CN116533106A - Detector optical fiber polishing mechanism - Google Patents

Abstract

The invention relates to a detector optical fiber polishing mechanism, which includes a frame. The frame is provided with a polishing device and lifting structures on both sides of the polishing device. A loading installation block is connected between the two lifting structures. A loading plate is installed on the loading installation block, and the loading plate and the loading installation block are opened so that the lower part of the stepped optical fiber installation block passes through the loading groove, and the part of the loading board installed with the loading installation block is in the grinding state. Directly above the device, at least two vibration sensors are provided on the lower surface of the loading plate, and the frame is also provided with a lifting drive structure connected with the loading plate and driving the lifting of the loading plate; the purpose of the present invention is to provide A detector optical fiber grinding mechanism, which is equipped with a lifting drive structure for the lifting structure, and a vibration sensor is installed under the structure of the lifting structure for installing the loading plate, so that the smooth decline of the optical fiber module can be realized, and then the precision of the wave-shifting optical fiber can be realized. polished.

Description

A detector optical fiber polishing mechanism

technical field

The invention relates to the technical field of detector optical fiber polishing, in particular to a detector optical fiber polishing mechanism.

Background technique

China's spallation neutron source detectors include scintillator detectors, and the important parts of scintillation screen detectors are optical fiber modules and scintillation screens. The optical fiber module is a structure that makes the optical fiber present a specific shape. It generally includes three parts. The optical fiber installation frame 6 for winding the optical fiber, the optical fiber 5 (wave-shifting optical fiber) and a plurality of stepped optical fiber installation blocks 28 for fixing the lower part of the optical fiber 5, the center of the optical fiber installation block 28 is provided with a card hole for passing through the optical fiber, The stepped upper part of the optical fiber installation block 28 is a large block, and the two ends of the large block are provided with mounting holes for installation. In Fig. 2, for better expression, only a few optical fibers 5 are shown, but there are actually hundreds of optical fibers Bypass the optical fiber installation frame 6, then pass through the optical fiber installation block 28 in groups, and realize the support of the optical fiber installation frame 6 by hundreds of optical fibers; after completing the assembly of the optical fiber module, the optical fiber passing through the optical fiber installation block 28 needs to be polished Keep all the ends of the optical fibers flush. For the end of the wave-shifting optical fiber, the requirements are higher than that of other parts. In the process of grinding, the patent number CN202211243875.5 records the The polishing method, which also records a polishing structure of an optical fiber module, however, the optical fiber module described in the above document is a simple module, which only includes two optical fiber installation blocks, and uses its own weight as a power source to realize the optical fiber module. However, the optical fiber module of this application is more complex than the reference file, consisting of hundreds of optical fibers, and requires multiple fiber installation blocks, so its own gravity is large, and the use of the comparison file to lower and polish will cause a drop If it is too fast, it will affect the polishing effect of the optical fiber module.

Contents of the invention

The purpose of the present invention is to provide a detector optical fiber polishing mechanism, which is equipped with a lifting drive structure for the lifting structure, and a vibration sensor is arranged under the structure of the lifting structure for installing the loading plate, so that the smooth decline of the optical fiber module can be realized, and then Realize precise grinding of wave-shifting optical fiber.

In order to achieve the above objectives, the technical solution adopted by the present invention is: a detector optical fiber polishing mechanism, including a frame, and the frame is provided with a polishing device and lifting structures on both sides of the polishing device, and the two lifting structures A loading installation block is connected between them, and a loading plate is installed on the loading installation block, and there are openings on the loading plate and the loading installation block so that the lower part of the stepped optical fiber installation block passes through the loading groove, and the loading The part where the board is installed with the material-loading installation block is directly above the grinding device, and at least two vibration sensors are arranged on the lower surface of the material-loading plate. Lifting drive structure.

Preferably, the lifting structure includes a lifting frame arranged on the frame, and the lifting frame is provided with vertical lifting guide rails, and the lifting guide rails are equipped with lifting sliders, and the lifting sliders A lifting support block is connected, and the loading installation block is arranged on the lifting support block.

