AU2017101696A4 - Rod-like Material Machining Device - Google Patents
Rod-like Material Machining Device Download PDFInfo
- Publication number
- AU2017101696A4 AU2017101696A4 AU2017101696A AU2017101696A AU2017101696A4 AU 2017101696 A4 AU2017101696 A4 AU 2017101696A4 AU 2017101696 A AU2017101696 A AU 2017101696A AU 2017101696 A AU2017101696 A AU 2017101696A AU 2017101696 A4 AU2017101696 A4 AU 2017101696A4
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- AU
- Australia
- Prior art keywords
- fixedly mounted
- punching
- chamfering
- corner chamfering
- motor
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Abstract
Abstract Disclosed is a rod-like material machining device, comprising a chassis, wherein a machining platform is fixedly mounted on the chassis, and is provided thereon with a punching and left corner chamfering mechanism, a right corner chamfering mechanism, a clamp mechanism, and a cutting waste guide groove, wherein the clamp mechanism is 5 located between the punching and left corner chamfering mechanism and the right corner chamfering mechanism; the two sides of the cutting waste guide groove are fixedly mounted on the surface of the machining platform via angle irons; the machining platform is further provided with an operating panel thereon and a control device thereunder; the connecting terminal of the control device is electrically connected to the operating panel, 10 the punching and left corner chamfering mechanism, the right corner chamfering mechanism, and an electrical element of the clamp mechanism respectively. The present invention reduces the working intensity of a worker, and solves the problems of nonuniform clamping force and inaccurate positioning in existing punching and chamfering modes, thus improving working efficiency and product machining precision. Drawings ------- -- 13 8 1110 9 28 8-13-1014 47 24 7 2-1 23 6 m- > .- > ')4 2 29 j(z 33 Fig. 1
Description
invention reduces the working intensity of a worker, and solves the problems of nonuniform clamping force and inaccurate positioning in existing punching and chamfering modes, thus improving working efficiency and product machining precision.
2017101696 05 Dec 2017
Drawings
Fig. 1
2017101696 05 Dec 2017
Rod-like Material Machining Device
Technical Field
The present invention relates to a bar material machining device, in particular to a rod-like material machining device.
Background
At present, when an eccentric shaft is punched and chamfered, an enterprise first adopts a general drill press to clamp the eccentric shaft, while punching and chamfering cannot be performed at the same time during machining; then the eccentric shaft is punched by a drill bit having an almost the same size with bore diameter. For the eccentric shaft having a large bore diameter, first a small drill bit is used to punch a hole, then the hole is enlarged by using another drill bit or a hole boring cutter having a large bore diameter; and finally a chamfering tool is used to chamfer the edges of all the through hole. However, the mode of adopting a general drill press to punch and chamfer an eccentric shaft has the defects of low product machining precision and low working efficiency due to non-uniform clamping force and inaccurate positioning.
Summary of the Invention
The object of the present invention is designing a rod-like material machining device to solve the above problems.
