08-03 | Numerical control milling machine clearance iron fillings device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010768453.4A CN111716146B (en) | 2020-08-03 | 2020-08-03 | Numerical control milling machine clearance iron fillings device |
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| CN111716146A true CN111716146A (en) | 2020-09-29 |
| CN111716146B CN111716146B (en) | 2021-06-18 |
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| KR20020003134A (en) * | 2001-09-19 | 2002-01-10 | 정수훈 | A separating and collecting system of fine matal chip using magnetic power |
| JP2013022703A (en) * | 2011-07-22 | 2013-02-04 | Cosmo Koki Co Ltd | Method for recovering impurity |
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| CN111716146B (en) | 2021-06-18 |
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