CN216097460U - Tapping production line for linear cylindrical guide rail optical axis - Google Patents

Abstract

The utility model provides a tapping production line for an optical axis of a linear cylindrical guide rail, which comprises a workbench, wherein a drilling power head and an automatic tapping machine are sequentially arranged on the workbench along the advancing direction of the optical axis, a material pulling mechanism is arranged on one side, away from the drilling power head, of the automatic tapping machine on the workbench, and the material pulling mechanism is used for pulling the optical axis to sequentially pass through the position below a drill bit of the drilling power head and the position below a drill bit of the automatic tapping machine. This tapping production line of straight line cylinder guide rail optical axis sets gradually drilling unit head, automatic tapping machine through the advancing direction along the optical axis on the workstation to set up the material mechanism that draws that is used for the pulling optical axis to pass drilling unit head, automatic tapping machine in proper order on the workstation, solved the problem that machining efficiency is low among the prior art.

Description

Tapping production line for linear cylindrical guide rail optical axis

Technical Field

The utility model relates to the technical field of guide rail optical axis machining equipment, in particular to a tapping production line for a linear cylindrical guide rail optical axis.

Background

As shown in figure 1, a linear cylinder guide rail comprises an aluminum support 1, an optical axis 2 and a screw 3, wherein the aluminum support 1 and the optical axis 2 are fixedly connected through the screw 3, and a threaded hole 4 matched with the screw 3 in a threaded manner is formed in the outer side wall of the optical axis 2.

At present, the specific processing flow of the optical axis is as follows: the workman is handheld the rig earlier and is beaten the locating hole on the lateral wall of optical axis, then carries the tapping machine department with the optical axis at the manual work to place the processing position of tapping machine in with the optical axis, then the workman adjusts the position of optical axis, makes the locating hole be located the tapping machine drill bit under, the drill bit of tapping machine is down after that, and with the locating hole processing screw hole.

The above prior art solutions have the following drawbacks: the existing processing mode requires that a worker firstly uses a drilling machine to punch out the positioning hole, and the positioning hole is manually carried to a tapping machine for tapping, so that the working efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art and provides a tapping production line for an optical axis of a linear cylindrical guide rail, which solves the problem of low working efficiency in the prior art.

The above object of the present invention is achieved by the following technical solutions: the utility model provides a tapping production line of straight cylinder guide rail optical axis, includes the workstation, drilling unit head, automatic tapping machine have set gradually along the advancing direction of optical axis on the workstation, one side that the drilling unit head was kept away from to the automatic tapping machine that lies in on the workstation is provided with draws material mechanism, draw material mechanism to be used for the pulling optical axis in proper order through the drill bit below of drilling unit head, the drill bit below of automatic tapping machine.

The utility model is further configured to: draw material mechanism including slide set up draw material platform on the workstation top surface, be used for the drive to draw the drive assembly, the clamp material subassembly that the material platform reciprocated and slided on the workstation top surface, it is used for cliping the one end that the optical axis passed drilling unit head, automatic tapping machine in proper order to press from both sides the material subassembly.

The utility model is further configured to: press from both sides the material subassembly including setting up in drawing the material bench and be used for the lower holder of bearing optical axis, draw the material bench vertically to be provided with a plurality of left stands, it is a plurality of the top of left side stand is provided with left mount table, be provided with left cylinder on the top surface of left side mount table, the piston rod of left side cylinder is connected with the left slip table that slides and set up on a plurality of left stands after passing left mount table, left side slip table is located under the holder directly over, be provided with on the terminal surface of left side slip table orientation lower holder and be used for compressing tightly the optical axis in the last chuck on lower holder.

The utility model is further configured to: the driving assembly comprises a rack arranged on the top surface of the workbench, a driving motor is arranged on the top surface of the material pulling platform, and an output shaft of the driving motor penetrates through the material pulling platform and then is coaxially connected with a gear meshed with the rack.

The utility model is further configured to: draw and set up left linear guide between material platform and the workstation, left side linear guide includes a plurality of left tracks that set up on the workstation top surface, a plurality of sets up on drawing material platform bottom surface and with left track sliding fit's left slider.

