CN211760101U - Three-axis fine adjustment platform for machining of multiple main shafts - Google Patents

Three-axis fine adjustment platform for machining of multiple main shafts Download PDF

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Publication number
CN211760101U
CN211760101U CN201921720210.2U CN201921720210U CN211760101U CN 211760101 U CN211760101 U CN 211760101U CN 201921720210 U CN201921720210 U CN 201921720210U CN 211760101 U CN211760101 U CN 211760101U
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CN
China
Prior art keywords
fine adjustment
axis fine
axis
adjustment plate
plate
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Active
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CN201921720210.2U
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Chinese (zh)
Inventor
沈通
曾奎
冉欣
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Dongguan Oubidi Precision Hardware Co ltd
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Dongguan Oubidi Precision Hardware Co ltd
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Abstract

The utility model discloses a triaxial fine setting platform of many main shafts machine tooling usefulness, include: a base plate; the Z-axis fine adjustment plate is arranged on the bottom plate, is provided with a first inclined plane sliding table and is provided with a Z-axis fine adjustment knob; the lower surface of the Y-axis fine adjustment plate is provided with a second inclined plane sliding table which is provided with a Y-axis fine adjustment knob; the X-axis fine adjustment plate is arranged on the Y-axis fine adjustment plate and is provided with an X-axis fine adjustment knob; and the workbench is arranged on the X-axis fine adjustment plate. Because the three-axis fine adjustment platform for multi-spindle machining is formed through a layered structure, the fixture can be quickly adjusted through the X-axis fine adjustment knob, the Y-axis fine adjustment knob and the Z-axis fine adjustment knob, the machine adjusting time is shortened, the efficiency of the elevator is improved, and the technical problems that when the existing fixture needs to rotate by 90 degrees in machining, the machine adjusting difficulty is very high, even the adjustment cannot be performed, and the machining requirement cannot be met are solved.

Description

Three-axis fine adjustment platform for machining of multiple main shafts
Technical Field
The utility model relates to a fine setting platform field, in particular to triaxial fine setting platform of many main shafts machine tooling usefulness.
Background
At present, the existing CNC machining equipment is complicated, the cost price is high year by year and is not in proportion to the reduction of profit of a finished product market, the equipment cost of a machined product is required to be reduced, and therefore the machining of the product by using a multi-shaft machine becomes a preferable scheme. The existing multi-axis machining mode is mainly used for plane machining, when the machining requirement needs to be rotated by 90 degrees, the high precision requirement on the clamp is very high, the machine adjusting difficulty is very high, even the adjustment cannot be carried out, and the machining requirement cannot be met.
SUMMERY OF THE UTILITY MODEL
When needing rotatory 90 degrees in order to solve current anchor clamps in the machining, the accent quick-witted degree of difficulty is very big, and the technical problem of the needs of machining can not be satisfied in the unable adjustment even, the utility model aims at providing a triaxial fine setting platform of many main shafts machining usefulness is in order to solve above-mentioned technical problem.
According to the utility model discloses an aspect provides a triaxial fine setting platform that many main shafts machining used, include: fix the fine setting platform on the roll-over table, this fine setting platform includes: a base plate; the Z-axis fine adjustment plate is arranged on the upper surface of the bottom plate in a sliding mode, a first inclined plane sliding table is arranged on the upper surface of the Z-axis fine adjustment plate, and a Z-axis fine adjustment knob used for adjusting the Z-axis fine adjustment plate to slide on the bottom plate along the Y-axis direction is arranged on the bottom plate; the lower surface of the Y-axis fine adjustment plate is provided with a second inclined plane sliding table which is in sliding contact with the first inclined plane sliding table, a guide pillar is fixedly arranged on the bottom plate and movably sleeved with the Y-axis fine adjustment plate, and one side of the Y-axis fine adjustment plate is provided with a Y-axis fine adjustment knob for adjusting the sliding of the X-axis fine adjustment plate along the Y-axis direction; the X-axis fine adjustment plate is arranged on the upper surface of the Y-axis fine adjustment plate in a sliding manner, and one side of the X-axis fine adjustment plate is provided with an X-axis fine adjustment knob used for adjusting the workbench to slide along the X-axis direction; the workbench is arranged on the upper surface of the X-axis fine adjustment plate in a sliding manner; when the Z-axis fine adjustment knob is rotated to enable the Z-axis fine adjustment plate to move along the Y-axis direction, the first inclined plane sliding table drives the Y-axis fine adjustment plate to move up or down along the guide post, so that the workbench can move up or down, when the Y-axis fine adjustment knob is rotated to drive the X-axis fine adjustment plate to slide along the Y-axis direction, the workbench can move along the Y-axis direction, and when the X-axis fine adjustment knob is rotated to drive the workbench to slide along the X-axis direction, the workbench can move along the X-axis direction.
