CN215967986U - Full-automatic numerical control horizontal type groove milling special machine - Google Patents
Full-automatic numerical control horizontal type groove milling special machine Download PDFInfo
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- CN215967986U CN215967986U CN202122202490.1U CN202122202490U CN215967986U CN 215967986 U CN215967986 U CN 215967986U CN 202122202490 U CN202122202490 U CN 202122202490U CN 215967986 U CN215967986 U CN 215967986U
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Abstract
The utility model relates to the technical field of groove milling, and discloses a full-automatic numerical control horizontal groove milling machine, which comprises a workbench, wherein a main spindle box is connected above the workbench, a first lead screw is connected to one side of the main spindle box, a slide carriage box is connected to the outer side of the first lead screw, a tool apron is connected above the slide carriage box, a groove milling blade is connected to one side of the tool apron, an installation seat is connected above the slide carriage box, a first connecting rod is connected above the installation seat, a second connecting rod is connected above the first connecting rod, a first motor is connected above the second connecting rod, one end of the first motor is connected with a grinding wheel, the full-automatic numerical control horizontal groove milling machine is provided with the first motor, the grinding wheel and the second motor, the first motor is started to drive the grinding wheel to rotate, and is favorable for grinding a workpiece in a chuck, the problem of the work piece after the milling flutes is gone through the manual work and is polished, very waste time and energy is solved.
Description
Technical Field
The utility model relates to the technical field of groove milling, in particular to a full-automatic numerical control horizontal type special groove milling machine.
Background
The groove milling step is generally to directly lower the groove center line to a certain depth, namely groove milling, groove lowering and groove milling (back and forth milling), mill to a specified depth, and then finish mill to a size according to the groove width, generally adopt a milling cutter in the form of a vertical milling cutter and a circular saw blade, and have high requirements on the whole machine tool according to different materials and processing requirements in the cutting process.
At present, various special groove milling machines exist in the market, but the special groove milling machines generally exist, workpieces after groove milling need to be polished manually, time and labor are wasted, and therefore, technical personnel in the field provide a full-automatic numerical control horizontal special groove milling machine to solve the problems in the background technology.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a cutting and polishing integrated machine for precision machining, which aims to solve the problems in the background technology.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a horizontal milling flutes special plane of full-automatic numerical control, includes the workstation, the below of workstation is connected with four supporting legss, the top of workstation is connected with the headstock, one side of headstock is connected with the chuck, the top of headstock is connected with the control box, the position that one side of headstock is close to the chuck is connected with first lead screw, the outside of first lead screw is connected with the carriage box, the top of carriage box is connected with the blade holder, one side of blade holder is connected with the milling flutes blade, the both sides that the top of carriage box is close to the blade holder are connected with a set of mount pad, and are a set of the top of mount pad is connected with the head rod, the top of head rod is connected with the second connecting rod, the top of second connecting rod is connected with first motor, the one end of the inside output shaft of first motor is connected with the emery wheel.
As a still further scheme of the utility model: the novel motor installation structure is characterized in that a second motor is connected inside the installation seat, a second lead screw is connected to one end of an output shaft inside the second motor, a second bearing seat is connected to one end of the second lead screw, the second bearing seat is connected with the installation seat, a ball nut is connected to the outer side of the second lead screw, a connecting block is connected to the upper portion of the ball nut, and the connecting block is connected with a first connecting rod.
As a still further scheme of the utility model: a plurality of first through holes are formed in the second connecting rod, a group of second through holes are formed in the first connecting rod, a bolt is connected inside the second through holes, one end of the bolt is connected with a nut, and the bolt is connected with the first through holes.
As a still further scheme of the utility model: one end of the first screw rod is connected with a first bearing seat, one side of the first bearing seat is connected with a group of guide rods at a position close to the first screw rod, and the guide rods are connected with the slide carriage box and the spindle box.
As a still further scheme of the utility model: the first motor is connected with the control box through a circuit, and the position of the grinding wheel corresponds to the position of the chuck.
As a still further scheme of the utility model: the bolt penetrates through the second through hole and the first through hole in sequence, and the second connecting rod is fixedly connected with the first connecting rod through the bolt.
Compared with the prior art, the utility model has the beneficial effects that:
1. set up first motor, emery wheel and second motor, open the second motor, it is rotatory to drive the second lead screw, and the first motor and the emery wheel that drive ball nut and top move, are favorable to moving the emery wheel to chuck position, open first motor, and it is rotatory to drive the emery wheel, are favorable to polishing the inside work piece of chuck, have solved the work piece after the milling flutes and need artifically polish, very waste time and energy problem.
