CN114791015A - Manual accurate slip table - Google Patents

Abstract

The invention provides a manual precision sliding table, which comprises: the moving block is arranged on the fixed plate in a sliding mode, and the sliding direction of the moving block is parallel to the fixed plate; the adjusting structure is used for adjusting the relative position of the moving block and the fixed plate; the measuring structure comprises a graduated scale and an indicating part; the indicating part is used for indicating scales on the graduated scale; the graduated scale is fixed on the fixed plate, the length direction of the graduated scale is parallel to the sliding direction of the moving block, and the indicating part is fixed on the moving block. The manual precision sliding table has the advantages that a user can accurately determine the position of the moving block and the moving distance of the moving block, the space requirement is small, the structure is simple, and the operation is convenient.

Description

Manual accurate slip table

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of sliding tables, in particular to a manual precision sliding table.

[ background of the invention ]

When a product is detected in production, a camera is adopted for shooting detection, and the installation height position of the camera is required, so that when the camera is installed and debugged, the height of the camera needs to be adjusted for shooting test for many times to determine a proper position.

However, the current height adjusting mechanism has the problems of large space requirement, complex operation and incapability of carrying out accurate positioning.

Therefore, there is a need for improvements in the prior art.

[ summary of the invention ]

The technical problem to be solved by the invention is as follows: the height adjusting mechanism aims to solve the problems that an existing height adjusting mechanism is large in space requirement, complex in operation and incapable of being accurately positioned. The present invention provides a manual precision slide to solve the above problems.

The technical scheme for solving the technical problem is as follows: a manual precision slide comprising:

the moving block is arranged on the fixed plate in a sliding mode, and the sliding direction of the moving block is parallel to the fixed plate;

the adjusting structure is used for adjusting the relative position of the moving block and the fixed plate;

the measuring structure comprises a graduated scale and an indicating part; the indicating part is used for indicating scales on the graduated scale;

the graduated scale is fixed on the fixed plate, the length direction of the graduated scale is parallel to the sliding direction of the moving block, and the indicating part is fixed on the moving block.

Preferably, the indication portion is provided with an indication mark for indicating a scale on the scale.

Preferably, the moving block is slidably disposed on the fixing plate through a slide rail and a slide block;

the slide rail is fixedly connected to the fixed plate, and the slide block is fixedly connected to the moving block.

Preferably, the adjusting structure comprises a first fixing block, a second fixing block and an adjusting rod;

the first fixing block and the second fixing block are fixedly connected to the fixing plate;

the adjusting rod comprises a first screw, a rotating shaft and a first rotating handle; one end of the rotating shaft is coaxially fixed with the first end of the first screw rod, and the other end of the rotating shaft is fixed with the first rotating handle;

the first fixing block is provided with a through hole, the rotating shaft is rotatably inserted into the through hole, the rotating shaft is sleeved with two fixing rings, and the two fixing rings are respectively positioned on two sides of the first fixing block;

the second fixed block is provided with an insertion hole, and the second end part of the first screw rod is rotatably inserted into the insertion hole;

the moving block is provided with a first threaded through hole, the axis of the first threaded through hole is parallel to the sliding direction of the moving block, and the first screw is in threaded fit with the first threaded through hole.

Preferably, the movable block further comprises a locking structure for locking the position of the movable block and the fixed plate.

Preferably, the locking structure comprises a second threaded rod and a second rotary handle; the second rotary handle is fixed at the end part of the second threaded rod;

and a second threaded through hole is formed in the moving block, the axis of the second threaded through hole is perpendicular to the sliding direction of the moving block, and the second threaded rod is in threaded fit with the second threaded through hole.

The manual precision sliding table has the advantages that a user can accurately determine the position of the moving block and the moving distance of the moving block, the space requirement is small, the structure is simple, and the operation is convenient.

[ description of the drawings ]

Fig. 1 is a schematic view of a manual precision slide table according to the present invention.

Fig. 2 is a front view of a manual precision slide table of the present invention.

Fig. 3 is a schematic structural view of another view of the manual precision sliding table according to the present invention.

Fig. 4 is an exploded view of a manual precision slide table according to the present invention.

[ detailed description ] embodiments

To further illustrate the technical means and effects of the present invention, the following detailed description is given with reference to the embodiments of the present invention and the accompanying drawings.

Referring to fig. 1 and 2, fig. 1 is a schematic view illustrating a view angle of a manual precision slide table according to the present invention. Fig. 2 is a front view of a manual precision slide table according to the present invention. The invention provides a manual precision sliding table, which comprises:

the moving block 2 is slidably disposed on the fixed plate 1, and the sliding direction of the moving block 2 is parallel to the fixed plate 1.

And the adjusting structure is used for adjusting the relative position of the moving block 2 and the fixed plate 1.

The measuring structure includes a scale 401 and an indicating portion 402, and the indicating portion 402 is used for indicating the scale on the scale 401.

The scale 401 is fixed to the fixed plate 1, the longitudinal direction of the scale 401 is parallel to the sliding direction of the moving block 2, and the indicator 402 is fixed to the moving block 2.

Specifically, the indication part 402 is provided with an indication mark 4021 (for example, a straight line or an arrow), and the indication mark 4021 indicates a scale on the scale 401.

Specifically, the moving block 2 is slidably disposed on the fixing plate 1 through a slide rail 501 and a slider 502, the slide rail 501 is fixedly connected to the fixing plate 1, and the slider 502 is fixedly connected to the moving block 2.

