CN210633273U - Fine adjustment platform jig - Google Patents

Abstract

The utility model discloses a fine tuning platform tool, including the microscope carrier bottom plate, be equipped with first axial adjusting device on the microscope carrier bottom plate, be equipped with the adjustment bottom plate on the first axial adjusting device, be equipped with second axial adjusting device on the adjustment bottom plate, be equipped with the microscope carrier board on the second axial adjusting device, the microscope carrier board can be dismantled with second axial adjusting device and be connected; the carrier plate and the adjusting bottom plate are finely adjusted in the second axial direction and the first axial direction respectively by the second axial adjuster and the first axial adjuster, and the carrier plate and the adjusting bottom plate are produced and processed by different carrier plates through simple disassembly and replacement, so that the production range can be expanded for different product objects.

Description

Fine adjustment platform jig

Technical Field

The utility model relates to a CNC numerical control equipment technical field, more specifically say, it relates to fine setting platform tool.

Background

The numerically controlled machine tool is one computer controlled machine tool, and the motion and auxiliary action of the numerically controlled machine tool are controlled by the command of the numerically controlled system.

The same is true for any industry, and material factors directly affect processing costs. Some materials are difficult to process, some materials have higher raw material cost, some materials have slower processing speed, and some materials are easy to wear and consume. Despite the continuous progress of modern industrial processing technology, the problem of material cost is still a great factor influencing the cost of the numerical control processing center.

CNC processing cost's high loss and the profit of finished product market are cheap, make the production cycle of processing product must compress, because current stage board and tool are the structure of one-to-one mostly, a tool can only produce the product of simplex structure or single classification, efficiency is lower, workable object is too few, and the number of times of tool size precision adjustment in the use is more frequent, the work load degree of difficulty is also big, this size management and control that can lead to fine setting in the board becomes difficult, the production cycle of final product of dragging long, the defective index can increase, these have all increased the manufacturing cost of product, be unfavorable for long-term production planning.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a fine setting platform tool solves foretell one or more problem.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the fine adjustment platform jig comprises a carrier base plate, wherein a first axial adjusting device is arranged on the carrier base plate, an adjusting base plate is arranged on the first axial adjusting device, a second axial adjusting device is arranged on the adjusting base plate, a carrier plate is arranged on the second axial adjusting device, and the carrier plate is detachably connected with the second axial adjusting device.

Further, the positions of the first axial adjusting device and the second axial adjusting device can be interchanged.

Furthermore, a first adjusting groove is formed in the carrying platform bottom plate, the first axial adjusting device comprises a first axial slide rail rod, a first axial sliding block, a first axial adjuster, a first axial connecting block and a first axial auxiliary adjusting device, and the first axial adjuster drives the first axial sliding block to move along the first axial slide rail rod.

Further, the first axial slide rail rod, the first axial connecting block and the first axial auxiliary adjusting device are all arranged in the first adjusting groove, the first axial slide rail rod is horizontally arranged along a first axial direction, the first axial slider is connected with the first axial slide rail rod in a sliding mode, the first axial adjuster penetrates through the carrier baseplate along the first axial direction, the first axial adjuster is connected with the first axial connecting block in a matching mode, and the first axial slider, the first axial connecting block and the first axial auxiliary adjusting device are all connected with the adjusting baseplate.

Furthermore, the first axial auxiliary adjusting device comprises a first axial elastic piece and a first axial elastic piece connecting block, the first axial elastic piece connecting block is connected with the inner side wall of the first adjusting groove through the first axial elastic piece, the first axial elastic piece is horizontally arranged along the first axial direction, and the first axial elastic piece connecting block is further connected with the adjusting bottom plate.

Furthermore, a second adjusting groove is formed in the adjusting bottom plate, the second axial adjusting device comprises a second axial slide rail rod, a second axial slide block, a second axial adjuster, a second axial connecting block and a second axial auxiliary adjusting device, and the second axial adjuster drives the second axial slide block to move along the second axial slide rail rod.

Further, the second axial slide rail rod, the second axial connecting block and the second axial auxiliary adjusting device are all arranged in the second adjusting groove, the second axial slide rail rod is horizontally arranged along the second axial direction, the second axial slide block is in sliding connection with the second axial slide rail rod, the second axial adjuster penetrates through the adjusting bottom plate along the second axial direction, the second axial adjuster is in matched connection with the second axial connecting block, and the second axial slide block, the second axial connecting block and the second axial auxiliary adjusting device are all connected with the carrying plate.