Preferably, the lifting support block is connected to the loading installation block through damping springs, and each lifting support block is provided with no less than two damping springs.

Preferably, the lifting drive structure includes a lifting seat arranged on the frame, and the lifting seat is provided with a lifting motor and a lifting screw rod that cooperate with each other, and the lifting screw rod is matched with a lifting connecting plate, and The lifting seat is provided with a lifting guide rod that penetrates the lifting connecting plate and guides the lifting connecting plate, and the lifting connecting plate is connected with the loading installation block.

Preferably, the end of the lifting connecting plate close to the loading installation block is provided with a matching port for matching with the loading area on the loading plate, and the lifting connecting plate presses the loading plate and is locked on the loading installation block by bolts. on the block.

Preferably, the grinding device includes a grinding drive structure arranged on the frame, the turntable of the grinding drive structure is sleeved with a grinding installation sleeve, and a grinding installation disc is fixed on the grinding installation sleeve, and the grinding installation disc A grinding block is installed on the top, and the grinding installation disc and the turntable of the grinding drive structure are provided with matching grinding installation holes, and are locked by bolts, and the outside of the part of the grinding installation disc provided with the grinding installation holes is a plane.

Technical effect of the present invention is:

1. The lifting structure is equipped with a lifting drive structure, and a vibration sensor is installed under the structure of the lifting structure for installing the loading plate, so that the smooth decline of the optical fiber module can be realized, and then the precise grinding of the wave-shifting optical fiber can be realized.

2. The lifting structure cooperates with the design of the damping spring, which can avoid large-scale vibration during the lifting process, and further realize the smooth decline of the optical fiber module.

3. The lifting drive structure uses the motor to cooperate with the screw rod to realize the lifting of the lifting connecting plate. During the descending process, the lifting speed of the lifting connecting plate can be controlled by the speed of the motor, thereby preventing the rapid decline of the loading plate along the lifting guide rail due to gravity, and further The flatness of the polished optical fiber can be ensured.

4. The matching port on the lifting connecting plate and the installation structure design of the lifting connecting plate can make the lifting connecting plate directly act on the loading mounting block, and make the force evenly distributed, and at the same time facilitate the overall disassembly of the loading plate.

5. The structure design of the grinding device, through the structure of the grinding installation sleeve and the bolt, the grinding installation disc is installed on the turntable, and the power required for optical fiber grinding is small, so that a large-scale optical fiber grinding can be achieved by using a grinding device with a small power specification. Compared with the large turntable type grinding device, energy is saved, and it is also convenient for the overall replacement of the grinding installation disc and the grinding block.

Description of drawings

FIG. 1 is a perspective schematic diagram of a detector optical fiber polishing mechanism.

FIG. 2 is a schematic perspective view of FIG. 1 with the frame removed.

FIG. 3 is a three-dimensional schematic view of FIG. 2 without the optical fiber installation frame and the optical fiber.

FIG. 4 is a schematic perspective view of the structure shown in FIG. 3 from a second viewing angle.

Fig. 5 is a three-dimensional schematic view of the lifting structure in a top view.

Fig. 6 is a three-dimensional schematic view of the lifting structure viewed from below.

Fig. 7 is a three-dimensional schematic diagram of a grinding device.

Fig. 8 is a three-dimensional schematic view of the grinding installation sleeve and the grinding installation disc.

The text labels shown in the figure are: 1. Frame; 2. Grinding device; 3. Lifting structure; 4. Loading structure; 5. Optical fiber; 6. Optical fiber mounting frame; 7. Lifting drive structure; 8. Lifting connection plate; 11, grinding drive structure; 12, grinding installation sleeve; 13, grinding installation plate; 14, grinding block; 15, grinding mounting hole; 21, lifting frame; 22, lifting guide rail; 23, lifting slider; 24, lifting Support block; 25, damping spring; 26, loading installation block; 27, loading plate; 28, optical fiber installation block; 29, vibration sensor; 30, lifting seat; 31, lifting motor; 32, lifting screw rod; 33 , Lifting guide rod.

