CN218283821U

CN218283821U - High-efficient drilling equipment of optical axis

Info

Publication number: CN218283821U
Application number: CN202222574856.2U
Authority: CN
Inventors: 陈勇强
Original assignee: Zhejiang Jinsheng Bearing Co ltd
Current assignee: Zhejiang Jinsheng Bearing Co ltd
Priority date: 2022-09-28
Filing date: 2022-09-28
Publication date: 2023-01-13
Anticipated expiration: 2032-09-28

Abstract

The utility model relates to a high-efficient drilling equipment of optical axis, which comprises a supporting rack, fixed mounting is at the drilling machine of support frame upper end, the drilling machine left end is equipped with the first carriage of sliding connection in the support frame upper end, the first collet chuck of fixedly connected with on the first carriage, the drilling machine right-hand member is equipped with the second carriage of installing in the support frame upper end, it is connected with the second collet chuck to rotate on the second carriage, the first gear of second collet chuck outside fixedly connected with, the meshing of first gear lower extreme has the second gear, the second gear rotates and connects on the second carriage, the second carriage right-hand member is equipped with the third carriage of fixed connection in the support frame upper end, it is connected with the third collet chuck to rotate on the third carriage, third collet chuck outside fixedly connected with third gear, the meshing of third gear lower extreme has the fourth gear, fourth gear left end fixedly connected with can drive second gear pivoted pivot, fourth gear right-hand member fixedly connected with third motor, can rotate the optical axis automatically, high machining precision, high machining efficiency.

Description

High-efficient drilling equipment of optical axis

Technical Field

The utility model relates to a drilling equipment field especially relates to a high-efficient drilling equipment of optical axis.

Background

Application No.: CN202122390989.X discloses a tapping production line of straight line cylinder guide rail optical axis, including the workstation, has set gradually drilling unit head, automatic tapping machine along the advancing direction of optical axis on the workstation, and the one side that lies in automatic tapping machine and keep away from the drilling unit head on the workstation is provided with draws material mechanism, draws the drill bit below that material mechanism is used for pulling the optical axis through drilling unit head, automatic tapping machine in proper order. Above-mentioned technical scheme can carry out the automation to the optical axis and carry, and machining efficiency is high, but the optical axis needs processing sometimes to satisfy actual demand in two rows of holes of transversal personally submitting 90 degrees angles, and current device is most as shown above-mentioned technical scheme, can only carry out the automation to the optical axis, needs the manual work to rotate the optical axis 90 degrees, uses protractor range estimation turned angle, and processing second row hole, machining error is big, and machining efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve the problem that above-mentioned prior art exists, provide a high-efficient drilling equipment of optical axis, can rotate the optical axis automatically, the machining precision is high, and machining efficiency is high.

The utility model provides a technical scheme that its technical problem adopted: the high-efficiency drilling device for the optical axis comprises a support frame and a drilling machine fixedly arranged at the upper end of the support frame, wherein a first conveying frame which is connected to the upper end of the support frame in a sliding manner is arranged at the left end of the drilling machine, a first lead screw is connected to the first conveying frame in a threaded manner and is connected to the support frame in a rotating manner, a first motor is fixedly connected to the left end of the first lead screw and is fixedly connected to the support frame, a first cylinder is fixedly connected to the first conveying frame, a first clamping ring which can lock the first cylinder is connected to the outer side of the first cylinder in a sliding manner, a first cylinder is fixedly connected to the first clamping ring and is fixedly connected to the first conveying frame, a second conveying frame which is arranged at the upper end of the support frame is arranged at the right end of the drilling machine, a second cylinder is rotatably connected to the second conveying frame, a first gear is fixedly connected to the outer side of the second cylinder, a second locking ring which can lock the second cylinder is connected to the outer side of the second cylinder, a second cylinder is fixedly connected to the second locking ring, the second cylinder is fixedly connected to the first gear, the lower end of the first gear is meshed with a second gear, the second gear is rotatably connected to a second conveying frame, a third conveying frame fixedly connected to the upper end of the supporting frame is arranged at the right end of the second conveying frame, a third collet chuck is rotatably connected to the third conveying frame, a third gear is fixedly connected to the outer side of the third collet chuck, a third locking ring capable of locking the third collet chuck is slidably connected to the outer side of the third collet chuck, a third cylinder is fixedly connected to the third locking ring, the third cylinder is fixedly connected to the third gear, a fourth gear is meshed at the lower end of the third gear, the fourth gear is rotatably connected to the third conveying frame, a rotating shaft capable of driving the second gear to rotate is fixedly connected to the left end of the fourth gear, and a third motor is fixedly connected to the right end of the fourth gear, the third motor is fixedly connected to a third conveying frame, an optical axis extends into the inner sides of the first collet chuck and the second collet chuck, the first cylinder drives the first locking ring to move, the first locking ring drives the first collet chuck to clamp the optical axis tightly, the second cylinder drives the second locking ring to move, the second locking ring drives the second collet chuck to clamp the optical axis tightly, the drilling machine drives the drill bit to drill the optical axis, the first motor drives the first lead screw to rotate, the first lead screw drives the first conveying frame to move to automatically convey the optical axis, after hole arrangement machining is completed, the first collet chuck loosens the optical axis, the optical axis is located on the inner sides of the second collet chuck and the third collet chuck, the second collet chuck and the third collet chuck lock the optical axis tightly, the third motor drives the fourth gear to rotate, the fourth gear drives the second gear to rotate through the rotating shaft, the fourth gear drives the third gear to rotate, the third gear drives the third collet chuck to rotate, the second gear drives the first gear to rotate, the first gear drives the second collet chuck to rotate, the second collet chuck and the optical axis to rotate by 90 degrees, and the third collet chuck to machine a second hole arrangement of the optical axis.