The utility model is further configured to: one side that lies in the drilling unit head on the workstation and keep away from automatic tapping machine is provided with the steady material mechanism that is used for promoting the stability when the optical axis removes, steady material mechanism sets up in steady material platform on the workstation including sliding, sets up in steady material bench and be used for the support material seat of bearing optical axis, steady material bench is vertical to be provided with a plurality of right stands, and is a plurality of the top of right stand is provided with right mount table, be provided with right cylinder on the top surface of right mount table, the piston rod of right cylinder is connected with the right slip table that slides and set up on a plurality of right stands after passing right mount table, right slip table is located and holds in the palm the material seat directly over, right slip table is provided with the pressure stub bar that is used for compressing tightly the optical axis on holding in the palm the material seat towards holding in the palm on the terminal surface of material seat.

The utility model is further configured to: be provided with right linear guide between steady material platform and the workstation, right linear guide includes a plurality of right side tracks, a plurality of right side sliders that set up on the workstation top surface and with right track sliding fit that set up on steady material platform bottom surface.

The utility model is further configured to: the automatic tapping machine is arranged on the top surface of the workbench, a mounting seat is arranged between the automatic tapping machine and the material stabilizing mechanism, a plurality of supports are arranged on the mounting seat, a mounting plate used for mounting a drilling power head is arranged at the top of each support, a first material supporting frame used for supporting an optical axis is arranged on the top surface of the mounting seat, and the first material supporting frame is arranged under the drilling power head.

The utility model is further configured to: the top surface of the workbench is provided with an I-shaped frame, the I-shaped frame is located right below a drill bit of the automatic tapping machine, and the I-shaped frame is provided with a material supporting frame II for supporting an optical axis.

In conclusion, the beneficial technical effects of the utility model are as follows: this tapping production line of straight line cylinder guide rail optical axis sets gradually drilling unit head, automatic tapping machine through the advancing direction along the optical axis on the workstation to set up the material mechanism that draws that is used for the pulling optical axis to pass drilling unit head, automatic tapping machine in proper order on the workstation, solved the problem that machining efficiency is low among the prior art.

Drawings

FIG. 1 is a schematic structural diagram of a linear cylindrical guide rail in the prior art;

FIG. 2 is a schematic structural diagram of a tapping line for the optical axis of the linear cylindrical guide rail according to the present invention;

FIG. 3 is a partially cut-away schematic view of a tapping line for the optical axis of the linear cylindrical guide rail according to the present invention;

FIG. 4 is a partially cut-away schematic view of a tapping line for the optical axis of the linear cylindrical guide rail according to the present invention;

FIG. 5 is a partially cut-away schematic view of a tapping line for the optical axis of the linear cylindrical guide in the present invention.

In the above drawings: 1. an aluminum support; 2. an optical axis; 3. a screw; 4. a threaded hole; 5. a work table; 51. a platen; 52. a support leg; 6. drilling a power head; 7. an automatic tapping machine; 8. a mounting seat; 9. a support; 10. mounting a plate; 11. a first material supporting frame; 111. a first groove; 12. a supporting seat; 13. an I-shaped frame; 14. a material supporting frame II; 141. a second groove; 15. a material pulling mechanism; 16. a material pulling table; 17. a drive assembly; 171. a rack; 172. a gear; 173. a drive motor; 18. a material clamping component; 19. a left linear guide rail; 191. a left track; 192. a left slider; 20. a lower clamping seat; 201. a third groove; 21. a left upright post; 22. a left mounting table; 23. a left cylinder; 24. a left slipway; 25. an upper chuck; 26. a material stabilizing mechanism; 27. a material stabilizing table; 28. a right linear guide rail; 281. a right track; 282. a right slider; 29. a material supporting seat; 291. a fourth groove; 30. a right upright post; 31. a right mounting table; 32. a right cylinder; 33. a right sliding table; 34. and (5) pressing the material head.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the utility model clearer and easier to understand, the utility model is further explained in the following with the accompanying drawings and the detailed description.