The fine adjustment principle of the fine adjustment platform is characterized in that a clamp is arranged on a workbench during use, the clamp is provided with an X-axis datum plane, a Y-axis datum plane and a Z-axis datum plane, when the clamp is fixed on the workbench, the Y-axis datum plane for correcting the clamp on each fine adjustment platform is in the same direction, then the X-axis fine adjustment knob is rotated to enable the workbench to drive the clamp to move along the X-axis direction, the Y-axis datum plane of the clamp on each fine adjustment platform is adjusted to be in the same straight line, then the Y-axis fine adjustment knob is rotated to enable the workbench to drive the clamp to move along the Y-axis direction, the distance between the X-axis datum planes of the clamp on each fine adjustment platform is adjusted to be consistent with the distance between main shafts for processing workpieces, then the Z-axis fine adjustment knob is rotated to enable the workbench to drive the clamp to move along the Z-axis direction, the Z-axis datum planes of the clamp on each fine adjustment platform are adjusted to be in the same height, and therefore the Y-axis datum planes of the clamps fixed on The utility model discloses a machining device, including roll-over table, X axle datum plane, Z axle datum plane, distance between the X axle datum plane and the main shaft of processing work piece are unanimous, Z axle datum plane is same height, after roll-over table is rotatory 90, through the X axle, the Y axle, the quick adjustment of anchor clamps can be realized equally to Z axle fine setting knob, the accent machine time can be shortened like this, realize the synchronous processing of a plurality of processing main shafts, the lifting machine adds efficiency, when having solved current anchor clamps and need rotatory 90 degrees in the machining, the accent machine degree of difficulty is very big, can't adjust even, can not satisfy the technical problem of the needs of machining.
In order to better solve the technical defects, the utility model discloses still have better technical scheme:
in some embodiments, two first guide rails are arranged on the bottom plate along the Y-axis direction, and two groups of first sliding blocks matched with the first guide rails are fixedly arranged below the Z-axis fine adjustment plate; the Z-axis fine adjustment knob is fixedly sleeved on a first fixed block fixedly connected with the bottom plate, a threaded rod at the other end of the Z-axis fine adjustment knob is in threaded connection with a threaded hole in the Z-axis fine adjustment plate, when the Z-axis fine adjustment knob is rotated, the threaded rod at the other end of the Z-axis fine adjustment knob is linked with the Z-axis fine adjustment plate to slide on the first guide rail in a reciprocating mode along the Y-axis direction, and meanwhile, the first inclined plane sliding table drives the Y-axis fine adjustment plate to move up or down along the guide pillar.
In some embodiments, two second guide rails are arranged on the Y-axis fine adjustment plate along the Y-axis direction, two sets of second sliding blocks matched with the second guide rails are fixedly arranged below the X-axis fine adjustment plate, a first through groove is arranged on the Y-axis fine adjustment plate, a second fixed block fixedly connected with the lower surface of the X-axis fine adjustment plate is arranged in the first through groove, the Y-axis fine adjustment knob is fixedly sleeved in a through hole on one side of the Y-axis fine adjustment plate, a threaded rod at the other end of the Y-axis fine adjustment knob is in threaded connection with a threaded hole in the second fixed block, and when the Y-axis fine adjustment knob is rotated, the threaded rod at the other end of the Y-axis fine adjustment knob is linked with the X-axis fine adjustment plate to slide on the second.