To realize the above object, the technical solution of the present invention is: a rod-like material machining device, comprising a chassis, wherein a machining platform is fixedly mounted on the chassis, and is provided thereon with a punching and left corner chamfering mechanism, a right corner chamfering mechanism, a clamp mechanism, and a cutting waste guide groove, wherein the clamp mechanism is located between the punching and left corner chamfering mechanism and the right corner chamfering i
2017101696 05 Dec 2017 mechanism; the two sides of the cutting waste guide groove are fixedly mounted on the surface of the machining platform via angle irons; the punching and left corner chamfering mechanism consists of a set of slide rails A fixedly mounted on the machining platform, four slide blocks A located on the slide rails A, a mounting plate A fixedly mounted on the upper surfaces of the four slide blocks A, a drive motor A fixedly mounted on the mounting plate A, a driving wheel fixedly mounted on the rotary end of the drive motor A, a bearing seat A fixedly mounted on the mounting plate A, a left corner chamfering drive wheel located on the back surface of the bearing seat A, a punching drive wheel located on the back surface of the bearing seat A and under the left corner chamfering drive wheel, a belt A sleeved on the driving wheel, the left corner chamfering drive wheel and the punching drive wheel, a left corner chamfering drill bit located on the front surface of the bearing seat A and clamped with the left corner chamfering drive wheel, a punching drill bit located on the front surface of the bearing seat A and clamped with the punching drive wheel, and a chamfering and punching tool magazine device fixedly mounted on the mounting plate A; the right corner chamfering mechanism consists of a set of slide rails B fixedly mounted on the machining platform, four slide blocks B located on the slide rails B, a mounting plate B fixedly mounted on the upper surfaces of the four slide blocks B, a drive motor B fixedly mounted on the mounting plate B, a driving wheel fixedly mounted on the rotary end of the drive motor B, a bearing seat B fixedly mounted on the mounting plate B, a right corner chamfering drive wheel located on the back surface of the bearing seat B, a belt B sleeved on the driving wheel and the right corner chamfering drive wheel B, a right corner chamfering drill bit B located on the front surface of the bearing seat B and clamped with the right corner chamfering drive wheel, and a chamfering tool magazine device fixedly mounted on the mounting plate B;
the machining platform is further provided with an operating panel thereon and a control device thereunder; the connecting terminal of the control device is electrically connected to the operating panel, the punching and left corner chamfering mechanism, the right corner chamfering mechanism, and an electrical element of the clamp mechanism
2017101696 05 Dec 2017 respectively.
The chamfering and punching tool magazine device consists of a rotary motor A fixedly mounted on the surface of the mounting plate A and provided with a horizontal rotary end, a disk type punching tool magazine fixedly connected to the rotary end of the rotary motor A, a rotary motor B fixedly mounted on the upper surface of the rotary motor A, a first disk type chamfering tool magazine fixedly connected to the rotary end of the rotary motor B, a slide rail upright column fixed on the surface of the mounting plate A, a linear push motor fixedly mounted at the upper end of the slide rail upright column and provided with a downward telescopic end, a first miniature linear motor having a lateral surface fixedly connected to the telescopic end of the linear push motor and provided with a horizontal telescopic end, a first miniature motor fixedly connected to the telescopic end of the first miniature linear motor, and a first manipulator fixedly connected to the rotary end of the first miniature motor.
The chamfering tool magazine device consists of a rotary motor C fixedly mounted on the surface of the mounting plate B and provided with a horizontal rotary end, a second disk type chamfering tool magazine fixedly connected to the rotary end of the rotary motor C, a second miniature linear motor fixed on the surface of the mounting plate B and provided with a horizontal telescopic end, a second miniature motor fixedly connected to the telescopic end of the second miniature linear motor, and a second manipulator fixedly connected to the rotary end of the second miniature motor.
The clamp mechanism consists of a bottom plate fixedly mounted on the machining platform, two upright columns fixedly mounted on the bottom plate and parallel to each other; a group of vertical chutes disposed on the facing inside surfaces of the two upright columns, a clamp base having the two ends inserted in the group of vertical chutes, a retainer angle iron mounted on the front surface of the clamp base, a clamping cylinder
2017101696 05 Dec 2017 fixedly mounted on the upper surface of the clamp base, a clamping bock fixedly connected to the telescopic end of the clamping cylinder, and a station cylinder located under the bottom plate and having the telescopic end thereof fixedly connected to the lower surface of the clamp base.
A water tank located under the machining platform is disposed on the chassis.
A buckled movable water nozzle is disposed on the upper surface of the water tank.
The operating panel is provided thereon with a control switch, a display, and a plurality of control keys.
The number of the control keys is nine.
The control device consists of a control cabinet fixedly mounted on the upright columns under the machining platform, and a PLC control system located inside the control cabinet.
The model of the PLC control system is SIEMENS S7-400.
The rod-like material machining device made by utilizing the technical solution of the present invention can punch and chamfer a workpiece at the same time, does not require managing the workpiece after the workpiece is placed in a stock bin, and can perform clamping, machining and tool changing automatically. The present invention reduces the working intensity of a worker, and solves the problems of nonuniform clamping force and inaccurate positioning in existing punching and chamfering modes, thus improving working efficiency and product machining precision.