For further perfection, second carriage sliding connection is in the support frame upper end, and threaded connection has the second lead screw on the second carriage, and the second lead screw rotates to be connected on the support frame, second lead screw right-hand member fixedly connected with second motor, and second motor fixed connection also can remove on the support frame for the device can adapt to the processing of different length optical axes.

Further perfect, the pivot outside fixedly connected with sand grip, second gear open have the through-hole, and pivot sliding connection is inboard at the through-hole, and the through-hole outside is equipped with the draw-in groove of opening on the second gear, and sand grip sliding connection is inboard at the draw-in groove.

Further perfect, both ends are all fixedly connected with fourth cylinder about the drilling machine, and fourth cylinder lower extreme fixedly connected with briquetting, the briquetting lower extreme all are equipped with the V type piece of fixed connection on the support frame, and the briquetting can be fixed the optical axis for the atress effect of optical axis is better, makes the drilling effect of optical axis better, makes the device can process the hole that the optical axis is close to the end portion.

Further perfect, briquetting lower extreme fixedly connected with block rubber increases frictional force for the briquetting is better to the fixed effect of optical axis.

Further perfect, sliding connection has first guiding axle on the first carriage, first guiding axle fixed connection is on the support frame, sliding connection has the second guiding axle on the second carriage, second guiding axle fixed connection is on the support frame.

The utility model discloses profitable effect is: the utility model discloses can rotate the optical axis automatically, the machining precision is high, high machining efficiency, first carriage drives first collet chuck and carries out automatic transport to the optical axis, first collet chuck and second collet chuck press from both sides the optical axis tightly, the drilling machine drives the drill bit and can drills to the optical axis, second collet chuck and third collet chuck lock the optical axis, the third motor drives fourth gear revolve, the fourth gear drives second gear revolve through the pivot, the fourth gear drives third gear revolve, the third gear drives third collet chuck revolve, the second gear drives first gear revolve, first gear drives the second collet chuck and rotates, second collet chuck and third collet chuck rotate 90 degrees with the optical axis, can process the second round of the optical axis, the second carriage also can move, make the device can adapt to the processing of different length optical axes, the briquetting can fix the optical axis, make the atress effect of optical axis better, make the drilling effect of optical axis better, make the device can process the hole that the optical axis leans on the proximal end portion.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of the present invention;

fig. 3 is a cross-sectional view of the present invention;

fig. 4 is a schematic structural view of the first carriage of the present invention;

fig. 5 is a schematic structural view of a second carriage according to the present invention;

fig. 6 is a schematic structural view of the third carriage of the present invention.

Description of the reference numerals: 1. a support frame; 11. a V-shaped block; 2. a first carriage; 21. a first lead screw; 211. a first motor; 22. a first guide shaft; 23. a first collet; 24. a first locking ring; 25. a first cylinder; 3. a second conveyance rack; 31. a second lead screw; 311. a second motor; 32. a second guide shaft; 33. a second collet; 34. a second locking ring; 35. a second cylinder; 36. a first gear; 37. a second gear; 371. a through hole; 372. a card slot; 4. a third carriage; 41. a third collet; 42. a third locking ring; 43. a third cylinder; 44. a third gear; 45. a fourth gear; 451. a rotating shaft; 452. a convex strip; 46. a third motor; 5. drilling machine; 51. a fourth cylinder; 52. briquetting; 53. a rubber block.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1-4: the embodiment of the utility model provides a high-efficient drilling equipment of optical axis, including support frame 1, drilling machine 5 of fixed mounting in 1 upper end of support frame, drilling machine 5 left end is equipped with sliding connection at the first carriage 2 of 1 upper end, threaded connection has first lead screw 21 on the first carriage 2, first lead screw 21 rotates and connects on support frame 1, first lead screw 21 left end fixedly connected with first motor 211, first motor 211 fixed connection is on support frame 1, sliding connection has first guiding axle 22 on the first carriage 2, first guiding axle 22 fixed connection is on support frame 1, first collet chuck 23 of fixedly connected with on the first carriage 2, sliding connection has the first lock ring 24 that can lock first collet chuck 23 in the first collet chuck 23 outside, first cylinder 25 of fixedly connected with on the first lock ring 24, first cylinder 25 fixed connection is on first carriage 2.