In some embodiments, two third guide rails are arranged on the X-axis fine adjustment plate along the X-axis direction, two sets of third sliding blocks matched with the third guide rails are fixedly arranged below the workbench, a second through groove is arranged on the X-axis fine adjustment plate, a third fixed block fixedly connected with the lower surface of the workbench is arranged in the second through groove, the X-axis fine adjustment knob is fixedly sleeved in a through hole on one side of the X-axis fine adjustment plate, a threaded rod at the other end of the X-axis fine adjustment knob is in threaded connection with a threaded hole in the third fixed block, and when the X-axis fine adjustment knob is rotated, the threaded rod at the other end of the X-axis fine adjustment knob is linked with the workbench to slide on the third guide rails in a reciprocating manner.
In some embodiments, a first baffle is fixedly connected to the Y-axis fine adjustment plate through a bolt, the first baffle is provided with a first limit hole, a second limit hole and a third limit hole, a first limit screw passes through the first limit hole and is fixedly connected to the bottom plate, the first limit screw is used for limiting the distance of the Y-axis fine adjustment plate moving up and down along the Z-axis direction, a second limit screw passes through the second limit hole and is fixedly connected to the Z-axis fine adjustment plate, the second limit screw is used for limiting the distance of the Z-axis fine adjustment plate moving along the Y-axis direction, the third limit screw passes through the third limit hole and is fixedly connected to the X-axis fine adjustment plate, and the third limit screw is used for limiting the distance of the X-axis fine adjustment plate moving along the Y-axis direction.
In some embodiments, a second baffle is fixedly connected to the worktable through a bolt, a fourth limit hole is formed in the second baffle, a fourth limit screw passes through the fourth limit hole to be fixedly connected with the X-axis fine adjustment plate, and the fourth limit screw is used for limiting the moving distance of the worktable along the X-axis direction.
In some embodiments, two or more sets of fine tuning stages are spaced apart. Therefore, a plurality of groups of fine adjustment platforms are arranged on the overturning platform, synchronous processing of a plurality of works can be achieved, and processing efficiency can be improved.
In some embodiments, the top surface of the table is provided with a clamp.
Drawings
Fig. 1 is a schematic view of an overall structure of a three-axis fine adjustment platform according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of a three-axis fine tuning stage;
FIG. 3 is a schematic diagram of a structure of a three-axis fine adjustment platform with a bottom plate matching with a Z-axis fine adjustment plate;
FIG. 4 is a schematic diagram of the upper surface structure of a Y-axis trimming plate of a three-axis trimming platform;
FIG. 5 is a schematic view of a lower surface structure of a Y-axis trimming plate of the three-axis trimming platform;
FIG. 6 is a schematic diagram of an X-axis trimming plate of the three-axis trimming platform.
Detailed Description
In order to make the purpose, technical solution and advantages of the present invention clearer and clearer, the present invention will be further described in detail with reference to the accompanying drawings.
As shown in fig. 1 to 6, the utility model provides a pair of triaxial fine setting platform of many main shafts machining usefulness, include: two groups of fine adjustment platforms 10 fixed on the overturning platform 8, wherein the fine adjustment platforms 10 comprise a bottom plate 1, a Z-axis fine adjustment plate 2, a Y-axis fine adjustment plate 3, an X-axis fine adjustment plate 4 and a workbench 5.
The bottom plate 1 is fixedly arranged on the overturning platform 8, the overturning frames 81 are arranged on two sides of the overturning platform 8, and the overturning platform can be overturned for a certain angle to be machined according to machining requirements during machining; two first guide rails 11 are arranged on the upper surface of the bottom plate 1 along the Y-axis direction; one side of the bottom plate 1 is fixedly connected with a first fixing block 24, and the bottom plate 1 is also fixedly provided with a guide post 12.