When the moving block 2 of the manual precision sliding table moves, the indication mark 4021 on the indication part 402 can indicate the scale on the graduated scale 401, so that a user can accurately determine the position of the moving block 2 and the moving distance of the moving block.

Referring to fig. 1 and 4, the adjusting structure includes a first fixing block 301, a second fixing block 302, and an adjusting rod 303.

The first fixing block 301 and the second fixing block 302 are fixedly connected to the fixing plate 1, and the slide rail 501 is located between the first fixing block 301 and the second fixing block 302.

The adjusting rod 303 includes a first screw 3031, a rotating shaft 3032 and a first rotating handle 3033, one end of the rotating shaft 3032 is coaxially fixed with a first end of the first screw 3031, and the other end of the rotating shaft 3032 is fixed with the first rotating handle 3033.

A through hole 3011 is formed in the first fixing block 301, the rotating shaft 3032 is rotatably inserted into the through hole 3011, two fixing rings 3034 are sleeved on the rotating shaft 3032, and the two fixing rings 3034 are located on two sides of the first fixing block 301 respectively. The two fixing rings 3034 play a role in limiting so as to prevent the rotating shaft 3032 from coming out of the through hole 3011.

The second fixed block 302 is provided with an insertion hole 3021, and the second end of the first screw 3031 is rotatably inserted into the insertion hole 3021.

The moving block 2 is provided with a first threaded through hole 201, the axis of the first threaded through hole 201 is parallel to the sliding direction of the moving block 2, and the first screw 3031 is in threaded fit with the first threaded through hole 201.

When the user rotates the first rotating handle 3033, the first screw 3031 rotates synchronously, and the first screw 3031 and the first threaded hole are in threaded fit to drive the moving block 2 to move. The adjusting structure is simple in structure and convenient to operate.

Referring to fig. 3 and 4, the manual precision sliding table further includes a locking structure 6, and the locking structure 6 is used for locking the position of the moving block 2 and the fixed plate 1. Specifically, the locking structure 6 includes a second threaded rod 601 and a second rotary handle 602, and the second rotary handle 602 is fixed to an end of the second threaded rod 601.

A second threaded through hole 202 is formed in the moving block 2, the axis of the second threaded through hole 202 is perpendicular to the sliding direction of the moving block 2, and the second threaded rod 601 is in threaded fit with the second threaded through hole 202.

When the user rotates the second rotating handle 602, the second threaded rod 601 moves toward the fixing plate 1, and when the other end of the second threaded rod 601 abuts against the fixing plate 1, the moving block 2 is locked with the fixing plate 1. The locking structure 6 has simple structure and convenient operation

In conclusion, the manual precision sliding table not only can enable a user to accurately determine the position of the moving block 2 and the moving distance of the moving block, but also is small in space requirement, simple in structure and convenient to operate.

It should be noted that the present invention is not limited to the above embodiments, and any simple modifications, equivalent changes and modifications of the above embodiments based on the technical solution of the present invention by those skilled in the art are within the protection scope of the present invention.

Claims (6)

1. A manual precision slide, characterized by, includes:

the moving block is arranged on the fixed plate in a sliding mode, and the sliding direction of the moving block is parallel to the fixed plate;

the adjusting structure is used for adjusting the relative position of the moving block and the fixed plate;

the measuring structure comprises a graduated scale and an indicating part; the indicating part is used for indicating scales on the graduated scale;

the graduated scale is fixed on the fixed plate, the length direction of the graduated scale is parallel to the sliding direction of the moving block, and the indicating part is fixed on the moving block.

2. A manual precision slide as claimed in claim 1, wherein:

the indicating part is provided with an indicating mark, and the indicating mark is used for indicating scales on the graduated scale.

3. A manual precision slide as claimed in claim 2, wherein:

the moving block is slidably arranged on the fixed plate through a sliding rail and a sliding block;

the slide rail is fixedly connected to the fixed plate, and the slide block is fixedly connected to the moving block.

4. A manual precision slide as claimed in claim 3, wherein:

the adjusting structure comprises a first fixed block, a second fixed block and an adjusting rod;

the first fixing block and the second fixing block are fixedly connected to the fixing plate;

the adjusting rod comprises a first screw, a rotating shaft and a first rotating handle; one end of the rotating shaft is coaxially fixed with the first end part of the first screw rod, and the other end of the rotating shaft is fixed with the first rotating handle;

the first fixing block is provided with a through hole, the rotating shaft is rotatably inserted into the through hole, the rotating shaft is sleeved with two fixing rings, and the two fixing rings are respectively positioned on two sides of the first fixing block;

the second fixed block is provided with an insertion hole, and the second end part of the first screw rod is rotatably inserted into the insertion hole;

the moving block is provided with a first threaded through hole, the axis of the first threaded through hole is parallel to the sliding direction of the moving block, and the first screw is in threaded fit with the first threaded through hole.

5. A manual precision slide as claimed in claim 1, wherein:

the locking structure is used for locking the positions of the moving block and the fixed plate.

6. A manual precision slide as claimed in claim 5, wherein:

the locking structure comprises a second threaded rod and a second rotary handle; the second rotary handle is fixed at the end part of the second threaded rod;

and a second threaded through hole is formed in the moving block, the axis of the second threaded through hole is perpendicular to the sliding direction of the moving block, and the second threaded rod is in threaded fit with the second threaded through hole.

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