As shown in fig. 2, the embodiment of the present invention provides a tapping production line for an optical axis of a linear cylindrical guide rail, including a workbench 5, where the workbench 5 includes a horizontally disposed platen 51 and four support legs 52 for supporting the platen 51. A drilling power head 6 and an automatic tapping machine 7 are sequentially arranged on the workbench 5 along the advancing direction of the optical axis 2.

As shown in fig. 2, the screw 3 is connected with a mounting seat 8 on the top surface of the workbench 5, two brackets 9 are symmetrically arranged on the mounting seat 8, the tops of the two brackets 9 are fixedly connected with a mounting plate 10, and the drilling power head 6 is fixedly mounted on the side wall of the mounting plate 10. The drilling power head 6 is an existing drilling device, compressed air is adopted as a power source for feeding motion of the drilling power head 6, and the drilling power head 6 can drill the optical axis 2 passing through the lower portion of the drill bit. Screw 3 is connected with a material support frame 11 on the top surface of mount pad 8, and material support frame 11 is located drilling unit head 6 under, offers on the top surface of material support frame 11 to supply 2 embedding of optical axis and the recess 111 of 2 surface laminating of tank bottom and optical axis, and material support frame 11 is used for bearing optical axis 2.

As shown in fig. 2, the automatic tapping machine 7 is an existing tapping apparatus, and the automatic tapping machine 7 includes a base, a drill, and the like, and the automatic tapping machine 7 is capable of tapping the optical axis 2 passing below the drill thereof. The base screw 3 of the automatic tapping machine 7 is connected to the bottom surface of the platen 51, the screw 3 below the base of the automatic tapping machine 7 is connected to a support base 12 for supporting the automatic tapping machine 7, and the support base 12 is in an inverted concave shape. The screw 3 is connected with the I-shaped frame 13 on the top surface of the workbench 5, the screw 3 is connected with the material supporting frame II 14 on the top surface of the I-shaped frame 13, the material supporting frame II 14 is located right below a drill bit of the automatic tapping machine 7, a groove II 141 for embedding the optical axis 2 and attaching the groove bottom and the surface of the optical axis 2 is formed in the top surface of the material supporting frame II 14, and the material supporting frame II 14 is used for supporting the optical axis 2.

As shown in fig. 2, a material pulling mechanism 15 is arranged on the working table 5, the material pulling mechanism 15 is located on one side of the automatic tapping machine 7, which is far away from the drilling power head 6, and the material pulling mechanism 15 is used for pulling the optical axis 2 to sequentially pass through the lower portion of the drill bit of the drilling power head 6 and the lower portion of the drill bit of the automatic tapping machine 7. During operation, draw material mechanism 15 pulling optical axis 2 to pass through drilling unit head 6, automatic tapping machine 7 in proper order, at this in-process drilling unit head 6 drill out the locating hole on optical axis 2 earlier, then automatic tapping machine 7 carries out the tapping on the basis of locating hole, and the problem that work efficiency is low among the prior art has been solved to the tapping production line of this straight line cylinder guide rail optical axis.

As shown in fig. 2 and 3, the material pulling mechanism 15 includes a material pulling platform 16 slidably disposed on the top surface of the working platform 5, a driving assembly 17 for driving the material pulling platform 16 to slide back and forth on the top surface of the working platform 5, and a material clamping assembly 18. A left linear guide rail 19 is arranged between the top surfaces of the material pulling table 16 and the workbench 5, the left linear guide rail 19 is an existing guide part, and the left linear guide rail 19 is arranged between the material pulling table 16 and the workbench 5, so that the material pulling table 16 can do linear reciprocating motion on the workbench 5 smoothly. The left linear guide 19 comprises a left rail 191 and a left slider 192 in sliding fit with the left rail 191, the left rails 191 are two and symmetrically arranged on the top surface of the workbench 5, the two left rails 191 are connected to the top surface of the workbench 5 through screws 3, the left sliders 192 are two and symmetrically arranged on the bottom surface of the material pulling platform 16, and the two left sliders 192 are connected to the bottom surface of the material pulling platform 16 through screws 3.

