CN215264122U

CN215264122U - Compact three-dimensional adjusting optical fiber fixing device

Info

Publication number: CN215264122U
Application number: CN202121521806.7U
Authority: CN
Inventors: 倪晓飞
Original assignee: Wuxi Xiatai Biotechnology Co ltd
Current assignee: Wuxi Xiatai Biotechnology Co ltd
Priority date: 2021-07-06
Filing date: 2021-07-06
Publication date: 2021-12-21
Anticipated expiration: 2031-07-06

Abstract

The utility model provides a three-dimensional optic fibre fixing device that adjusts of compact, it can finely tune the optic fibre position to realize the best optical coupling, reach the accuracy of data. The optical fiber is installed on the front side of an X-direction fixed block, the rear side of the X-direction fixed block is installed in an X-direction sliding groove formed in the front side of a Y-direction fixed block in a sliding mode through an X-direction sliding block, the rear side of the Y-direction fixed block is installed in a Y-direction sliding groove formed in the rear side of a base in a sliding mode through a Y-direction sliding block, and the bottom of the base is installed in a Z-direction sliding groove formed in a platform in a sliding mode through a Z-direction sliding block; an adjusting frame formed by enclosing an upper plate, a lower plate, a left plate and a right plate is arranged on the front side of the base, and the adjusting frame is enclosed outside the Y-direction fixing block; the upper bolt and the lower bolt respectively penetrate through threaded holes of the upper plate and the lower plate and abut against the Y-direction fixing block, and the left bolt and the right bolt respectively penetrate through threaded holes of the left plate and the right plate and abut against the X-direction sliding block.

Description

Compact three-dimensional adjusting optical fiber fixing device

Technical Field

The utility model belongs to the fixed field of optic fibre, specificly relate to three-dimensional regulation optic fibre fixing device.

Background

In a detection system of a flow cytometer optical instrument, a plurality of optical elements are generally mounted in accordance with a designed optical path position to achieve a certain optical detection function. However, in practical applications of the optical system, the orientation of the optical path always varies slightly due to dimensional differences of materials, machining precision of optical components, and process tolerance of installation. Therefore, after the preliminary fixing of the optical detection structure is completed, since the pre-installed position cannot completely reach the optimal ideal state, there is always a certain deviation, and the position of the optical element must be finely adjusted during the use. For example, the optical fiber is located at the position where the optical signal is received in the system, and the strength of the received signal can affect the accuracy of the tested output parameter. Data accuracy is achieved only by making moderate adjustments to the position of the signal receiving element to achieve optimal optical coupling.

Disclosure of Invention

In order to solve the problem that there is certain deviation in optic fibre fixed position, the utility model provides a three-dimensional regulation optic fibre fixing device of compact, it can finely tune the optic fibre position to realize the best optical coupling, reach the accuracy of data.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

the utility model provides a three-dimensional optic fibre fixing device that adjusts of compact, it includes optic fibre, its characterized in that: the optical fiber is installed on the front side of the X-direction fixed block, the rear side of the X-direction fixed block is installed in an X-direction sliding groove formed in the front side of the Y-direction fixed block in a sliding mode through an X-direction sliding block, the rear side of the Y-direction fixed block is installed in a Y-direction sliding groove formed in the rear side of the base in a sliding mode through a Y-direction sliding block, and the bottom of the base is installed in a Z-direction sliding groove formed in the platform in a sliding mode through a Z-direction sliding block; an adjusting frame formed by enclosing an upper plate, a lower plate, a left plate and a right plate is arranged on the front side of the base, and the adjusting frame is enclosed outside the Y-direction fixing block; an upper bolt and a lower bolt respectively penetrate through the threaded holes of the upper plate and the lower plate to abut against the Y-direction fixed block, and a left bolt and a right bolt respectively penetrate through the threaded holes of the left plate and the right plate to abut against the X-direction sliding block; the base, Y to the fixed block, X is provided with respectively to the light hole that can supply the light of optic fibre passes through on the fixed block.

It is further characterized in that:

a counter bore for adhering an optical filter is arranged on the front side of the X-direction sliding block, and light rays of the optical fiber pass through the optical filter;

the base is L-shaped, a long waist-shaped hole is formed in a bottom plate of the base, and a bolt can penetrate through the long waist-shaped hole and be fixed on the platform;

the upper bolt, the lower bolt, the left bolt and the right bolt are hexagon socket head bolts, and the bolt heads of the upper bolt, the lower bolt, the left bolt and the right bolt are also provided with handles convenient for screwing by hands;

the X is still provided with a square baffle to fixed block front side, the baffle is fixed in all around the alignment jig front side, optic fibre passes the square through-hole at baffle center.

The utility model has the advantages that: the Y-direction position of the optical fiber can be adjusted by screwing the upper bolt and the lower bolt, the X-direction position of the optical fiber can be adjusted by screwing the left bolt and the right bolt, and the Z-direction position of the optical fiber can be adjusted by sliding the base, so that the three-dimensional fine adjustment of the position of the optical fiber is realized; the square baffle plate has a limiting effect on the adjustment of the position of the optical fiber.

