CN216772101U - Platform for inspecting lens end face of output head - Google Patents

Abstract

The utility model discloses a platform for inspecting the lens end surface of an output head, which is characterized in that: the microscope comprises a supporting mechanism, an X/Z axis two-dimensional adjusting frame, an output head fixing mechanism, a microscope and a microscope adjusting mechanism, wherein the X/Z axis two-dimensional adjusting frame and the microscope adjusting mechanism are arranged on a base; the X/Z axis two-dimensional adjusting frame is used for adjusting the position of the output head fixing mechanism to enable the output head to be aligned with the microscope; the microscope is arranged on the microscope adjusting mechanism, and the microscope adjusting mechanism is used for adjusting the distance between the microscope and the output head. The utility model adjusts the fiber end face of the output head through the X, Y, Z shaft and is connected with a computer through a microscope, so that the fiber end face can be observed on the computer, the aim of checking and cleaning the end face can be achieved more conveniently and rapidly, and meanwhile, the output head is fixed, the adjusting process is simple to operate, and the cost is low.

Description

Platform for inspecting lens end face of output head

Technical Field

The utility model relates to a platform for inspecting the lens end surface of an output head.

Background

For guaranteeing that the laser instrument can be stable for a long time, the stability of better assurance QBH output head, before being connected to the optical head with the fiber end at every turn, must inspect whether there is dust or dirty fiber end face, if clean unclean, can pollute the quartz column, cause the laser instrument output head to burn out to influence laser power output, influence laser stability. Meanwhile, the maintenance period is long, the maintenance cost is high, and serious economic loss is caused. The existing inspection method is that one hand holds the output head, the output head is placed under a microscope, the positions of the end face of the optical fiber are observed whether to be clean or not through the back-and-forth and left-and-right movement of the hand, if the positions are not clean, the other hand is needed to wipe the end face with an alcohol cotton swab, and the operation mode is time-consuming and labor-consuming.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: the existing method for inspecting the end face of the optical fiber of the output head of the laser is time-consuming and labor-consuming.

In order to solve the problems, the technical scheme of the utility model is to provide a platform for inspecting the lens end surface of an output head, which is characterized in that: the microscope head fixing mechanism is arranged on the X/Z-axis two-dimensional adjusting frame and used for fixing the output head to enable the output head to face the direction of the microscope; the X/Z axis two-dimensional adjusting frame is used for adjusting the position of the output head fixing mechanism to enable the output head to be aligned with the microscope; the microscope is arranged on the microscope adjusting mechanism, and the microscope adjusting mechanism is used for adjusting the distance between the microscope and the output head.

Preferably, the supporting mechanism comprises a base and a foot pad arranged below the base, and the X/Z axis two-dimensional adjusting frame and the microscope adjusting mechanism are arranged on the base.

Preferably, output first fixed establishment includes output first mounting and tightly decides the handle, X/Z axle two dimension alignment jig is connected to output first mounting one end, and the other end is equipped with the fixed orifices, the fixed orifices sets up convex opening, tightly decide the handle and pass the size that the opening adjusted the fixed orifices and then with output first fixed mounting fixed or loosen.

Preferably, microscope adjustment mechanism includes guide rail, guide rail mounting and microscope and adjusts the support, the microscope is established on microscope adjusts the support, and microscope adjusting bracket cover is established on the guide rail and can be slided along the guide rail, and the guide rail mounting is passed through at the both ends of guide rail and is fixed on supporting mechanism.

Preferably, the microscope adjusting bracket is provided with an adjusting nut for adjusting the tightness degree of the microscope adjusting bracket matched with the guide rail.

Preferably, the X/Z axis two-dimensional adjusting frame is fixed on the supporting mechanism through a two-dimensional adjusting frame fixing frame.

Preferably, the microscope is connected with a computer to transmit the microscopic picture to the computer.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the fiber end face of the output head is adjusted through the X, Y, Z shaft, the output head is connected with a computer through a microscope, the fiber end face of the output head and a platform for cleaning the fiber end face are inspected on the computer, the fiber end face is observed on the computer, the purpose of inspecting and cleaning the end face is achieved more conveniently and rapidly, and meanwhile, the output head is fixed, the adjusting process is simple to operate, and the implementation cost is low.

Drawings

Fig. 1 is a schematic diagram of a platform structure for inspecting an end face of a lens of an output head according to the present invention.

Detailed Description

In order to make the utility model more comprehensible, preferred embodiments are described in detail below with reference to the accompanying drawings.

As shown in fig. 1, the platform for inspecting the lens end surface of the output head of the present invention includes a base 1, a foot pad 2, a two-dimensional adjusting bracket fixing frame 3, an X/Z axis two-dimensional adjusting bracket 4, an output head fixing member 5, a fastening handle 6, a guide rail fixing member 7, a guide rail 8, a microscope adjusting bracket 9, and a microscope 10.

One end of the output head fixing part 5 is connected with the X/Z axis two-dimensional adjusting frame 4, the other end of the output head fixing part is provided with a fixing hole, the fixing hole is circular and provided with a convex opening, and the fastening handle 6 penetrates through the opening to adjust the size of the fixing hole so as to fix or loosen the output head 11 and the output head fixing part 5.