The Z-axis fine adjustment plate 2 is arranged on the upper surface of the bottom plate 1 in a sliding mode, two groups of first sliding blocks 23 matched with the first guide rail 11 are fixedly arranged below the Z-axis fine adjustment plate 2, a first inclined sliding table 22 with the height from left to right is arranged on the upper surface of the Z-axis fine adjustment plate 2, a Z-axis fine adjustment knob 21 is fixedly sleeved in a through hole in the first fixing block 24, the Z-axis fine adjustment knob 21 is used for adjusting the Z-axis fine adjustment plate 2 to slide on the bottom plate 1 along the Y-axis direction, a threaded rod at the other end of the Z-axis fine adjustment knob 21 is in threaded connection with a threaded hole in the Z-axis fine adjustment plate 2, when the Z-axis fine adjustment knob 21 is rotated, the threaded rod at the other end of the Z-axis fine adjustment knob 21 is linked with the Z-axis fine adjustment plate 2 to slide on the first guide rail 11 in a reciprocating mode along the Y-.
A Y-axis fine adjustment plate 3, a second inclined plane sliding table 32 is arranged on the lower surface of the Y-axis fine adjustment plate 3, the second inclined plane sliding table 32 is matched with and in sliding contact with the first inclined plane sliding table 22, two second guide rails 33 are arranged on the Y-axis fine adjustment plate 3 along the Y-axis direction, a guide sleeve 35 is fixedly arranged on the Y-axis fine adjustment plate 3, a guide pillar 12 is movably sleeved with the Y-axis fine adjustment plate 3 through the guide sleeve 35, a Y-axis fine adjustment knob 31 used for adjusting the sliding of the X-axis fine adjustment plate 4 along the Y-axis direction is arranged on one side of the Y-axis fine adjustment plate 3, a first through groove is arranged on the Y-axis fine adjustment plate 3, a second fixed block 34 fixedly connected with the lower surface of the X-axis fine adjustment plate 4 is arranged in the first through groove, the Y-axis fine adjustment knob 31 is fixedly sleeved in the through hole on one side of the Y-axis fine adjustment plate 3, a threaded rod at the other end of the Y-axis fine adjustment knob 31 is in threaded connection with a threaded hole on the And (4) sliding.
An X-axis fine adjustment plate 4, two third guide rails 43 are arranged on the X-axis fine adjustment plate 4 along the X-axis direction, the X-axis fine adjustment plate 4 is arranged on the upper surface of the Y-axis fine adjustment plate 3 in a sliding way, two groups of second sliding blocks 42 matched with the second guide rails 33 are fixedly arranged below the X-axis fine adjustment plate 4, one side of the X-axis fine adjustment plate 4 is provided with an X-axis fine adjustment knob 41 used for adjusting the workbench 5 to slide along the X-axis direction, a second through groove is arranged on the X-axis fine adjustment plate 4, a third fixed block 44 fixedly connected with the lower surface of the workbench 5 is arranged in the second through groove, the X-axis fine adjustment knob 41 is fixedly sleeved in a through hole at one side of the X-axis fine adjustment plate 4, a threaded rod at the other end of the X-axis fine adjustment knob 41 is in threaded connection with a threaded hole on the third fixed block 44, when the X-axis fine adjustment knob 41 is rotated, the threaded rod at the other end of the X-axis fine adjustment knob 41 moves in conjunction with the table 5 to slide on the third guide rail 43 in the X-axis direction.
Two groups of third sliding blocks 51 matched with the third guide rails 43 are fixedly arranged below the workbench 5, and the workbench 5 is arranged on the upper surface of the X-axis fine adjustment plate in a sliding manner.