2. Set up head rod, second connecting rod and bolt, swivel nut takes out the bolt from the inside of second through-hole and first through-hole, is convenient for adjust the relative distance between head rod, the second connecting rod, is favorable to highly adjusting first motor and emery wheel, has increased the flexibility.
Drawings
FIG. 1 is a schematic structural diagram of a full-automatic numerical control horizontal milling groove special machine;
FIG. 2 is a side sectional view of a first connecting rod and a mounting seat in the full-automatic numerical control horizontal type special groove milling machine;
FIG. 3 is a front sectional view of a mounting seat in the full-automatic numerical control horizontal type milling groove special machine.
In the figure: 1. a control box; 2. a main spindle box; 3. a work table; 4. supporting legs; 5. a slide carriage box; 6. a tool apron; 7. a first bearing housing; 8. a first lead screw; 9. a guide bar; 10. a first connecting rod; 11. a second connecting rod; 12. a first motor; 13. a grinding wheel; 14. milling a slot blade; 15. a chuck; 16. a first through hole; 17. a second through hole; 18. a bolt; 19. connecting blocks; 20. a second lead screw; 21. a ball nut; 22. a mounting seat; 23. a second motor; 24. a second bearing housing; 25. and a nut.
Detailed Description
Referring to fig. 1 to 3, in the embodiment of the present invention, a full-automatic numerical control horizontal slotting machine includes a workbench 3, four supporting legs 4 are connected to a lower portion of the workbench 3, a spindle box 2 is connected to an upper portion of the workbench 3, a chuck 15 is connected to one side of the spindle box 2, a control box 1 is connected to an upper portion of the spindle box 2, a first lead screw 8 is connected to a position of one side of the spindle box 2 close to the chuck 15, a carriage box 5 is connected to an outer side of the first lead screw 8, a tool apron 6 is connected to an upper portion of the carriage box 5, a slotting blade 14 is connected to one side of the tool apron 6, a set of mounting seats 22 is connected to two sides of the upper portion of the carriage box 5 close to the tool apron 6, a first connecting rod 10 is connected to an upper portion of the set of mounting seats 22, a second connecting rod 11 is connected to an upper portion of the first connecting rod 10, a first motor 12 is connected to an upper portion of the second connecting rod 11, and one end of an inner output shaft of the first motor 12 is connected to a grinding wheel 13.
In fig. 2 and 3: the internally connected of mount pad 22 has second motor 23, the one end of the inside output shaft of second motor 23 is connected with second lead screw 20, the one end of second lead screw 20 is connected with second bearing seat 24, second bearing seat 24 is connected with mount pad 22, the outside of second lead screw 20 is connected with ball nut 21, ball nut 21's top is connected with connecting block 19, connecting block 19 is connected with head rod 10, open second motor 23, it is rotatory to drive second lead screw 20, first motor 12 and the emery wheel 13 that drive ball nut 21 and top move, be favorable to moving emery wheel 13 to chuck 15 position, open first motor 12, it rotates to drive emery wheel 13, be favorable to polishing the inside work piece of chuck 15, the work piece after having solved the milling flutes and having passed needs the manual work to polish, very waste time and energy problem.
In fig. 2 and 3: a plurality of first through-holes 16 have been seted up to the inside of second connecting rod 11, a set of second through-hole 17 has been seted up to the inside of head rod 10, the internal connection of a set of second through-hole 17 has bolt 18, the one end of bolt 18 is connected with nut 25, bolt 18 is connected with first through-hole 16, swivel nut 25, take out bolt 18 from the inside of second through-hole 17 and first through-hole 16, be convenient for adjust head rod 10, the relative distance between the second connecting rod 11, be favorable to highly adjusting first motor 12 and emery wheel 13, the flexibility has been increased.
In fig. 1: one end of the first screw rod 8 is connected with a first bearing seat 7, one side of the first bearing seat 7 is connected with a group of guide rods 9 at a position close to the first screw rod 8, the guide rods 9 are connected with the slide carriage box 5 and the spindle box 2, and under the action of the guide rods 9, a limiting effect is achieved, so that the moving process of the slide carriage box 5 is more stable.
In fig. 1: the first motor 12 is connected with the control box 1 through a circuit, and the position of the grinding wheel 13 corresponds to the position of the chuck 15, so that the grinding wheel 13 can quickly grind a workpiece in the chuck 15, and the calibration time is reduced.