Drawings

Fig. 1 is an exploded view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall structure of the present invention;

in the figure: 1, an optical fiber; fixing blocks in the 2X direction; a 21X-direction slider; 3Y-direction fixing blocks; a 31X-direction chute; a 32Y-direction slider; 4, a base; a 41Y-direction chute; a 42Z-direction slider; 43 long waist-shaped holes; 5, adjusting a frame; 51, upper plate; 52 a lower plate; 53 left panel; 54 right plate; 55, screwing a bolt; 56 lower bolts; 57 a left bolt; 58 right bolt; 6, a light through hole; 7 an optical filter; 8 baffle plates.

Detailed Description

In order to deepen the understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and embodiments, which are only used for explaining the present invention and are not limited to the protection scope of the present invention.

A compact three-dimensional adjusting optical fiber fixing device comprises an optical fiber 1, wherein the optical fiber 1 is installed on the front side of an X-direction fixing block 2, the rear side of the X-direction fixing block 2 is installed in an X-direction sliding groove 31 arranged on the front side of a Y-direction fixing block 3 in a sliding mode through an X-direction sliding block 21, the rear side of the Y-direction fixing block 3 is installed in a Y-direction sliding groove 41 arranged on the rear side of a base 4 in a sliding mode through a Y-direction sliding block 32, and the bottom of the base 4 is installed in a Z-direction sliding groove arranged on a platform in a sliding mode through a Z-direction sliding block 42; an adjusting frame 5 formed by enclosing an upper plate 51, a lower plate 52, a left plate 53 and a right plate 54 is arranged on the front side of the base 4, and the adjusting frame 5 is enclosed outside the Y-direction fixing block 3; an upper bolt 55 and a lower bolt 56 respectively penetrate through the threaded holes of the upper plate 51 and the lower plate 52 to be abutted against the Y-direction fixing block 3, and a left bolt 57 and a right bolt 58 respectively penetrate through the threaded holes of the left plate 53 and the right plate 54 to be abutted against the X-direction slider 21; the base 4, the Y-direction fixing block 3 and the X-direction fixing block 2 are respectively provided with a light through hole 6 through which light of the optical fiber 1 can pass.

A counter bore for adhering the optical filter 7 is arranged at the front side of the X-direction sliding block 21, and the light of the optical fiber 1 passes through the optical filter 7; the base 4 is L-shaped, a long waist-shaped hole 43 is formed in the bottom plate of the base 4, and a bolt can penetrate through the long waist-shaped hole 43 to be fixed on the platform; the upper bolt 55, the lower bolt 56, the left bolt 57 and the right bolt 58 are hexagon socket head cap bolts, and the bolt heads are also provided with handles which are convenient for hand screwing; x is still provided with a square baffle 8 to the fixed block 2 front side, and baffle 8 is fixed in the 5 front sides of alignment jig all around, and optic fibre 1 passes the square through-hole at baffle 8 center.

The utility model has the advantages that: the Y-direction position of the optical fiber 1 can be adjusted by screwing the upper bolt 55 and the lower bolt 56, the X-direction position of the optical fiber 1 can be adjusted by screwing the left bolt 57 and the right bolt 58, and the Z-direction position of the optical fiber 1 can be adjusted by sliding the base 4, so that the three-dimensional fine adjustment of the position of the optical fiber 1 is realized; the square baffle 8 has a limiting effect on the adjustment of the position of the optical fiber 1.

Claims

1. The utility model provides a three-dimensional optic fibre fixing device that adjusts of compact, it includes optic fibre, its characterized in that: the optical fiber is installed on the front side of the X-direction fixed block, the rear side of the X-direction fixed block is installed in an X-direction sliding groove formed in the front side of the Y-direction fixed block in a sliding mode through an X-direction sliding block, the rear side of the Y-direction fixed block is installed in a Y-direction sliding groove formed in the rear side of the base in a sliding mode through a Y-direction sliding block, and the bottom of the base is installed in a Z-direction sliding groove formed in the platform in a sliding mode through a Z-direction sliding block; an adjusting frame formed by enclosing an upper plate, a lower plate, a left plate and a right plate is arranged on the front side of the base, and the adjusting frame is enclosed outside the Y-direction fixing block; an upper bolt and a lower bolt respectively penetrate through the threaded holes of the upper plate and the lower plate to abut against the Y-direction fixed block, and a left bolt and a right bolt respectively penetrate through the threaded holes of the left plate and the right plate to abut against the X-direction sliding block; the base, Y to the fixed block, X is provided with respectively to the light hole that can supply the light of optic fibre passes through on the fixed block.

2. The compact three-dimensional adjustable optical fiber fixing device according to claim 1, wherein: and a counter bore for adhering the optical filter is arranged on the front side of the X-direction sliding block, and the light of the optical fiber passes through the optical filter.

3. The compact three-dimensional adjustable optical fiber fixing device according to claim 2, wherein: the base is L-shaped, a long waist-shaped hole is formed in a bottom plate of the base, and a bolt can penetrate through the long waist-shaped hole to be fixed on the platform.

4. A compact three-dimensional adjustable optical fiber fixture device as defined in claim 3, wherein: the upper bolt, the lower bolt, the left bolt and the right bolt are hexagon socket head cap bolts, and the bolt heads of the upper bolt, the lower bolt, the left bolt and the right bolt are provided with handles convenient for hand screwing.

5. The compact three-dimensional adjustable optical fiber fixing device according to claim 4, wherein: the X is still provided with a square baffle to fixed block front side, the baffle is fixed in all around the alignment jig front side, optic fibre passes the square through-hole at baffle center.