Furthermore, the second axial auxiliary adjusting device comprises a second axial elastic piece and a second axial elastic piece connecting block, the second axial elastic piece connecting block is connected with the inner side wall of the second adjusting groove through the second axial elastic piece, the second axial elastic piece is horizontally arranged along the second axial direction, and the second axial elastic piece connecting block is further connected with the carrying plate.

Furthermore, a first reinforcing fixing plate is arranged at one end of the carrying bedplate in the first axial direction, and the carrying bedplate is connected with the adjusting bottom plate through the first reinforcing fixing plate.

Furthermore, a second reinforcing fixing plate is arranged at one end of the adjusting bottom plate in the second axial direction, and the adjusting bottom plate is connected with the carrier bottom plate through the second reinforcing fixing plate.

To sum up, the utility model discloses following beneficial effect has:

1. compared with the existing fixed single-hole frame machining mode, the carrying platform plate at the top of the jig can be detached, different products can be machined by replacing different carrying platform plates, the production range is expanded, the production efficiency is improved, and long-term production planning is facilitated;

2. a special precision regulator is adopted in the direction X, Y for regulation, so that the size control of fine regulation in a processing machine table is facilitated, and the on-site machine regulation is more convenient and faster;

3. the jig is suitable for CNC machine tool machining, the machining size is more stable, and the product yield is higher;

4. be equipped with supplementary adjusting device, because the weight of board can lead to the power that needs when using the adjuster great, with the help of the elastic component among the supplementary adjusting device, can adjust the operation easily conveniently more, it is more laborsaving.

Drawings

Fig. 1 is a schematic perspective view of a fine adjustment platform fixture according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a carrier base plate according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of an adjusting base plate according to an embodiment of the present invention;

in the figure: 1. a stage base plate; 11. a first adjustment groove; 12. a first slide rail groove; 13. a first fine tuning groove; 14. a fixing hole; 2. a first axial adjustment device; 21. a first axial slide rail rod; 22. a first axial slider; 23. a first axial adjuster; 24. a first axial connecting block; 25. a first axial auxiliary adjustment device; 251. a first axial spring; 252. a first axial elastic member connecting block; 3. adjusting the bottom plate; 31. a second adjustment groove; 32. a second slide rail groove; 33. a second fine tuning groove; 4. a second axial adjustment device; 41. a second axial slide rail rod; 42. a second axial slider; 43. a second axial adjuster; 44. a second axial connecting block; 45. a second axial auxiliary adjustment device; 451. a second axial elastic member; 452. a second axial elastic member connecting block; 5. a carrying platen; 6. a first reinforcing and fixing plate; 7. and a second reinforcing and fixing plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-3.

The transverse direction of the jig in fig. 1 is taken as the first axial direction, and the longitudinal direction thereof is taken as the second axial direction, which will not be described in detail below.

Example 1

The fine adjustment platform jig comprises a carrier base plate 1, wherein a first axial adjusting device 2 is arranged on the top surface of the carrier base plate 1, an adjusting base plate 3 is arranged at the top of the first axial adjusting device 2, a second axial adjusting device 4 is arranged on the top surface of the adjusting base plate 3, a carrier plate 5 is arranged at the top of the second axial adjusting device 4, a plurality of fixing holes 14 are formed in the carrier plate 5, and the carrier plate 5 is connected with the second axial adjusting device 4 through bolts to facilitate replacement of the carrier plate 5.

As shown in fig. 2, a first adjusting groove 11 is formed in the stage base plate 1, the first adjusting groove 11 includes two first slide rail grooves 12 and two first fine adjusting grooves 13, the two first slide rail grooves 12 are symmetrically disposed at two ends of the top surface of the stage base plate 1 in the second axial direction, the two first fine adjusting grooves 13 are symmetrically disposed at two ends of the top surface of the stage base plate 1 in the first axial direction, the first axial adjusting device 2 includes two first axial slide rail rods 21, two first axial sliders 22, a first axial adjuster 23, a first axial connecting block 24, and a first axial auxiliary adjusting device 25, the first axial adjuster 23 is preferably a micrometer knob, and the first axial adjuster 23 drives the two first axial sliders 22 to move along different first axial slide rail rods 21.

As shown in fig. 2, the two first axial slide rails 21 are disposed in the first slide rail grooves 12, the first axial connecting blocks 24 and the first axial auxiliary adjusting devices 25 are disposed in different first fine adjusting grooves 13, respectively, the first axial slide rails 21 are horizontally disposed along the first axial direction, the first axial sliders 22 are slidably connected to the first axial slide rails 21, the first axial adjusters 23 are inserted into the first fine adjusting grooves 13, where the first axial connecting blocks 24 are located, on the stage base plate 1 along the first axial direction, the first axial adjusters 23 are threadedly connected to the first axial connecting blocks 24, and the two first axial sliders 22, the first axial connecting blocks 24, and the first axial auxiliary adjusting devices 25 are connected to the adjusting base plate 3.

