CN110722489A - Accurately-positioned clamp, adjustable filter, manufacturing method of adjustable filter and industrial equipment - Google Patents

Abstract

The invention provides a clamp capable of being accurately positioned, an adjustable filter, a manufacturing method of the adjustable filter and industrial equipment of the adjustable filter. Utilize the mounting hole to be used for installing the lock pin, and utilize the centre gripping chamber of folder to fix a position the lock pin, recycle abutting on of briquetting and folder and order about centre gripping chamber deformation, carry out the centre gripping to the lock pin then and fix, utilize the adjustable cooperation of folder and briquetting, realize installing and removing fast of lock pin, and utilize the prepositioning of folder to improve the installation accuracy of lock pin, guarantee the performance of device.

Description

Accurately-positioned clamp, adjustable filter, manufacturing method of adjustable filter and industrial equipment

Technical Field

The invention relates to the field of optical filters, in particular to a clamp and an adjustable filter with accurate positioning, a manufacturing method of the adjustable filter and industrial equipment.

Background

With the development and maturity of fiber grating sensing technology, wavelength demodulation technology is receiving more and more attention and attention of people. The wavelength demodulation system based on the tunable optical fiber FP filter has the advantages of low cost, fast response, high resolution and the like, and is widely applied. The performance of the tunable optical fiber FP filter as a core device of the whole system largely determines the performance of the whole demodulation system. In an optical communication system, a tunable FP filter is mainly used for demultiplexing wavelength division multiplexing, signal demodulation, and the like, and the filter has become a mainstream device. In addition, the FP device can be used as a signal filter in an optical fiber amplifier, and has important application in optical fiber lasers and spectrum analysis. Compared with other types of tunable optical filters, namely acousto-optical filters, Mach-Zenhder filters and distributed feedback Bragg laser tunable filters, the tunable FP filter has the advantages of low insertion loss, high tuning speed, wide tunable range, high fineness and flexible structure, and can be manufactured into different structures to meet the requirements of different free spectral regions.

Therefore, the applicant provides a scheme with the publication number of CN109557617A named as "tunable filter", in which the exit end of the first fiber stub and the exit end of the second fiber stub are arranged oppositely in the accommodating through hole to form an F-P resonant cavity, and the piezoelectric effect characteristic of the piezoelectric ceramic is utilized to realize the precise adjustment of the distance between the exit ends of the fiber stubs, so that the filter can precisely tune the filtering.

However, in the filter in the above scheme, during the vibration scanning, the ferrule and the accommodating through hole wall have friction, which easily causes the driving voltage characteristic of the filter to change after long-term operation. Furthermore, the existing scheme does not support the replacement of the ferrule, which greatly increases the repair cost of the filter. Therefore, it is of great importance to design a filter in which the ferrule is not bound by the receiving through-hole and which supports the replacement of different ferrules.

Disclosure of Invention

The first purpose of the invention is to provide a clamp which is fast in assembly and disassembly and accurate and stable in fixed position.

A second object of the present invention is to provide a tunable filter having the above-described jig.

The third objective of the present invention is to provide a manufacturing method of the tunable filter.

A fourth object of the invention is to provide an industrial plant with a tunable filter as described above.

In order to achieve the first purpose, the invention provides an accurately-positioning clamp which comprises a clamping block, a clamping piece and a pressing block, wherein the clamping block is provided with a mounting hole in a penetrating mode, the clamping block is further provided with a pressing hole on the radial side of the mounting hole, the pressing hole is communicated with the mounting hole, the clamping piece is arranged in the mounting hole, the clamping piece is provided with a clamping cavity, the pressing block is movably arranged in the pressing hole, and the pressing block is adjacent to the clamping piece and can drive the clamping cavity to deform.

According to the scheme, the installation hole is used for installing the inserting core, the clamping cavity of the clamping piece is used for positioning the inserting core, the pressing block is used for abutting on the clamping piece to drive the clamping cavity to deform, then the inserting core is clamped and fixed, the clamping piece and the pressing block are adjusted and matched, the inserting core is quickly assembled and disassembled, pre-positioning of the clamping piece is utilized, installation accuracy of the inserting core is improved, and performance of a device is guaranteed.