2017101696 05 Dec 2017
Brief Description of the Drawings
Fig. 1 is a structural schematic view of the rod-like material machining device according to the present invention;
Fig. 2 is a schematic view of the punching and left corner chamfering mechanism of the rod-like material machining device according to the present invention;
Fig. 3 is a schematic view of the right corner chamfering mechanism of the rod-like material machining device according to the present invention;
Fig. 4 is a schematic view of the clamp mechanism of the rod-like material machining device according to the present invention;
Fig. 5 is a schematic view of the chamfering and punching tool magazine device of the rod-like material machining device according to the present invention; and
Fig. 6 is a schematic view of the chamfering tool magazine device of the rod-like material machining device according to the present invention.
In the figures, 1. chassis; 2. machining platform; 3. cutting waste guide groove; 4. angle iron; 5. slide rail A; 6. slide block A; 7. mounting plate A; 8. drive motor A; 9; driving wheel; 10. bearing seat A; 11. left corner chamfering drive wheel; 12. punching drive wheel; 13. belt A; 14. left corner chamfering drill bit; 15. Punching drill bit; 16. slide rail B; 17. slide block B; 18. mounting plate B; 19. drive motor B; 20. driving wheel; 21. bearing seat B; 22. right angle chamfering drive wheel; 23. belt B; 24. right angle chamfering drill bit B; 25. operating panel; 26. rotary motor A; 27. disk type punching tool magazine; 28. rotary motor B; 29. first disk type chamfering tool magazine; 30. slide rail upright column; 31. linear push motor; 32. first miniature linear motor; 33. control cabinet; 34. first miniature motor; 35. first manipulator; 36. rotary motor C; 37. second disk type chamfering tool magazine; 38. second miniature linear motor; 39. second miniature motor; 40. second manipulator; 41, PLC control system; 42. bottom plate; 43. upright column; 44. vertical chute; 45. clamp base; 46. retainer angle iron; 47. clamping cylinder; 48. clamping bock; 49. station cylinder; 50. water tank; 51. buckled movable water nozzle; 52. control switch; 53. display; 54. control key.
2017101696 05 Dec 2017
Detailed Description of the Embodiments
The present invention will be elaborated hereafter in connection with the drawings. As shown in Figs. 1-6, a rod-like material machining device, comprising a chassis (1), wherein a machining platform (2) is fixedly mounted on the chassis (1), and is provided thereon with a punching and left corner chamfering mechanism, a right corner chamfering mechanism, a clamp mechanism, and a cutting waste guide groove (3), wherein the clamp mechanism is located between the punching and left corner chamfering mechanism and the right corner chamfering mechanism; the two sides of the cutting waste guide groove (3) are fixedly mounted on the surface of the machining platform (2) via angle irons (4);
the punching and left corner chamfering mechanism consists of a set of slide rails A (5) fixedly mounted on the machining platform (2), four slide blocks A (6) located on the slide rails A (5), a mounting plate A (7) fixedly mounted on the upper surfaces of the four slide blocks A (6), a drive motor A (8) fixedly mounted on the mounting plate A (7), a driving wheel (9) fixedly mounted on the rotary end of the drive motor A (8), a bearing seat A (10) fixedly mounted on the mounting plate A (7), a left corner chamfering drive wheel (11) located on the back surface of the bearing seat A (10), a punching drive wheel (12) located on the back surface of the bearing seat A (10) and under the left corner chamfering drive wheel (11), a belt A (13) sleeved on the driving wheel (9), the left corner chamfering drive wheel (11) and the punching drive wheel (12), a left corner chamfering drill bit (14) located on the front surface of the bearing seat A (10) and clamped with the left corner chamfering drive wheel (11), a punching drill bit (15) located on the front surface of the bearing seat A (10) and clamped with the punching drive wheel (12), and a chamfering and punching tool magazine device fixedly mounted on the mounting plate A (7); the right corner chamfering mechanism consists of a set of slide rails B (16) fixedly mounted on the machining platform (2), four slide blocks B (17) located on the slide rails B (16), a mounting plate B (18) fixedly mounted on the upper surfaces of the four slide blocks B (17), a drive motor B (19) fixedly mounted on the mounting plate B (18), a driving wheel (20) fixedly mounted on the rotary end of the drive motor B (19), a bearing