Microscope 10 installs on microscope adjusting bracket 9, and microscope adjusting bracket 9 overlaps on guide rail 8 and can slide along guide rail 8, and guide rail 8's both ends are fixed on base 1 through guide rail mounting 7. And an adjusting nut for adjusting the tightness degree of the microscope adjusting bracket 9 matched with the guide rail 8 is arranged on the microscope adjusting bracket 9.

The foot pad 2 is arranged on the base 1 to form a supporting mechanism of the platform. The two-dimensional adjusting frame fixing frame 3, the X/Z axis two-dimensional adjusting frame 4, the output head fixing piece 5 and the tightening handle 6 are assembled together to play a role in adjusting the position of the output head 11 left and right and up and down, and then the two-dimensional adjusting frame fixing frame 3 and the base 1 are fixed. The guide rail fixing piece 7, the guide rail 8, the microscope adjusting bracket 9 and the microscope 10 are assembled together to play a role of adjusting the position of the output head 11 forwards and backwards, then the guide rail fixing piece 7 and the base 1 are fixed, and the microscope 10 is connected with a computer.

The output head is fixed on the X/Z axis two-dimensional adjusting frame, the X/Z axis two-dimensional adjusting frame can be obtained by directly purchasing any X/Z axis two-dimensional adjusting product on the market, the left and right and up and down positions of the optical fiber end face of the output head are adjusted through the X/Z axis two-dimensional adjusting frame, the front and back positions are adjusted through the Y axis of the microscope support, then the microscope is connected with a computer, the optical fiber end face is observed on the computer, and the purpose of checking whether the optical fiber end face is clean or needs to be clean is achieved. The specific working process is as follows:

the end housing of the output stud 11 is inserted into the fixing hole of the output stud fixing member 5, and the tightening handle 6 is rotated to cause the opening of the fixing hole of the output stud fixing member 5 to be narrowed so as to press the output stud 11. A data line of the microscope 10 is connected to a computer, and a Y-axis adjusting nut which is used for adjusting the distance between the microscope 10 and the output head 11 on the microscope adjusting bracket 9 is adjusted to be about the middle position of the guide rail 8; then, the X, Z-axis direction of the X/Z-axis two-dimensional adjusting frame 4 is adjusted until an image of the fiber end face of the output head 11 appears on a computer, and each position of the fiber end face is observed, and if pollution exists, cleaning is needed.

Claims (7)

1. A platform for inspecting the end surface of a lens of an output head is characterized in that: the microscope comprises a supporting mechanism, an X/Z axis two-dimensional adjusting frame (4), an output head fixing mechanism, a microscope (10) and a microscope adjusting mechanism, wherein the X/Z axis two-dimensional adjusting frame (4) and the microscope adjusting mechanism are arranged on the supporting mechanism, and the output head fixing mechanism is arranged on the X/Z axis two-dimensional adjusting frame (4) and is used for fixing an output head (11) so that the output head (11) faces the direction of the microscope (10); the X/Z axis two-dimensional adjusting frame (4) is used for adjusting the position of the output head fixing mechanism to enable the output head (11) to be aligned with the microscope (10); the microscope (10) is arranged on the microscope adjusting mechanism, and the microscope adjusting mechanism is used for adjusting the distance between the microscope (10) and the output head (11).

2. A stage for inspecting the end faces of lenses of an output head as set forth in claim 1, wherein: the supporting mechanism comprises a base (1) and a foot pad (2) arranged below the base (1), and an X/Z axis two-dimensional adjusting frame (4) and a microscope adjusting mechanism are arranged on the base (1).

3. A stage for inspecting the end faces of lenses of an output head as set forth in claim 1, wherein: output head fixed establishment includes output head mounting (5) and tightly decides handle (6), X/Z axle two dimension alignment jig (4) is connected to output head mounting (5) one end, and the other end is equipped with the fixed orifices, the fixed orifices sets up convex opening, tightly decide handle (6) and pass the size that the fixed orifices was adjusted to the opening and then will output head (11) and output head mounting (5) fixed or loosen.

4. A stage for inspecting the end faces of lenses of an output head as set forth in claim 1, wherein: microscope adjustment mechanism includes guide rail (8), guide rail mounting (7) and microscope and adjusts support (9), establish on microscope adjusts support (9) microscope (10), microscope adjusts support (9) cover and establishes on guide rail (8) and can slide along guide rail (8), and guide rail mounting (7) are passed through at the both ends of guide rail (8) and are fixed on supporting mechanism.

5. A stage for inspecting the end faces of lenses of an output head as set forth in claim 4, wherein: and an adjusting nut for adjusting the degree of tightness of the microscope adjusting bracket (9) matched with the guide rail (8) is arranged on the microscope adjusting bracket (9).

6. A stage for inspecting the end faces of lenses of an output head as set forth in claim 1, wherein: the X/Z axis two-dimensional adjusting frame (4) is arranged on the supporting mechanism through a two-dimensional adjusting frame fixing frame (3).

7. A stage for inspecting the end faces of lenses of an output head as set forth in claim 1, wherein: the microscope (10) is connected with a computer to transmit the microscopic picture to the computer.

Images