According to a further scheme, the clamping piece is arranged in a C-shaped pipe, and the clamping cavity is located in the C-shaped pipe.

Therefore, the insertion core can be conveniently assembled and disassembled through the C-shaped pipe, the C-shaped pipe is convenient to position in the mounting hole, and the coaxial accuracy and stability are improved.

In a further aspect, the clamp is fixedly connected to the clamp block at a connection point in the mounting hole, and the connection point and the press block are located on two radially opposite sides of the mounting hole, respectively.

From top to bottom, fix a position the folder through the junction fixed point to improve coaxial stability, the opposite side of junction is then the free end of folder, utilizes the briquetting can be fast and steadily to inserting the core centre gripping.

In a further aspect, the clamp is glued to the clamp block.

Therefore, the clamping piece is conveniently fixed by glue joint, and the structure is simple.

According to a further scheme, the clamping block is provided with a glue dispensing hole in a penetrating mode at the connecting position, and the glue dispensing hole and the pressing block are respectively located on two sides, opposite to each other, of the mounting hole in the radial direction.

Therefore, in order to improve the convenience of dispensing, the dispensing hole is formed in the joint, and glue can be injected through the dispensing hole to conveniently glue and fix the clamping piece.

The pressing block is provided with at least two pressing holes which are distributed along the axial direction of the mounting hole.

From top to bottom, utilize the arrangement in two pressure holes for the briquetting can carry out the centre gripping to the different positions of lock pin, thereby finely and accurately adjust the position and the angle of lock pin.

In order to achieve the second object of the present invention, the present invention provides a tunable filter, which includes a precisely-positioned fixture according to the above-mentioned solution.

The tunable filter comprises two clamps, two insertion cores and a tuning assembly, wherein the tuning assembly is connected between the two clamp blocks, one insertion core is arranged in one mounting hole and clamped by one clamp, and the output ends of the two insertion cores are oppositely arranged.

Therefore, the insertion cores are assembled and disassembled quickly and accurately through the relative of the two clamps, so that the relative position precision of the two insertion cores is improved, the displacement change of the tuning assembly is reused, the accurate adjustment of the distance between the emergent ends of the optical fiber insertion cores is realized, and the filter is enabled to be filtered accurately and adjustably.

In order to achieve the third object of the present invention, the present invention provides a method for manufacturing a tunable filter, where the tunable filter is the tunable filter of the above scheme, and the method includes:

arranging the clamping piece and the calibration column in the mounting hole;

clamping the calibration column by the two clamping pieces;

fixing the positions of the two clamping pieces;

connecting the tuning assembly between the two clamping blocks, and fixing the position of the tuning assembly;

disassembling the calibration column;

a ferrule is mounted in a mounting hole and held by a clamp.

In order to achieve the fourth object of the present invention, the present invention provides an industrial device including the tunable filter according to the above aspect.

It can be seen by above-mentioned scheme that, carry out the accurate positioning to the relative position of folder earlier through the calibration cylinder, carry out the accurate positioning to the position of tuning subassembly again, dismantle the calibration cylinder at last, even if dismantle the calibration cylinder after, because folder and tuning subassembly are all accurate positioning, and the position is stable, so when the lock pin is installed again, guarantee the axiality of lock pin, also guarantee the performance of device, and the dismouting is also convenient, also makes accurate adjustable filtering of wave filter or industrial equipment.

Drawings

Fig. 1 is a block diagram of a first embodiment of the tunable filter of the present invention.

Fig. 2 is an exploded view of a first embodiment of the tunable filter of the present invention.

Fig. 3 is an exploded view of the first embodiment of the tunable filter of the present invention from another perspective.

Fig. 4 is a cross-sectional view of a first embodiment of the tunable filter of the present invention in a radial direction at a compression member.

Fig. 5 is a schematic structural diagram of a first manufacturing process of the tunable filter according to the first embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a second manufacturing process of the tunable filter according to the first embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a third manufacturing process of the tunable filter according to the first embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a fourth manufacturing process of the tunable filter according to the first embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a fifth manufacturing process of the tunable filter according to the first embodiment of the present invention.