2017101696 05 Dec 2017 seat B (21) fixedly mounted on the mounting plate B (18), a right corner chamfering drive wheel (22) located on the back surface of the bearing seat A (10), a punching drive wheel (12) located on the back surface of the bearing seat B (21), a belt B (23) sleeved on the driving wheel (20) and the right corner chamfering drive wheel (22) B, a right corner chamfering drill bit B (24) located on the front surface of the bearing seat B (21) and clamped with the right corner chamfering drive wheel (22), and a chamfering tool magazine device fixedly mounted on the mounting plate B (18); the machining platform (2) is further provided with an operating panel (25) thereon and a control device thereunder; the connecting terminal of the control device is electrically connected to the operating panel (25), the punching and left corner chamfering mechanism, the right corner chamfering mechanism, and an electrical element of the clamp mechanism respectively. The chamfering and punching tool magazine device consists of a rotary motor A (26) fixedly mounted on the surface of the mounting plate A (7) and provided with a horizontal rotary end, a disk type punching tool magazine (27) fixedly connected to the rotary end of the rotary motor A (26), a rotary motor B (28) fixedly mounted on the upper surface of the rotary motor A (26), a first disk type chamfering tool magazine (29) fixedly connected to the rotary end of the rotary motor B (28), a slide rail upright column (30) fixed on the surface of the mounting plate A (7), a linear push motor (31) fixedly mounted at the upper end of the slide rail upright column (30) and provided with a downward telescopic end, a first miniature linear motor (32) having a lateral surface fixedly connected to the telescopic end of the linear push motor (31) and provided with a horizontal telescopic end, a first miniature motor (34) fixedly connected to the telescopic end of the first miniature linear motor (32), and a first manipulator (35) fixedly connected to the rotary end of the first miniature motor (34); the chamfering tool magazine device consists of a rotary motor C (36) fixedly mounted on the surface of the mounting plate B (18) and provided with a horizontal rotary end, a second disk type chamfering tool magazine (37) fixedly connected to the rotary end of the rotary motor C (36), a second miniature linear motor (38) fixed on the surface of the mounting plate B (18) and provided with a
2017101696 05 Dec 2017 horizontal telescopic end, a second miniature motor (39) fixedly connected to the telescopic end of the second miniature linear motor (38), and a second manipulator (40) fixedly connected to the rotary end of the second miniature motor (39); the clamp mechanism consists of a bottom plate (42) fixedly mounted on the machining platform (2), two upright columns (43) fixedly mounted on the bottom plate (42) and parallel to each other; a group of vertical chutes (44) disposed on the facing inside surfaces of the two upright columns (43), a clamp base (45) having the two ends inserted in the group of vertical chutes (44), a retainer angle iron (46) mounted on the front surface of the clamp base (45), a clamping cylinder (47) fixedly mounted on the upper surface of the clamp base (45), a clamping bock (48) fixedly connected to the telescopic end of the clamping cylinder (47), and a station cylinder (49) located under the bottom plate (42) and having the telescopic end thereof fixedly connected to the lower surface of the clamp base (45); a water tank (50) located under the machining platform (2) is disposed on the chassis (1); a buckled movable water nozzle (51) is disposed on the upper surface of the water tank (50).The operating panel (25) is provided thereon with a control switch (52), a display (53), and a plurality of control keys (54); the number of the control keys (54) is nine; the control device consists of a control cabinet (33) fixedly mounted on the upright columns under the machining platform (2), and a PLC control system (41) located inside the control cabinet (33); and the model of the PLC control system (41) is SIEMENS S7-400.