As shown in fig. 1-3 and 5: the right end of the drilling machine 5 is provided with a second conveying frame 3 which is connected to the upper end of the support frame 1 in a sliding mode, a second lead screw 31 is connected to the support frame 1 in a threaded mode on the second conveying frame 3, the second lead screw 31 is connected to the support frame 1 in a rotating mode, a second motor 311 is fixedly connected to the right end of the second lead screw 31, the second motor 311 is fixedly connected to the support frame 1, a second guide shaft 32 is connected to the second conveying frame 3 in a sliding mode, the second guide shaft 32 is fixedly connected to the support frame 1, a second collet chuck 33 is connected to the second conveying frame 3 in a rotating mode, a first gear 36 is fixedly connected to the outer side of the second collet chuck 33, a second locking ring 34 capable of locking the second collet chuck 33 is connected to the outer side of the second collet chuck 33 in a sliding mode, a second air cylinder 35 is fixedly connected to the second locking ring 34, a second gear 37 is meshed with the lower end of the first gear 36, and the second gear 37 is connected to the second conveying frame 3 in a rotating mode.

As shown in fig. 1-3 and 6: the right end of the second conveying frame 3 is provided with a third conveying frame 4 installed at the upper end of the supporting frame 1, the third conveying frame 4 is connected with a third collet chuck 41 in a rotating mode, a third gear 44 is fixedly connected to the outer side of the third collet chuck 41, a third locking ring 42 capable of locking the third collet chuck 41 is connected to the outer side of the third collet chuck 41 in a sliding mode, a third air cylinder 43 is fixedly connected to the third locking ring 42, the third air cylinder 43 is fixedly connected to the third gear 44, a fourth gear 45 is meshed with the lower end of the third gear 44, the fourth gear 45 is connected to the third conveying frame 4 in a rotating mode, a third motor 46 is fixedly connected to the right end of the fourth gear 45, the third motor 46 is fixedly connected to the third conveying frame 4, the left end of the fourth gear 45 is fixedly connected with a rotating shaft 451, a convex strip 452 is fixedly connected to the outer side of the rotating shaft 451, a through hole 371 is formed in the second gear 37, the rotating shaft 371 is connected to the inner side of the through hole 451 in a sliding mode, a clamping groove 372 formed in the outer side of the through hole 37, and the convex strip 452 is connected to the inner side of the sliding mode of the clamping groove 372 in the inner side of the clamping groove 372.

As shown in fig. 1-3: both ends all fixedly connected with fourth cylinder 51 about drilling machine 5, fourth cylinder 51 lower extreme fixedly connected with briquetting 52, briquetting 52 lower extreme fixedly connected with block rubber 53, block rubber 53 lower extreme all is equipped with V type piece 11 of fixed connection on support frame 1.

The utility model discloses when using: the optical axis extends into the inner side of the first collet chuck 23 and the upper end of the V-shaped block 11, the first cylinder 25 drives the first locking ring 24 to move, the first locking ring 24 drives the first collet chuck 23 to clamp the optical axis, the fourth cylinder 51 drives the pressing block 52 to fix the optical axis, the drilling machine 5 drives the drill bit to drill the optical axis, the first motor 211 drives the first lead screw 21 to rotate, the first lead screw 21 drives the first conveying frame 2 to move to automatically convey the optical axis, the optical axis extends into the inner side of the second collet chuck 33, when the optical axis moves to a certain position at the right end, the first collet chuck 23 releases the optical axis, the second cylinder 35 drives the second locking ring 34 to move, the second locking ring 34 drives the second collet chuck 33 to clamp the optical axis, the second motor 311 drives the second lead screw 31 to rotate, the second conveying frame 31 drives the second conveying frame 3 to move, the second conveying frame 3 drives the optical axis to move through the second collet chuck 33, so that the optical axis extends into the inner side of the third collet chuck 41, the third cylinder 43 drives the third locking ring 42 to move, the third collet chuck 42 drives the third collet chuck 41 to clamp the collet chuck 41 to rotate, the third collet chuck 46 drives the fourth gear 45 to rotate, the fourth gear 44 to rotate, the fourth gear 37 drives the fourth shaft 36 to rotate, the third shaft 36 to rotate, and the fourth gear 44 to rotate, the third shaft 36, and the third gear 41, and the third chuck 44, and the third chuck 33 to rotate, the third chuck 44, and the fourth gear 44, and the third chuck 33 to rotate, and rotate, the third chuck 33, the third chuck 44, and the fourth gear 44, and rotate.