As shown in fig. 2, the first axially auxiliary adjusting device 25 includes a first axially elastic member 251 and a first axially elastic member connecting block 252, the first axially elastic member 251 is preferably an industrial spring, the first axially elastic member connecting block 252 is connected to an inner side wall of the first fine tuning groove 13 via the first axially elastic member 251, the first axially elastic member 251 is horizontally arranged along the first axial direction, and the first axially elastic member connecting block 252 is further connected to the adjusting base plate 3.

As shown in fig. 3, the adjustment base plate 3 is provided with a second adjustment groove 31, the second adjustment groove 31 includes two second slide rail grooves 32 and two second fine adjustment grooves 33, the two second slide rail grooves 32 are symmetrically disposed at two ends of the top surface of the adjustment base plate 3 in the first axial direction, the two second fine adjustment grooves 33 are symmetrically disposed at two ends of the top surface of the stage base plate 1 in the second axial direction, the second axial adjustment device 4 includes two second axial slide rail rods 41, two second axial sliders 42, a second axial adjuster 43, a second axial connection block 44, and a second axial auxiliary adjustment device 45, the second axial adjuster 43 is preferably a micrometer knob, and the second axial adjuster 43 drives the two second axial sliders 42 to move along the different second axial slide rail rods 41.

As shown in fig. 3, the two second axial slide rails 41 are disposed in the second slide rail groove 32, the second axial connecting blocks 44 and the second axial auxiliary adjusting devices 45 are disposed in different second fine adjustment grooves 33, the second axial slide rails 41 are horizontally disposed along the second axial direction, the second axial sliding blocks 42 are slidably connected to the second axial slide rails 41, the second axial adjusters 43 are inserted into the second fine adjustment grooves 33 of the adjustment base plate 3 where the second axial connecting blocks 44 are located along the second axial direction, the second axial adjusters 43 are connected to the second axial connecting blocks 44 in a matching manner, and the two second axial sliding blocks 42, the second axial connecting blocks 44 and the second axial auxiliary adjusting devices 45 are connected to the carrier plate 5.

As shown in fig. 3, the second axial auxiliary adjusting device 45 includes a second axial elastic member 451 and a second axial elastic member connecting block 452, the second axial elastic member 451 is preferably an industrial spring, the second axial elastic member connecting block 452 is connected to an inner side wall of the second adjusting groove 31 through the second axial elastic member 451, the second axial elastic member 451 is horizontally arranged along the second axial direction, and the second axial elastic member connecting block 452 is further connected to the stage plate 5.

As shown in fig. 1, a first reinforcing fixing plate 6 is provided at one end of the carrier plate 5 in the first axial direction, and the carrier plate 5 and the adjustment base plate 3 are connected by the first reinforcing fixing plate 6.

As shown in fig. 1, a second reinforcing fixing plate 7 is provided at one end of the adjustment base plate 3 in the second axial direction, and the adjustment base plate 3 and the stage base plate 1 are connected by the second reinforcing fixing plate 7.

The working principle is as follows: the second axial adjuster 43 and the first axial adjuster 23 are used for fine adjustment in the second axial direction and the first axial direction respectively, one end of the second axial adjuster 43 and one end of the first axial adjuster 23, which are inserted into the corresponding fine adjustment grooves, are in threaded connection with the second axial connecting block 44 or the first axial connecting block 24 respectively, so that the corresponding second axial connecting block 44 or the corresponding first axial connecting block 24 is driven to move in the corresponding fine adjustment grooves along the second axial direction or the first axial direction, and further the carrier plate 5 or the adjustment base plate 3 connected with the carrier plate is driven to move finely in the second axial direction or the first axial direction, because the carrier plate 5 or the adjustment base plate 3 has a certain mass, the adjustment is assisted by releasing the compression of the second axial elastic piece 451 or the first axial elastic piece 251, and is more labor-saving, the carrier plate 5 is provided with a plurality of fixing holes 14, the carrier plate 5 is connected with the adjustment base plate 3 through bolts, dismantle and change very conveniently, carry the platen 5 through changing not equidimension or structure and just can realize processing production to different products, the tool is installed on CNC digit control machine tool, and processing is more accurate, and efficiency is higher.

Example 2

The difference from embodiment 1 is that the positions of the first axial adjustment device 2 and the second axial adjustment device 4 are switched, the first axial adjustment device 2 is provided on the adjustment base plate 3, and the second axial adjustment device 4 is provided on the stage base plate 1.