Fig. 10 is a block diagram of a second embodiment of the tunable filter of the present invention.

Fig. 11 is a block diagram of a second embodiment of the tunable filter of the present invention.

Fig. 12 is a cross-sectional view of a second embodiment of the tunable filter of the present invention.

The invention is further explained with reference to the drawings and the embodiments.

Detailed Description

First embodiment of tunable filter:

referring to fig. 1 to 4 in combination with fig. 9, the tunable filter includes two clamps 1, two ferrules 21 and a tuning assembly, the tuning assembly is located between the two clamps 1, the clamp 1 includes a clamping block 11, a clamping piece 12 and a pressing block 13, the clamping block 11 is provided with a mounting hole 111 in a penetrating manner, the mounting hole 111 is provided with a positioning ring wall 112 at an end portion close to the tuning assembly in a protruding manner, the mounting hole 111 is provided with a positioning ring groove 113 at an outward end portion, the clamping block 11 is further provided with a pressing hole 114 at a radial side of the mounting hole 111, the pressing hole 114 is communicated with the mounting hole 111, and the pressing hole 114 is provided with an internal thread.

The clamping piece 12 is arranged in a C-shaped pipe, a clamping cavity 121 is arranged in the clamping piece 12, the clamping cavity 121 is located in the C-shaped pipe, an opening 122 is formed in the radial side of the clamping cavity 121, the opening 122 extends in the axial direction, the clamping piece 12 is arranged in the mounting hole 111, then the clamping cavity 121 is communicated with the mounting hole 111, preferably, the clamping piece 12 is made of a ceramic material, the thermal expansion coefficient of the ceramic material is low, and when the adjustable filter is applied, the influence of temperature on performance can be reduced, so that the performance of equipment is improved.

Briquetting 13 can adopt the screw, briquetting 13 and pressure hole 114 screw-thread fit, through rotatory briquetting 13, briquetting 13 is movably set up in pressure hole 114, the lower tip of briquetting 13 borders on with the upper end of folder 12, folder 12 junction 123 and clamp splice 11 fixed connection in mounting hole 111, fixed connection's mode can adopt glue to glue fixedly, junction 123 is located the lower extreme of folder 12, junction 123 and briquetting 13 are located the radial relative both sides of mounting hole 111 respectively, and opening 122 is located between junction 123 and the briquetting 13, order about folder 12 deformation through briquetting 13's removal, then also order about centre gripping chamber 121 deformation.

The ferrule 21 includes an insertion portion 211, a positioning block 212 and a fiber core 213, the positioning block 212 is disposed annularly and is disposed outside the insertion portion 211, the fiber core 213 is disposed coaxially in the ferrule 21, the insertion portion 211 is inserted into the mounting hole 111, the insertion portion 211 extends outside the mounting hole 111, the insertion portion 211 passes through the clamping cavity 121 of the clip 12, the positioning block 212 is in limit fit with the positioning ring groove 113, and the clip 12 clamps and positions the ferrule 21.

The tuning assembly can adopt piezoelectric ceramics 22, piezoelectric ceramics 22 is the annular setting, and piezoelectric ceramics 22 runs through along the light path direction of lock pin to be provided with and holds the through-hole, and piezoelectric ceramics 22 connects between two clamp splice 11 along light path direction ground, and the mounting hole of left side clamp splice 11, the mounting hole that holds through-hole and right side clamp splice 11 communicate in proper order, and the output of two lock pins 21 is holding relative arrangement in the through-hole.

The manufacturing method of the tunable filter in the first embodiment:

referring to fig. 5, the first embodiment of the structure of the upper tunable filter is fabricated by first pre-fixing the clamp 1 on one side, i.e., injecting glue into the mounting hole of the clamp 1, then sleeving the clamping member 12 on the calibration cylinder 23, then arranging the clamping member 12 and the calibration cylinder 23 in the mounting hole 111, and then allowing the calibration cylinder 23 to pass through the clamping member 12 and the mounting hole 111, and then clamping and pre-fixing the same by the pressing block 13.