The present embodiment is characterized by: comprising a chassis, wherein a machining platform is fixedly mounted on the chassis, and is provided thereon with a punching and left corner chamfering mechanism, a right corner chamfering mechanism, a clamp mechanism, and a cutting waste guide groove, wherein the clamp mechanism is located between the punching and left corner chamfering mechanism and the right corner chamfering mechanism; the two sides of the cutting waste guide groove are fixedly mounted on the surface of the machining platform via angle irons; the punching and left corner chamfering mechanism consists of a set of slide rails A fixedly mounted on the machining platform, four slide blocks A located on the slide rails A, a mounting plate A
2017101696 05 Dec 2017 fixedly mounted on the upper surfaces of the four slide blocks A, a drive motor A fixedly mounted on the mounting plate A, a driving wheel fixedly mounted on the rotary end of the drive motor A, a bearing seat A fixedly mounted on the mounting plate A, a left corner chamfering drive wheel located on the back surface of the bearing seat A, a punching drive wheel located on the back surface of the bearing seat A and under the left corner chamfering drive wheel, a belt A sleeved on the driving wheel, the left corner chamfering drive wheel and the punching drive wheel, a left corner chamfering drill bit located on the front surface of the bearing seat A and clamped with the left corner chamfering drive wheel, a punching drill bit located on the front surface of the bearing seat A and clamped with the punching drive wheel, and a chamfering and punching tool magazine device fixedly mounted on the mounting plate A; the right corner chamfering mechanism consists of a set of slide rails B fixedly mounted on the machining platform, four slide blocks B located on the slide rails B, a mounting plate B fixedly mounted on the upper surfaces of the four slide blocks B, a drive motor B fixedly mounted on the mounting plate B, a driving wheel fixedly mounted on the rotary end of the drive motor B, a bearing seat B fixedly mounted on the mounting plate B, a right corner chamfering drive wheel located on the back surface of the bearing seat B, a belt B sleeved on the driving wheel and the right corner chamfering drive wheel B, a right corner chamfering drill bit B located on the front surface of the bearing seat B and clamped with the right corner chamfering drive wheel, and a chamfering tool magazine device fixedly mounted on the mounting plate B; the machining platform is further provided with an operating panel thereon and a control device thereunder; the connecting terminal of the control device is electrically connected to the operating panel, the punching and left corner chamfering mechanism, the right corner chamfering mechanism, and an electrical element of the clamp mechanism respectively. The device can punch and chamfer a workpiece at the same time, does not require managing the workpiece after the workpiece is placed in a stock bin, and can perform clamping, machining and tool changing automatically. The present invention reduces the working intensity of a worker, and solves the problems of nonuniform
2017101696 05 Dec 2017 clamping force and inaccurate positioning in existing punching and chamfering modes, thus improving working efficiency and product machining precision.
In the present embodiment, the lower surface of the clamp base is connected to the station cylinder; a clamping base remains motionless; the clamping cylinder moves dowmwards and drives the clamping block to clamp a workpiece; the drive motor A drives the belt A to rotate; the belt drives the main shafts of the two drill bits to simultaneously rotate via the bearing seat A; the punching and left corner chamfering mechanism is pushed forwards along the slide rail A under the push of the four slide blocks A; when a worker requires changing a tool, first the chamfering and punching tool magazine device is used to move the mounting plate A backwards along the slide rail A away from a to-be-machined bar material, and then the tool is changed; when a chamfering tool is required to be changed, first the rotary motor B rotates and drives the first disk type chamfering tool magazine to rotate; a required chamfering tool is rotated to a waiting station, waiting for changing; then the first miniature linear motor move backwards, and drives the first manipulator to grab the original chamfering tool and the required chamfering tool; the first miniature linear motor moves forwards, detaches the original chamfering tool from the left corner chamfering drive wheel and carries the required chamfering tool out of the tool magazine; the first miniature motor rotates and drives the first manipulator to change the tool; then the first miniature linear motor moves to mount the required chamfering tool on the left corner chamfering drive wheel and place the original chamfering tool in the tool magazine; the change operation of the left corner chamfering tool is completed. The linear push motor in the slide rail upright column pushes the first miniature linear motor to a position corresponding to the disk type punching tool magazine; the rotary motor A rotates and drives the disk type punching tool magazine to rotate; a required punching tool is rotated to the waiting station, waiting for changing; then the first miniature linear motor moves backwards, and drives the first manipulator to grab the original punching tool and the required punching tool; the first io