Two groups of first baffle plates 6 are fixedly connected to the Y-axis fine adjustment plate 3 through bolts, first limiting holes 61, second limiting holes 62 and third limiting holes 63 are formed in the first baffle plates 6, first limiting screws penetrate through the first limiting holes 61 and are fixedly connected with the bottom plate 1, the first limiting screws are used for limiting the distance between the Y-axis fine adjustment plate 3 and moving up and down along the Z-axis direction, second limiting screws penetrate through the second limiting holes 62 and are fixedly connected with the Z-axis fine adjustment plate 2, the second limiting screws are used for limiting the distance between the Z-axis fine adjustment plate 2 and moving along the Y-axis direction, the third limiting screws penetrate through the third limiting holes 63 and are fixedly connected with the X-axis fine adjustment plate 4, and the third limiting screws are used for limiting the distance between the X-axis fine adjustment plate 4 and moving along the Y-axis.
The workbench 5 is fixedly connected with a second baffle 7 through a bolt, a fourth limiting hole 71 is formed in the second baffle 7, a fourth limiting screw penetrates through the fourth limiting hole 71 to be fixedly connected with the X-axis fine adjustment plate 4, and the fourth limiting screw is used for limiting the moving distance of the workbench 5 along the X-axis direction.
When the Z-axis fine adjustment knob 21 is rotated to move the Z-axis fine adjustment plate 2 along the Y-axis direction, the first inclined sliding table 22 drives the Y-axis fine adjustment plate 3 to move up or down along the guide post 12, so that the workbench 5 can move up or down, when the Y-axis fine adjustment knob 31 is rotated to drive the X-axis fine adjustment plate 4 to slide along the Y-axis direction, the workbench 5 can move along the Y-axis direction, and when the X-axis fine adjustment knob 41 is rotated to drive the workbench 5 to slide along the X-axis direction, the workbench 5 can move along the X-axis direction.
The top surface of the workbench 5 is provided with a clamp 9, and the clamp 9 is provided with an X-axis reference surface, a Y-axis reference surface and a Z-axis reference surface.
When the clamps 9 are fixed on the workbench 5, the Y-axis datum planes of the clamps 9 on each fine adjustment platform are corrected to be in the same direction, then the X-axis fine adjustment knob 41 is rotated to enable the workbench 5 to drive the clamps to move along the X-axis direction until the Y-axis datum planes of the clamps 9 on each fine adjustment platform are in the same straight line, then the Y-axis fine adjustment knob 31 is rotated to enable the workbench 5 to drive the clamps 9 to move along the Y-axis direction until the distance between the X-axis datum planes of the clamps 9 on each fine adjustment platform is consistent with the distance between the main shafts of the machined workpiece, then the Z-axis fine adjustment knob 21 is rotated to enable the workbench 5 to drive the clamps 9 to move along the Z-axis direction until the Z-axis datum planes of the clamps 9 on each fine adjustment platform are at the same height, so that the Y-axis datum planes of the clamps 9 fixed on a plurality of fine adjustment platforms on the turnover table 8 are in the same straight line, the distance between the X-axis datum planes is consistent with the distance between, The Z-axis datum plane is at the same height, after the overturning platform 8 rotates by 90 degrees, the fixture 9 after reversal can be quickly adjusted through the X-axis fine adjustment knob 41, the Y-axis fine adjustment knob 31 and the Z-axis fine adjustment knob 21, the machine adjusting time can be shortened, synchronous processing of a plurality of processing spindles is realized, and the elevator adding efficiency is improved.
In some embodiments, the Z-axis fine adjustment knob 21, the Y-axis fine adjustment knob 31, and the X-axis fine adjustment knob 41 can be threaded screws with micrometer scales.
In some embodiments, three fine adjustment stages 10, or more fine adjustment stages 10, are secured to the flipping table 8.