As shown in fig. 2 and 3, the driving assembly 17 includes a rack 171, a gear 172, and a driving motor 173. Rack 171 screw 3 is attached to the top surface of table 5 with rack 171 between the two left rails 191. The screw 3 of the driving motor 173 is connected to the top surface of the material pulling platform 16, the output shaft of the driving motor 173 passes through the material pulling platform 16 and then is coaxially connected with the gear 172, and the gear 172 is meshed with the rack 171. When the material pulling platform works, the driving motor 173 drives the gear 172 to rotate, and the gear 172 is meshed with the rack 171, and the rack 171 is fixed, so that the material pulling platform 16 can do linear reciprocating motion on the working platform 5 by controlling the driving motor 173 to rotate forwards and backwards.

As shown in fig. 2 and 4, the material clamping assembly 18 is used for clamping one end of the optical axis 2 sequentially passing through the drilling power head 6 and the automatic tapping machine 7, the material clamping assembly 18 includes a lower clamping seat 20, a screw 3 of the lower clamping seat 20 is connected to the material pulling table 16, the lower clamping seat 20 is located on one side of the driving motor 173 close to the automatic tapping machine 7, a groove three 201 for embedding the optical axis 2 and attaching the bottom of the groove to the surface of the optical axis 2 is formed in the top surface of the lower clamping seat 20, and the lower clamping seat 20 is used for supporting the optical axis 2. Four left stand columns 21 are vertically arranged on the material pulling table 16, the four left stand columns 21 are arranged at four corners close to the lower clamping base 20, a left mounting table 22 is fixedly connected to the tops of the four left stand columns 21, and a left air cylinder 23 is arranged on the top surface of the left mounting table 22. The piston rod of left cylinder 23 passes left mount table 22 and is connected with left slip table 24 after, and left slip table 24 is flat, and left slip table 24 slides and sets up on four left stands 21, and left slip table 24 is located under holder 20, and left slip table 24 is towards fixed mounting on the terminal surface of holder 20 down and is gone up chuck 25, goes up chuck 25 and offers the recess that supplies optical axis 2 embedding on the terminal surface of holder 20 down, goes up chuck 25 and is used for compressing tightly optical axis 2 on holder 20 down.

As shown in fig. 2 and 5, the worktable 5 is provided with a material stabilizing mechanism 26, the material stabilizing mechanism 26 is located on one side of the drilling power head 6 far away from the automatic tapping machine 7, and the material stabilizing mechanism 26 is used for improving the stability of the optical axis 2 during movement. Steady material mechanism 26 sets up steady material platform 27 on workstation 5 including sliding, is provided with right linear guide 28 between the top surface of steady material platform 27 and workstation 5, and right linear guide 28 is a current guide part, sets up right linear guide 28 between steady material platform 27 and workstation 5 for steady material platform 27 can be comparatively smooth be linear reciprocating motion on workstation 5. The right linear guide 28 includes a right rail 281, a right slider 282 slidably fitted on the right rail 281, the right rail 281 is two and symmetrically disposed on the top surface of the workbench 5, two right rails 281 are connected to the top surface of the workbench 5 by screws 3, two right sliders 282 are symmetrically disposed on the bottom surface of the material stabilizing table 27 by screws 3, and two right sliders 282 are connected to the bottom surface of the material stabilizing table 27 by screws 3.

As shown in fig. 2 and 5, the screw 3 on the material stabilizing table 27 is connected with a material supporting seat 29, a groove four 291 for embedding the optical axis 2 and attaching the groove bottom to the surface of the optical axis 2 is formed on the top surface of the material supporting seat 29, and the material supporting seat 29 is used for supporting the optical axis 2. Four right upright posts 30 are vertically arranged on the material stabilizing platform 27, the four right upright posts 30 are arranged near four corners of the material supporting base 29, the top parts of the four right upright posts 30 are fixedly connected with a right mounting platform 31, and a right air cylinder 32 is arranged on the top surface of the right mounting platform 31. The piston rod of right cylinder 32 passes right mount table 31 and is connected with right slip table 33 after, and right slip table 33 is flat, and right slip table 33 slides and sets up on four right stands 30, and right slip table 33 is located and holds in the palm material seat 29 directly over, and right slip table 33 is towards fixed mounting on the terminal surface that holds in the palm material seat 29 and presses stub bar 34, presses stub bar 34 to offer the recess that supplies optical axis 2 embedding towards holding in the palm on the terminal surface of material seat 29, presses stub bar 34 to be used for compressing tightly optical axis 2 on holding in the palm material seat 29.