In fig. 2 and 3: the bolt 18 penetrates through the second through hole 17 and the first through hole 16 in sequence, the second connecting rod 11 is fixedly connected with the first connecting rod 10 through the bolt 18, the nut 25 is rotated, the bolt 18 is taken out from the second through hole 17 and the first through hole 16, and the relative distance between the first connecting rod 10 and the second connecting rod 11 can be adjusted conveniently.
The working principle of the utility model is as follows: place the work piece inside chuck 15, after the milling flutes, open second motor 23, it is rotatory to drive second lead screw 20, first motor 12 and emery wheel 13 that drive ball nut 21 and top move, be favorable to moving emery wheel 13 to chuck 15 position, open first motor 12, it rotates to drive emery wheel 13, be favorable to polishing the inside work piece of chuck 15, swivel nut 25, take out bolt 18 from the inside of second through-hole 17 and first through-hole 16, be convenient for adjust head rod 10, the relative distance between the second connecting rod 11, be favorable to highly adjusting first motor 12 and emery wheel 13, the flexibility has been increased.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.
Claims (6)
1. The full-automatic numerical control horizontal groove milling machine comprises a workbench (3) and is characterized in that four supporting legs (4) are connected below the workbench (3), a spindle box (2) is connected above the workbench (3), a chuck (15) is connected to one side of the spindle box (2), a control box (1) is connected above the spindle box (2), a first lead screw (8) is connected to one side of the spindle box (2) close to the chuck (15), a slide carriage (5) is connected to the outer side of the first lead screw (8), a cutter holder (6) is connected above the slide carriage (5), a groove milling blade (14) is connected to one side of the cutter holder (6), a set of mounting seats (22) are connected to two sides of the upper side of the slide carriage (5) close to the cutter holder (6), and a first connecting rod (10) is connected above the mounting seats (22), the grinding wheel device is characterized in that a second connecting rod (11) is connected above the first connecting rod (10), a first motor (12) is connected above the second connecting rod (11), and one end of an output shaft in the first motor (12) is connected with a grinding wheel (13).
2. The full-automatic numerical control horizontal special milling machine for the grooves is characterized in that a second motor (23) is connected to the inside of the mounting seat (22), a second lead screw (20) is connected to one end of an output shaft inside the second motor (23), a second bearing seat (24) is connected to one end of the second lead screw (20), the second bearing seat (24) is connected with the mounting seat (22), a ball nut (21) is connected to the outer side of the second lead screw (20), a connecting block (19) is connected to the upper portion of the ball nut (21), and the connecting block (19) is connected with the first connecting rod (10).
3. The full-automatic numerical control horizontal special milling machine for the grooves is characterized in that a plurality of first through holes (16) are formed in the second connecting rod (11), a group of second through holes (17) are formed in the first connecting rod (10), a bolt (18) is connected to the inside of the group of second through holes (17), a nut (25) is connected to one end of the bolt (18), and the bolt (18) is connected with the first through hole (16).
4. The full-automatic numerical control horizontal special groove milling machine according to claim 1, wherein one end of the first screw rod (8) is connected with a first bearing seat (7), one side of the first bearing seat (7) is connected with a group of guide rods (9) at a position close to the first screw rod (8), and the guide rods (9) are connected with the slide carriage box (5) and the main spindle box (2).
5. The full-automatic numerical control horizontal type groove milling machine special for the steel ball mill is characterized in that the first motor (12) is connected with the control box (1) through a circuit, and the position of the grinding wheel (13) corresponds to the position of the chuck (15).
6. The full-automatic numerical control horizontal groove milling machine special for the steel wire rope mill is characterized in that the bolt (18) sequentially penetrates through the second through hole (17) and the first through hole (16), and the second connecting rod (11) is fixedly connected with the first connecting rod (10) through the bolt (18).
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CN202122202490.1U CN215967986U (en) | 2021-09-13 | 2021-09-13 | Full-automatic numerical control horizontal type groove milling special machine |
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CN202122202490.1U CN215967986U (en) | 2021-09-13 | 2021-09-13 | Full-automatic numerical control horizontal type groove milling special machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115625529A (en) * | 2022-09-26 | 2023-01-20 | 山东信德玛珂增压器股份有限公司 | Processing device for turbine shaft of turbocharger |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115625529A (en) * | 2022-09-26 | 2023-01-20 | 山东信德玛珂增压器股份有限公司 | Processing device for turbine shaft of turbocharger |
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