The above description is only some embodiments of the present invention, and for those skilled in the art, a plurality of modifications and improvements can be made without departing from the inventive concept, and these modifications and improvements all belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides a triaxial fine setting platform of many main shafts machining usefulness which characterized in that includes: fix fine setting platform (10) on roll-over table (8), fine setting platform (10) include:
a base plate (1);
the Z-axis fine adjustment plate (2) is arranged on the upper surface of the bottom plate (1) in a sliding mode, a first inclined sliding table (22) is arranged on the upper surface of the Z-axis fine adjustment plate (2), and a Z-axis fine adjustment knob (21) used for adjusting the Z-axis fine adjustment plate (2) to slide on the bottom plate (1) along the Y-axis direction is arranged on the bottom plate (1);
the lower surface of the Y-axis fine adjustment plate (3) is provided with a second inclined plane sliding table (32), the second inclined plane sliding table (32) is in sliding contact with the first inclined plane sliding table (22), the bottom plate (1) is fixedly provided with a guide pillar (12), the guide pillar (12) is movably sleeved with the Y-axis fine adjustment plate (3), and one side of the Y-axis fine adjustment plate (3) is provided with a Y-axis fine adjustment knob (31) for adjusting the sliding of the X-axis fine adjustment plate (4) along the Y-axis direction;
the X-axis fine adjustment plate (4) is arranged on the upper surface of the Y-axis fine adjustment plate (3) in a sliding mode, and an X-axis fine adjustment knob (41) used for adjusting the workbench (5) to slide along the X-axis direction is arranged on one side of the X-axis fine adjustment plate (4);
the workbench (5) is arranged on the upper surface of the X-axis fine adjustment plate (4) in a sliding manner;
when the Z-axis fine adjustment knob (21) is rotated to enable the Z-axis fine adjustment plate (2) to move along the Y-axis direction, the first inclined sliding table (22) drives the Y-axis fine adjustment plate (3) to move up or down along the guide pillar (12), so that the workbench (5) can move up or down, when the Y-axis fine adjustment knob (31) is rotated to drive the X-axis fine adjustment plate (4) to slide along the Y-axis direction, the workbench (5) can move along the Y-axis direction, and when the X-axis fine adjustment knob (41) is rotated to drive the workbench (5) to slide along the X-axis direction, the workbench (5) can move along the X-axis direction.
2. The three-axis fine adjustment platform for machining of the multiple main axes is characterized in that two first guide rails (11) are arranged on the bottom plate (1) along the Y-axis direction, and two groups of first sliding blocks (23) matched with the first guide rails (11) are fixedly arranged below the Z-axis fine adjustment plate (2); the Z-axis fine adjustment knob (21) is fixedly sleeved on a first fixing block (24) fixedly connected with the bottom plate (1), a threaded rod at the other end of the Z-axis fine adjustment knob (21) is in threaded connection with a threaded hole in the Z-axis fine adjustment plate (2), when the Z-axis fine adjustment knob (21) is rotated, the threaded rod at the other end of the Z-axis fine adjustment knob (21) is linked with the Z-axis fine adjustment plate (2) to slide on the first guide rail (11) in a reciprocating mode along the Y-axis direction, and meanwhile, the first inclined plane sliding table (22) drives the Y-axis fine adjustment plate (3) to move up or down along the guide pillar (12).
3. The three-axis fine adjustment platform for multi-spindle machining according to claim 1, two second guide rails (33) are arranged on the Y-axis fine adjustment plate (3) along the Y-axis direction, two groups of second sliding blocks (42) matched with the second guide rails (33) are fixedly arranged below the X-axis fine adjustment plate (4), a first through groove is arranged on the Y-axis fine adjustment plate (3), a second fixed block (34) fixedly connected with the lower surface of the X-axis fine adjustment plate (4) is arranged in the first through groove, the Y-axis fine adjustment knob (31) is fixedly sleeved in the through hole at one side of the Y-axis fine adjustment plate (3), a threaded rod at the other end of the Y-axis fine adjustment knob (31) is in threaded connection with a threaded hole on the second fixed block (34), when the Y-axis fine adjustment knob (31) is rotated, the threaded rod at the other end of the Y-axis fine adjustment knob (31) is linked with the X-axis fine adjustment plate (4) to slide on the second guide rail (33) in a reciprocating manner along the Y-axis direction.