When the first groove 111 of the first material supporting frame 11, the second groove 141 of the second material supporting frame 14, the third groove 201 of the lower holder 20 and the fourth groove 291 of the material supporting seat 29 are aligned, and the optical axis 2 is supported by the first material supporting frame 11, the second material supporting frame 14, the second groove 141 of the second material supporting frame 14, the third groove 201 of the lower holder 20 and the fourth groove 291 of the material supporting seat 29 when the optical axis 2 is embedded into the first groove 111 of the first material supporting frame 11, the second groove 141 of the second material supporting frame 14, the third groove 201 of the lower holder 20 and the fourth groove 291 of the material supporting seat 29, the first material supporting frame 11, the second material supporting frame 14, the lower holder 20 and the material supporting seat 29 together support the optical axis 2, and the optical axis 2 is horizontally arranged.

The detailed working process of the embodiment is as follows:

s1: a worker inserts one end of the optical axis 2 into a space between the lower clamping seat 20 and the upper clamping head 25 after sequentially penetrating through the material stabilizing mechanism 26, the drilling power head 6 and the automatic tapping machine 7, and then the optical axis 2 is embedded into a first groove 111 of a first material supporting frame 11, a second groove 141 of a second material supporting frame 14, a third groove 201 of the lower clamping seat 20 and a fourth groove 291 of a material supporting seat 29, and the first material supporting frame 11, the second material supporting frame 14, the lower clamping seat 20 and the material supporting seat 29 jointly support the optical axis 2;

s2: the piston rod of the left cylinder 23 moves downwards to push the left sliding table 24 and the upper chuck 25 to move downwards until the upper chuck 25 presses the optical axis 2 onto the lower clamping base 20, the lower clamping base 20 and the upper chuck 25 are matched to clamp the end part of the optical axis 2, meanwhile, the piston rod of the right cylinder 32 moves downwards to push the right sliding table 33 and the pressing head 34 to move downwards until the pressing head 34 presses the optical axis 2 onto the material supporting base 29, the material supporting base 29 and the pressing head 34 are matched to clamp the optical axis 2, and the optical axis 2 is limited to rotate at the moment;

s3: a drill bit of the drilling power head 6 descends, and a first positioning hole is drilled on the outer side wall of the optical axis 2;

s4: then the driving motor 173 drives the gear 172 to rotate, the gear 172 is meshed with the rack 171, and the rack 171 is fixed, so that the material pulling table 16 and the material clamping assembly 18 move towards the direction away from the automatic tapping machine 7, the material stabilizing mechanism 26 moves towards the direction close to the automatic tapping machine 7 along with the gear until the first positioning hole moves to the position below the drill bit of the automatic tapping machine 7, the drill bit of the automatic tapping machine 7 moves downwards and taps the positioning hole into a threaded hole 4, meanwhile, the drill bit of the drilling power head 6 moves downwards and drills a positioning hole again on the outer side wall of the optical axis 2, and the operation is repeated, so that a plurality of threaded holes 4 can be drilled on the outer side wall of the optical axis 2.

This tapping production line of straight line cylinder guide rail optical axis sets gradually drilling unit head 6, automatic tapping machine 7 through the advancing direction along optical axis 2 on workstation 5 to set up on workstation 5 and be used for pulling optical axis 2 and pass drilling unit head 6, automatic tapping machine 7's drawing material mechanism 15 in proper order, solved the problem that machining efficiency is low among the prior art.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (9)

1. The utility model provides a tapping production line of straight line cylinder guide rail optical axis which characterized in that: including workstation (5), the advancing direction along optical axis (2) has set gradually drilling unit head (6), automatic tapping machine (7) on workstation (5), one side that lies in automatic tapping machine (7) and keep away from drilling unit head (6) on workstation (5) is provided with draws material mechanism (15), draw material mechanism (15) and be used for pulling optical axis (2) in proper order through the drill bit below of drilling unit head (6), the drill bit below of automatic tapping machine (7).

2. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 1, wherein: draw material mechanism (15) including slide set up draw material platform (16), be used for the drive to draw material platform (16) reciprocating sliding's on workstation (5) top surface drive assembly (17), press from both sides material subassembly (18) on workstation (5) top surface, press from both sides material subassembly (18) and be used for cliping optical axis (2) and pass the one end of drilling unit head (6), automatic tapping machine (7) in proper order.

3. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 2, wherein: press from both sides material subassembly (18) including setting up in pulling on material platform (16) and be used for lower holder (20) of bearing optical axis (2), pull and vertically be provided with a plurality of left stands (21), a plurality of on material platform (16) the top of left side stand (21) is provided with left mount table (22), be provided with left cylinder (23) on the top surface of left side mount table (22), the piston rod of left cylinder (23) is connected with after passing left mount table (22) and slides and set up left slip table (24) on a plurality of left stands (21), left side slip table (24) are located under holder (20) directly over, be provided with on the terminal surface of left side slip table (24) clamp holder (20) under towards and be used for compressing tightly last chuck (25) on holder (20) under optical axis (2).

4. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 2, wherein: drive assembly (17) are including setting up rack (171) on workstation (5) top surface, be provided with driving motor (173) on the top surface of drawing material platform (16), the output shaft of driving motor (173) passes behind drawing material platform (16) coaxial coupling have with rack (171) meshed gear (172).

5. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 2, wherein: draw and set up left linear guide (19) between material platform (16) and workstation (5), left side linear guide (19) include a plurality of left track (191) that set up on workstation (5) top surface, a plurality of set up draw material platform (16) bottom surface on and with left track (191) sliding fit's left slider (192).

6. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 1, wherein: one side of the workbench (5) which is positioned at the drilling power head (6) and is far away from the automatic tapping machine (7) is provided with a material stabilizing mechanism (26) used for improving the stability of the optical axis (2) during moving, the material stabilizing mechanism (26) comprises a material stabilizing platform (27) arranged on the workbench (5) in a sliding manner, and a material supporting seat (29) arranged on the material stabilizing platform (27) and used for supporting the optical axis (2), a plurality of right stand columns (30) are vertically arranged on the material stabilizing platform (27), a right mounting platform (31) is arranged at the top of the right stand columns (30), a right air cylinder (32) is arranged on the top surface of the right mounting platform (31), a piston rod of the right air cylinder (32) is connected with a right sliding table (33) arranged on the right stand columns (30) in a sliding manner after passing through the right mounting platform (31), and the right sliding table (33) is positioned right above the material supporting seat (29), and a material pressing head (34) used for pressing the optical axis (2) on the material supporting seat (29) is arranged on the end surface of the right sliding table (33) facing the material supporting seat (29).

7. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 6, wherein: be provided with right linear guide (28) between material stabilizing platform (27) and workstation (5), right linear guide (28) include a plurality of set up right track (281), a plurality of set up on material stabilizing platform (27) bottom surface and with right track (281) sliding fit's right slider (282) on workstation (5) top surface.

8. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 1, wherein: be located automatic tapping machine (7) and surely expect to be provided with mount pad (8) between mechanism (26) on the top surface of workstation (5), be provided with a plurality of supports (9) on mount pad (8), it is a plurality of the top of support (9) is provided with mounting panel (10) that are used for installing drilling unit head (6), be provided with on the top surface of mount pad (8) and be used for the support optical axis (2) hold in the palm work or material rest (11), hold in the palm work or material rest (11) and be located drilling unit head (6) under.

9. The tapping production line of the linear cylindrical guide rail optical axis as set forth in claim 1, wherein: an I-shaped frame (13) is arranged on the top surface of the workbench (5), the I-shaped frame (13) is located under a drill bit of the automatic tapping machine (7), and a material supporting frame II (14) used for supporting the optical axis (2) is arranged on the I-shaped frame (13).

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