Implementation

In order to enable those skilled in the art to better understand the technical solution of the present invention, the present invention will be described in detail below in conjunction with the accompanying drawings. The description in this part is only exemplary and explanatory, and should not have any limiting effect on the protection scope of the present invention. .

Example 1

As shown in Fig. 1-2 and Fig. 5-6, a detector optical fiber polishing mechanism of the present application includes a frame 1, and the frame 1 is provided with a polishing device 2 and lifting structures on both sides of the polishing device 2 , it is characterized in that a loading installation block 26 is connected between the two lifting structures, and a loading plate 27 is installed on the loading installation block 26, and there are openings on the loading plate 27 and the loading installation block 26. The lower part of the stepped optical fiber installation block 28 passes through the loading groove, and the part where the loading installation block 26 is installed on the loading plate 27 is directly above the polishing device 2, and at least two vibration sensors 29 are arranged on the lower surface of the loading plate 27, The frame 1 is also provided with a lift drive structure 7 which is connected with the loading plate 27 and drives the loading plate 27 up and down.

First also according to needs, it is designed to complete the polishing of the optical fiber twice or three times, the operation of each polishing is basically the same, the difference is the setting of the vibration sensor 29, a threshold is set by the vibration sensor 29, as long as the sensed amplitude reaches the set Threshold, then stop the operation of the grinding device 2 and the lifting drive structure 7. Generally, the first time is preliminary grinding, and the set threshold can be a little higher than the second time. After setting, install all the optical fibers of the optical fiber module. Installed on the loading plate 27, after completing the installation of the optical fiber module, drive the loading plate 27 to descend on the lifting structure through the lifting drive structure 7, and start the polishing device 2 at the same time. As the descent progresses, the optical fiber 5 will touch the polishing Device 2 was polished until it reached the desired state (the lower end surface of the wave-shifting optical fiber was 0.4mm compared to the fiber mounting block), and then the polishing sheet of the polishing device 2 was replaced and then polished for the second time. The polishing blocks used were all For diamond grinding discs, the number of grinding blocks used for the second grinding should be larger.

Example 2

As shown in Figures 1-6, compared with Embodiment 1, the lifting structure and the lifting drive structure are specifically designed, and the lifting structure 3 includes a lifting frame 21 arranged on the frame 1, and the lifting frame 21 A vertical lifting guide rail 22 is arranged on the top, and the lifting guide rail 22 is equipped with a lifting slider 23, and the lifting slider 23 is connected with a lifting support block 24, and the described loading installation block 26 is arranged on the lifting support block 24, the lifting support block 24 is connected to the loading installation block 26 through a vibration damping spring 25, and each lifting support block 24 is provided with no less than two vibration damping springs 25, and the lifting drive structure 7 includes The lifting seat 30 arranged on the frame 1 is provided with a lifting motor 31 and a lifting screw rod 32 that cooperate with each other on the lifting seat 30. The lifting screw rod 32 is equipped with a lifting connecting plate 8, and the lifting seat 30 There is a lifting guide rod 33 that runs through the lifting connecting plate 8 and lifts and guides the lifting connecting plate 8. The lifting connecting plate 8 is connected to the loading installation block 26, and the lifting connecting plate 8 is close to the loading installation block. One end of 26 is provided with a matching port that cooperates with the loading area on the loading plate 27, and the lifting connecting plate 8 presses the loading plate 27 and is locked on the loading installation block 26 by bolts.

Compared with Embodiment 1, this embodiment is mainly the lifting of the loading plate 27. First, the loading installation block 26, the loading plate 27, etc. will follow the lifting slider 23 along the lifting guide rail 22 in the case of no lifting drive structure. Falling down, because the optical fiber module is composed of hundreds of optical fibers, its gravity is large, so the falling speed is fast under the action of gravity, and the lifting drive structure pulls the loading installation block 26 through the lifting connecting plate 8 to avoid the falling speed In this way, the lifting screw 32 can be driven by the lifting motor 31 to rotate, so that the lifting connecting plate 8 is lowered along the lifting guide rod 33, and then the pulled loading installation block 26 is lowered synchronously. The vibration damping spring 25 can play a good vibration damping effect and avoid alarms caused by excessive vibration amplitude. By controlling the speed of the lifting motor 31, the overall decline of the loading installation block 26, the loading plate 27 and the actual optical fiber module can be controlled. Speed, to ensure the precision of optical fiber polishing and the flatness of the end face after polishing.