Although the invention has been shown and described with reference to preferred embodiments, it will be understood by those skilled in the art that various changes in form and details of the optical axis efficient drilling apparatus may be made within the scope of the appended claims.

Claims

1. The utility model provides a high-efficient drilling equipment of optical axis, includes support frame (1), drilling machine (5) of fixed mounting in support frame (1) upper end, characterized by: the left end of the drilling machine (5) is provided with a first conveying frame (2) which is connected to the upper end of the support frame (1) in a sliding manner, a first lead screw (21) is connected to the first conveying frame (2) in a threaded manner, the first lead screw (21) is connected to the support frame (1) in a rotating manner, a first motor (211) is fixedly connected to the left end of the first lead screw (21), the first motor (211) is fixedly connected to the support frame (1), a first cylinder clamp (23) is fixedly connected to the first conveying frame (2), a first locking ring (24) which can lock the first cylinder clamp (23) is connected to the outer side of the first cylinder (23) in a sliding manner, a second cylinder clamp (33) is fixedly connected to the first conveying frame (24), a first gear (36) is fixedly connected to the outer side of the second cylinder clamp (33) and is arranged at the right end of the drilling machine (5), a second gear (34) is fixedly connected to the outer side of the second conveying frame (1), a second gear (35) which can be connected to the outer side of the second cylinder clamp (33) in a sliding manner, a second gear (34) is connected to the lower end of the second cylinder (35) which is meshed with a second cylinder (36), second gear (37) rotates to be connected on second carriage (3), second carriage (3) right-hand member is equipped with third carriage (4) of installing in support frame (1) upper end, it has third collet chuck (41) to rotate on third carriage (4), third collet chuck (41) outside fixedly connected with third gear (44), third collet chuck (41) outside sliding connection has third locking ring (42) that can lock third collet chuck (41), fixedly connected with third cylinder (43) on third locking ring (42), third cylinder (43) fixed connection is on third gear (44), third gear (44) lower extreme meshing has fourth gear (45), fourth gear (45) rotate to be connected on third carriage (4), fourth gear (45) left end fixedly connected with can drive second gear (37) pivoted pivot (451), fourth gear (45) right-hand member fixed connection has third motor (46), third motor (46) fixed connection is in third carriage (4).

2. An optical axis high efficiency drilling apparatus as claimed in claim 1, wherein: second carriage (3) sliding connection is in support frame (1) upper end, and threaded connection has second lead screw (31) on second carriage (3), and second lead screw (31) rotate to be connected on support frame (1), second lead screw (31) right-hand member fixedly connected with second motor (311), and second motor (311) fixed connection is on support frame (1).

3. An optical axis high efficiency drilling apparatus as claimed in claim 2, wherein: the utility model discloses a gear transmission mechanism, including pivot (451), second gear (37), through-hole (371) are opened to pivot (451) outside fixedly connected with sand grip (452), and pivot (451) sliding connection is inboard at through-hole (371), and through-hole (371) outside is equipped with draw-in groove (372) of opening on second gear (37), and sand grip (452) sliding connection is inboard in draw-in groove (372).

4. An optical axis high efficiency drilling apparatus as claimed in claim 1 or 3, wherein: both ends all fixedly connected with fourth cylinder (51) about drilling machine (5), fourth cylinder (51) lower extreme fixedly connected with briquetting (52), briquetting (52) lower extreme all is equipped with V type piece (11) of fixed connection on support frame (1).

5. An optical axis high efficiency drilling apparatus as claimed in claim 4, wherein: the lower end of the pressing block (52) is fixedly connected with a rubber block (53).

6. An optical axis high efficiency drilling apparatus as claimed in claim 2, wherein: sliding connection has first guiding axle (22) on first carriage (2), first guiding axle (22) fixed connection is on support frame (1), sliding connection has second guiding axle (32) on second carriage (3), second guiding axle (32) fixed connection is on support frame (1).