2017101696 05 Dec 2017 miniature linear motor moves forwards, detaches the original punching tool from the punching drive wheel and carries the required punching tool out of the tool magazine; the first miniature motor rotates and drives the first manipulator to change the tool; then the first miniature linear motor moves to mount the required punching tool on the left corner chamfering drive wheel and place the original punching tool in the tool magazine; the change operation of the punching tool is completed. After the punching and left corner chamfering processes are completed, the station cylinder is connected to the clamp base, such that the clamp base can be lifted up for 75mm together with the clamping block and the workpiece; the workpiece is driven upwards together with the clamping base: the upright columns are used to guide the clamp base: the clamping cylinder is used to clamp the workpiece; the right corner chamfering mechanism, together with a slide plate, is pushed forwards along the guide rail under the push of the cylinder to chamfer the right corner; the drive motor B drives the belt B to rotate; the belt B drives the right angle chamfering drill bit to rotate via the bearing seat B to perform the right angle chamfering process: the right corner chamfering mechanism is pushed forwards along the slide rail B under the push of the four slide blocks B; when a worker requires changing a tool, first the chamfering tool magazine device is used to move the mounting plate B backwards along the slide rail B away from a to-be-machined bar material, and then the tool is changed; when a chamfering tool is required to be changed, first the rotary motor B rotates and drives the first disk type chamfering tool magazine to rotate; a required chamfering tool is rotated to a waiting station, waiting for changing; then the second miniature linear motor move backwards, and drives the second manipulator to grab the original chamfering tool and the required chamfering tool; the second miniature linear motor moves forwards, detaches the original chamfering tool from the right corner chamfering drive wheel and carries the required chamfering tool out of the tool magazine; the second miniature motor rotates and drives the second manipulator to change the tool; then the first miniature linear motor moves to mount the required chamfering tool on the right corner chamfering drive wheel and place the original chamfering tool in the tool
2017101696 05 Dec 2017 magazine; the change operation of the right corner chamfering tool is completed. The second miniature linear motor moves backwards, and drives the second manipulator to grab the original punching tool and the required punching tool; the second miniature linear motor moves forwards, detaches the original punching tool from the punching drive wheel and carries the required punching tool out of the tool magazine; the second miniature motor rotates and drives the second manipulator to change the tool; then the second miniature linear motor moves to mount the required punching tool on the right corner chamfering drive wheel and place the original punching tool in the tool magazine; the change operation of the punching tool is completed. After the punching and chamfering processes on the two sides are completed, the mechanisms on the left and right sides move back; the station cylinder and the clamping cylinder return to original positions; the clamp loosens an unloading cylinder to unload the workpiece; the processes are all controlled automatically by supplying power and programs to the operating panel via an electric cabinet and manually pressing the keys on the operating panel;
furthermore, the water tank on the chassis is connected to an external water pipe via the buckled movable water nozzle to spray water for cooling the workpiece which may generate heat during machining.
The technical solutions above are only preferred technical solutions of the present invention. A person skilled in the art may make variations to certain parts therein without departing from the principle of the present invention. And the variations are all concluded in the protection scope of the present invention.