Referring to fig. 6, the clamp 1 on the other side is then pre-fixed, glue is injected into the mounting hole of the clamp 1 on the other side, the clamp 12 is sleeved on the calibration cylinder 23, the other ends of the clamp 12 and the calibration cylinder 23 are arranged in the mounting hole 111, the calibration cylinder 23 penetrates through the clamp 12 and the mounting hole 111, the clamp is pre-fixed by clamping the clamp 12 through the pressing block 13, and the clamp 12 is fixed in position by curing in an oven.

Referring to fig. 7, then, the piezoelectric ceramics 22 are installed, and since the piezoelectric ceramics 22 are arranged in a ring shape, the calibration cylinder 23 needs to be detached first, the two ends of the piezoelectric ceramics 22 are respectively sleeved outside the positioning ring wall 112, then the calibration cylinder 23 is installed to penetrate through the two clamping pieces 12 and to be matched with the pressing block 13 for pressing, then, the two clamps 1 and the piezoelectric ceramics 22 are fixed in position, then, the two clamps are bonded to the axial end face of the piezoelectric ceramics 22 and the axial end face of the clamping block 11 through glue, and then, the piezoelectric ceramics 22 are fixed in position through curing in an oven.

Referring to fig. 8, the pressure block 13 is released and the calibration cylinder 23 is removed.

Referring to fig. 9, one ferrule 21 is respectively installed in the clamping blocks 11, that is, one insertion portion 211 is installed in one installation hole 111 and penetrates through the installation hole 111 and the clamping cavity 121, the output ends of the two ferrules 21 are oppositely arranged, then position adjustment is performed through connection debugging, and finally the position of the ferrule 21 is fixed through clamping of the clamping piece 12, so that the tunable filter is manufactured.

Second embodiment of the tunable filter:

the second embodiment of the tunable filter may also change the press holes and the press blocks based on the application and principle of the first embodiment, the clamp block 31 of the tunable filter is provided with a mounting hole in a penetrating manner, the clamp block is further provided with two press holes 311 on the radial side of the mounting hole, the press holes 311 are distributed along the axial direction of the mounting hole, one press block 32 is arranged in each press hole 311, and the end part of each press block 32 is abutted to the clamp block. Of course, more than two pressure holes 311 and pressure blocks may be provided, which are uniformly distributed axially.

Third embodiment of tunable filter:

referring to fig. 11 and 12, in the second embodiment of the tunable filter, based on the application and principle of the first embodiment, a dispensing hole 42 is formed through a clamping block 41, the dispensing hole 42 is perpendicular to an axial direction of a mounting hole 111, the dispensing hole 42 is parallel to the axial direction of the pressing hole, a pressing block 43 is disposed in the pressing hole and abuts against the clamp, the dispensing hole 42 and the pressing block 43 are respectively located on two opposite sides of the mounting hole in the radial direction, and glue is injected into the dispensing hole 42 through an injector to conveniently glue and fix the clamp.

Method of manufacturing tunable filter second embodiment:

the structure of the third embodiment is applied to the structure of the tunable filter, and based on the same principle of the first embodiment of the manufacturing method of the tunable filter, the steps and the sequence of glue injection are slightly adjusted, that is, the clamping members 12 and the calibration cylinder 23 are firstly arranged in the mounting hole 111, and the calibration cylinder 23 passes through the two clamping members 12 and is clamped by the two clamping members 12, then glue is injected through the glue dispensing hole 42 by the syringe, and then the position of the clamping members 12 is fixed by curing in the oven. The above-described modifications can achieve the object of the present invention.

Example of an industrial plant:

the industrial device comprises a tunable filter as in the above embodiments. The industrial equipment can be a frequency sweep device, a filter, a frequency sweep light source, a spectrum monitor, sensing equipment and the like.

The above embodiments are merely preferred embodiments of the present invention, and in practical applications, many variations may be made, for example, the clamping members may be formed by using clamping structures of other shapes, such as triangular, U-shaped or a-shaped clamping members, or "(" shape and ")" -shaped clamping members, and the fixing manner may be glue joint, or welding or other conventional connecting manners, or fixing manners by using structures such as snap fit, hook, slot limit, and the like, in addition, the tuning assembly may further include two or more piezoelectric ceramics, the two or more piezoelectric ceramics are axially connected and arranged, or the tuning assembly may further use other devices for realizing deformation and displacement, as long as the distance between the two clamping members is adjusted, and the above variations can achieve the object of the present invention and are within the protection scope of the present invention.