4. The three-axis fine adjustment platform for multi-spindle machining according to claim 1, two third guide rails (43) are arranged on the X-axis fine adjustment plate (4) along the X-axis direction, two groups of third sliding blocks (51) matched with the third guide rails (43) are fixedly arranged below the workbench (5), a second through groove is arranged on the X-axis fine adjustment plate (4), a third fixed block (44) fixedly connected with the lower surface of the workbench (5) is arranged in the second through groove, the X-axis fine adjustment knob (41) is fixedly sleeved in the through hole at one side of the X-axis fine adjustment plate (4), a threaded rod at the other end of the X-axis fine adjustment knob (41) is in threaded connection with a threaded hole on the third fixed block (44), when the X-axis fine adjustment knob (41) is rotated, the threaded rod at the other end of the X-axis fine adjustment knob (41) is linked with the workbench (5) to slide on the third guide rail (43) in a reciprocating manner along the X-axis direction.
5. The three-axis fine adjustment platform for multi-spindle machining according to claim 1, the Y-axis fine adjustment plate (3) is fixedly connected with a first baffle (6) through a bolt, the first baffle (6) is provided with a first limit hole (61), a second limit hole (62) and a third limit hole (63), a first limit screw passes through the first limit hole (61) and is fixedly connected with the bottom plate (1), the first limit screw is used for limiting the distance of the Y-axis fine adjustment plate (3) moving upwards and downwards along the Z-axis direction, the second limit screw penetrates through a second limit hole (62) to be fixedly connected with the Z-axis fine adjustment plate (2), the second limit screw is used for limiting the distance of the Z-axis fine adjustment plate (2) moving along the Y-axis direction, the third limit screw penetrates through a third limit hole (63) to be fixedly connected with the X-axis fine adjustment plate (4), and the third limit screw is used for limiting the distance of the X-axis fine adjustment plate (4) moving along the Y-axis.
6. The three-axis fine adjustment platform for machining of the multiple main shafts is characterized in that a second baffle (7) is fixedly connected to the workbench (5) through bolts, a fourth limiting hole (71) is formed in the second baffle (7), a fourth limiting screw penetrates through the fourth limiting hole (71) to be fixedly connected with the X-axis fine adjustment plate (4), and the fourth limiting screw is used for limiting the moving distance of the workbench (5) along the X-axis direction.
7. The three-axis fine adjustment platform for multi-spindle machining according to claim 1, wherein the fine adjustment platforms (10) are arranged in two or more groups at intervals.
8. The three-axis fine adjustment platform for multi-spindle machining according to claim 1, characterized in that the top surface of the working table (5) is provided with a clamp (9).
CN201921720210.2U 2019-10-14 2019-10-14 Three-axis fine adjustment platform for machining of multiple main shafts Active CN211760101U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921720210.2U CN211760101U (en) 2019-10-14 2019-10-14 Three-axis fine adjustment platform for machining of multiple main shafts

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921720210.2U CN211760101U (en) 2019-10-14 2019-10-14 Three-axis fine adjustment platform for machining of multiple main shafts

Publications (1)

Publication Number Publication Date
CN211760101U true CN211760101U (en) 2020-10-27

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Application Number Title Priority Date Filing Date
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113997196A (en) * 2021-10-21 2022-02-01 朝华力拓精密智能(深圳)有限公司 Connecting rod type fine adjustment mechanism
CN113997196B (en) * 2021-10-21 2022-11-01 朝华力拓精密智能(深圳)有限公司 Connecting rod type fine adjustment mechanism

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113997196A (en) * 2021-10-21 2022-02-01 朝华力拓精密智能(深圳)有限公司 Connecting rod type fine adjustment mechanism
CN113997196B (en) * 2021-10-21 2022-11-01 朝华力拓精密智能(深圳)有限公司 Connecting rod type fine adjustment mechanism

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