2017101696 05 Dec 2017
Claims (3)
- The claims defining the invention are as follows:1. A rod-like material machining device, comprising a chassis, characterized in that, a machining platform is fixedly mounted on the chassis, and is provided thereon with a5 punching and left corner chamfering mechanism, a right corner chamfering mechanism, a clamp mechanism, and a cutting waste guide groove, wherein the clamp mechanism is located between the punching and left corner chamfering mechanism and the right corner chamfering mechanism; the two sides of the cutting waste guide groove are fixedly mounted on the surface of the machining platform via angle irons; the punching and left10 corner chamfering mechanism consists of a set of slide rails A fixedly mounted on the machining platform, four slide blocks A located on the slide rails A, a mounting plate A fixedly mounted on the upper surfaces of the four slide blocks A, a drive motor A fixedly mounted on the mounting plate A, a driving wheel fixedly mounted on the rotary end of the drive motor A, a bearing seat A fixedly mounted on the mounting plate A, a left corner15 chamfering drive wheel located on the back surface of the bearing seat A, a punching drive wheel located on the back surface of the bearing seat A and under the left corner chamfering drive wheel, a belt A sleeved on the driving wheel, the left corner chamfering drive wheel and the punching drive wheel, a left corner chamfering drill bit located on the front surface of the bearing seat A and clamped with the left corner chamfering drive20 wheel, a punching drill bit located on the front surface of the bearing seat A and clamped with the punching drive wheel, and a chamfering and punching tool magazine device fixedly mounted on the mounting plate A; the right corner chamfering mechanism consists of a set of slide rails B fixedly mounted on the machining platform, four slide blocks B located on the slide rails B, a mounting plate B fixedly mounted on the upper surfaces of25 the four slide blocks B, a drive motor B fixedly mounted on the mounting plate B, a driving wheel fixedly mounted on the rotary end of the drive motor B, a bearing seat B fixedly mounted on the mounting plate B, a right corner chamfering drive wheel located on the back surface of the bearing seat B, a belt B sleeved on the driving wheel and the2017101696 05 Dec 2017 right corner chamfering drive wheel B, a right corner chamfering drill bit B located on the front surface of the bearing seat B and clamped with the right corner chamfering drive wheel, and a chamfering tool magazine device fixedly mounted on the mounting plate B; the machining platform is further provided with an operating panel thereon and a control5 device thereunder; the connecting terminal of the control device is electrically connected to the operating panel, the punching and left corner chamfering mechanism, the right corner chamfering mechanism, and an electrical element of the clamp mechanism respectively, the chamfering and punching tool magazine device consists of a rotary motor A fixedly mounted on the surface of the mounting plate A and provided with a horizontal10 rotary end, a disk type punching tool magazine fixedly connected to the rotary end of the rotary motor A, a rotary motor B fixedly mounted on the upper surface of the rotary motor A, a first disk type chamfering tool magazine fixedly connected to the rotary end of the rotary motor B, a slide rail upright column fixed on the surface of the mounting plate A, a linear push motor fixedly mounted at the upper end of the slide rail upright column and15 provided with a downward telescopic end, a first miniature linear motor having a lateral surface fixedly connected to the telescopic end of the linear push motor and provided with a horizontal telescopic end, a first miniature motor fixedly connected to the telescopic end of the first miniature linear motor, and a first manipulator fixedly connected to the rotary end of the first miniature motor.20
- 2. The rod-like material machining device according to claim 1, characterized in that, the clamp mechanism consists of a bottom plate fixedly mounted on the machining platform, two upright columns fixedly mounted on the bottom plate and parallel to each other; a group of vertical chutes disposed on the facing inside surfaces of the two upright columns, a clamp base having the two ends inserted in the group of vertical chutes, a25 retainer angle iron mounted on the front surface of the clamp base, a clamping cylinder fixedly mounted on the upper surface of the clamp base, a clamping bock fixedly connected to the telescopic end of the clamping cylinder, and a station cylinder located under the bottom plate and having the telescopic end thereof fixedly connected to the2017101696 05 Dec 2017 lower surface of the clamp base.
- 3. The rod-like material machining device according to claim 1, characterized in that, a water tank located under the machining platform is disposed on the chassis.Drawings2017101696 05 Dec 2017Fig. 1 iDrawings2017101696 05 Dec 2017Fig. 2Fig. 3Drawings2017101696 05 Dec 2017
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2017101696A AU2017101696A4 (en) | 2017-12-05 | 2017-12-05 | Rod-like Material Machining Device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2017101696A AU2017101696A4 (en) | 2017-12-05 | 2017-12-05 | Rod-like Material Machining Device |
Publications (1)
Publication Number | Publication Date |
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AU2017101696A4 true AU2017101696A4 (en) | 2018-01-18 |
Family
ID=61005300
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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AU2017101696A Ceased AU2017101696A4 (en) | 2017-12-05 | 2017-12-05 | Rod-like Material Machining Device |
Country Status (1)
Country | Link |
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AU (1) | AU2017101696A4 (en) |
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2017
- 2017-12-05 AU AU2017101696A patent/AU2017101696A4/en not_active Ceased
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