The positions of the second axial adjusting device 4 and the first axial adjusting device 2 are exchanged, so that operators with different use habits can conveniently carry out processing operation.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it is understood that "first" and "second" are only used for convenience of expression and should not be understood as limitations to the embodiments of the present invention, and the following embodiments do not describe any more.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (9)

1. Fine setting platform tool, including microscope carrier bottom plate (1), its characterized in that: a first axial adjusting device (2) is arranged on the carrying platform bottom plate (1),

an adjusting bottom plate (3) is arranged on the first axial adjusting device (2),

a second axial adjusting device (4) is arranged on the adjusting bottom plate (3),

a carrying platform plate (5) is arranged on the second axial adjusting device (4),

the carrying platform plate (5) is detachably connected with the second axial adjusting device (4).

2. The fine tuning platform jig of claim 1, wherein: a first adjusting groove (11) is arranged on the carrying platform bottom plate (1),

the first axial adjusting device (2) comprises a first axial slide rail rod (21), a first axial slide block (22), a first axial adjuster (23), a first axial connecting block (24) and a first axial auxiliary adjusting device (25),

the first axial adjuster (23) drives the first axial slider (22) to move along the first axial slide rail rod (21).

3. The fine tuning platform jig of claim 2, wherein: the first axial slide rail rod (21), the first axial connecting block (24) and the first axial auxiliary adjusting device (25) are all arranged in the first adjusting groove (11),

the first axial slide rail rod (21) is horizontally arranged along the first axial direction,

the first axial slide block (22) is connected with the first axial slide rail rod (21) in a sliding way,

the first axial adjuster (23) is arranged on the carrier base plate (1) along a first axial direction in a penetrating way,

the first axial adjuster (23) is matched and connected with the first axial connecting block (24),

the first axial sliding block (22), the first axial connecting block (24) and the first axial auxiliary adjusting device (25) are connected with the adjusting bottom plate (3).

4. The fine tuning platform jig of claim 2, wherein: the first axial auxiliary adjusting device (25) comprises a first axial elastic member (251) and a first axial elastic member connecting block (252),

the first axial elastic member connecting block (252) is connected with the inner side wall of the first adjusting groove (11) through the first axial elastic member (251),

the first axial elastic member (251) is horizontally arranged along a first axial direction,

the first axial elastic piece connecting block (252) is also connected with the adjusting bottom plate (3).

5. The fine tuning platform jig of claim 1, wherein: a second adjusting groove (31) is arranged on the adjusting bottom plate (3),

the second axial adjusting device (4) comprises a second axial slide rail rod (41), a second axial sliding block (42), a second axial adjuster (43), a second axial connecting block (44) and a second axial auxiliary adjusting device (45),

the second axial adjuster (43) drives the second axial slider (42) to move along the second axial slide rail rod (41).

6. The fine tuning platform tool of claim 5, wherein: the second axial slide rail rod (41), the second axial connecting block (44) and the second axial auxiliary adjusting device (45) are all arranged in the second adjusting groove (31),

the second axial slide rail rod (41) is horizontally arranged along the second axial direction, the second axial slide block (42) is connected with the second axial slide rail rod (41) in a sliding way,

the second axial adjuster (43) is arranged on the adjusting bottom plate (3) along the second axial direction in a penetrating way,

the second axial adjuster (43) is matched and connected with the second axial connecting block (44),

the second axial sliding block (42), the second axial connecting block (44) and the second axial auxiliary adjusting device (45) are connected with the carrying bedplate (5).

7. The fine tuning platform tool of claim 5, wherein: the second axial auxiliary adjusting device (45) comprises a second axial elastic element (451) and a second axial elastic element connecting block (452),

the second axial elastic member connecting block (452) is connected with the inner side wall of the second adjusting groove (31) through the second axial elastic member (451),

the second axial elastic member (451) is horizontally arranged in the second axial direction,

the second axial elastic piece connecting block (452) is further connected with the carrying platform plate (5).

8. The fine tuning platform jig of claim 1, wherein: one end of the carrying bedplate (5) in the first axial direction is provided with a first reinforced fixing plate (6),

the carrying platform plate (5) is connected with the adjusting bottom plate (3) through the first reinforcing fixing plate (6).

9. The fine tuning platform jig of claim 1, wherein: a second reinforced fixing plate (7) is arranged at one end of the adjusting bottom plate (3) in the second axial direction,

the adjusting bottom plate (3) is connected with the carrier bottom plate (1) through the second reinforcing fixing plate (7).

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