It is from top to bottom apparent, utilize the mounting hole to be used for installing the lock pin, and utilize the centre gripping chamber of folder to fix a position the lock pin, recycle abutting on of briquetting and folder order about the centre gripping chamber deformation, carry out the centre gripping fixed to the lock pin then, utilize the adjustable cooperation of folder and briquetting, realize installing and removing fast of lock pin, and utilize the prepositioning of folder to improve the installation accuracy of lock pin, guarantee the performance of device.

Piezoelectric ceramics are connected between the clamping blocks, and the emergent end of the first optical fiber insertion core and the emergent end of the second optical fiber insertion core are oppositely arranged in the accommodating through hole, so that an F-P resonant cavity is formed, fine and accurate adjustment of the distance between the clamping blocks is realized by utilizing the piezoelectric effect characteristic of the piezoelectric ceramics, the accurate adjustment of the distance between the emergent ends of the optical fiber insertion cores is realized, and the accurate adjustable frequency domain is utilized to enable the filter to accurately adjust filtering. Through the spacing fixed mounting of bulge loop to piezoceramics, when piezoceramics deformation, the removal of clamp splice is coaxial along axial displacement, guarantees the axiality of filter device then. The optical fiber ferrule is positioned by the positioning convex edge, so that the coaxiality of the optical fiber ferrule in relative time is ensured, and the optical loss is reduced. The clamping block can be made of materials with lower thermal expansion coefficients, such as steel, stainless steel or quartz, so that the expansion of the clamping block is not influenced by the ambient temperature or the working temperature, and the filtering accuracy and the working stability are further ensured.

Claims (10)

1. A precision positioning fixture, comprising:

the clamping block is provided with a mounting hole in a penetrating mode, a pressure hole is formed in the radial side of the mounting hole of the clamping block, and the pressure hole is communicated with the mounting hole;

the clamping piece is arranged in the mounting hole and provided with a clamping cavity;

the pressing block is movably arranged in the pressing hole, is adjacent to the clamping piece and can drive the clamping cavity to deform.

2. The clamp of claim 1, wherein:

the clamping piece is arranged in a C-shaped pipe, and the clamping cavity is located in the C-shaped pipe.

3. The clamp of claim 1, wherein:

the clamping piece is fixedly connected with the clamping block at the connecting position in the mounting hole, and the connecting position and the pressing block are respectively positioned on two sides of the mounting hole in the radial direction.

4. The clamp of claim 3, wherein:

the clamping piece is glued with the clamping block.

5. The clamp of claim 3 or 4, wherein:

the clamping block penetrates through the connecting part to be provided with a glue dispensing hole, and the glue dispensing hole and the pressing block are respectively positioned on two sides of the mounting hole in the radial direction.

6. The clamp of any one of claims 1 to 4, wherein:

the pressing block is provided with at least two pressing holes, and the pressing holes are distributed along the axial direction of the mounting hole.

7. A tunable filter, comprising a clamp according to any one of claims 1 to 6.

8. The tunable filter of claim 7, wherein:

the tunable filter comprises two clamps, two insertion cores and a tuning assembly, wherein the tuning assembly is connected between the two clamping blocks, one insertion core is installed in one installation hole and clamped by one clamping piece, and output ends of the two insertion cores are oppositely arranged.

9. A method for manufacturing a tunable filter according to claim 8, the method comprising:

arranging the clamp and the calibration cylinder in the mounting hole;

clamping the two clamping pieces to the calibration cylinder;

fixing the positions of the two clamping pieces;

connecting the tuning assembly between the two clamping blocks, and fixing the position of the tuning assembly;

disassembling the calibration cylinder;

and installing one of the ferrules in one of the installation holes and clamping the ferrule by one of the clamping pieces.

10. Industrial plant, characterized in that it comprises a tunable filter according to any one of the preceding claims 7 to 8.

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