Example 3

As shown in Figures 1-2 and Figures 7-8, compared with Embodiment 1 or 2, the structure of the grinding device is limited, and the grinding device 2 includes a grinding drive structure 11 arranged on the frame 1. The turntable of the grinding drive structure 11 is sleeved with a grinding installation sleeve 12, and the grinding installation sleeve 12 is fixed with a grinding installation disc 13, and a grinding block 14 is installed on the grinding installation disc 13, and the grinding installation disc 13 and the grinding The turntable of the driving structure 11 is provided with matching grinding installation holes 15, and is locked by bolts, and the outside of the position where the grinding installation disk 13 is provided with the grinding installation holes 15 is a plane.

This embodiment is mainly designed to cooperate with multiple grindings. The core of multiple grindings is to replace different grinding blocks 14, and the grinding blocks 14 are not impossible to damage. In this embodiment, the grinding mounting plate 13, The overall replacement of the grinding installation sleeve 12 and the grinding block 14 does not need to remove the grinding block 14 separately, thereby improving the efficiency of replacement, and avoiding the situation that the grinding block 14 is installed unevenly after multiple replacements and installations.

It should be noted that, in this document, the terms "comprising", "comprising" or any other variation thereof are intended to cover a non-exclusive inclusion such that a process, method, article or apparatus comprising a set of elements includes not only those elements, It also includes other elements not expressly listed, or elements inherent in the process, method, article, or apparatus.

In this paper, specific examples are used to illustrate the principle and implementation of the present invention. The description of the above examples is only used to help understand the method and core idea of the present invention. The above is only a preferred embodiment of the present invention. It should be pointed out that due to the limitation of literal expression, there are objectively unlimited specific structures. Under these circumstances, several improvements, modifications or changes can also be made, and the above-mentioned technical features can also be combined in an appropriate manner; these improvements, modifications, or combinations, or the idea and technical solution of the invention can be directly applied to other occasions without improvement should be regarded as the protection scope of the present invention.

Claims (6)

1. A detector optical fiber polishing mechanism, comprising a frame (1), the frame (1) is provided with a polishing device (2) and lifting structures on both sides of the polishing device (2), characterized in that, A loading installation block (26) is connected between the two lifting structures, and a loading board (27) is installed on the loading installation block (26), and the loading board (27) and the loading installation block (26) ) is provided so that the lower part of the stepped optical fiber installation block (28) passes through the loading groove, and the part of the loading installation block (26) on the loading plate (27) is directly above the polishing device (2). (27) At least two vibration sensors (29) are provided on the lower surface, and the frame (1) is also provided with a lifting drive structure connected with the loading plate (27) and driving the loading plate (27) up and down (7). 2. A detector optical fiber polishing mechanism according to claim 1, characterized in that, the lifting structure (3) includes a lifting frame (21) arranged on the frame (1), and the lifting frame (21) is provided with a vertical lifting guide rail (22), the lifting guide rail (22) is equipped with a lifting slider (23), and the lifting slider (23) is connected with a lifting support block (24) , the loading installation block (26) is set on the lifting support block (24). 3. A detector optical fiber polishing mechanism according to claim 2, characterized in that, the lifting support block (24) is connected to the loading mounting block (26) through a damping spring (25), and each The lifting support block (24) is provided with no less than two damping springs (25). 4. A detector optical fiber polishing mechanism according to claim 3, characterized in that, the lifting drive structure (7) includes a lifting seat (30) arranged on the frame (1), and the lifting The seat (30) is provided with a lifting motor (31) and a lifting screw rod (32) that cooperate with each other. The lifting screw rod (32) is matched with a lifting connecting plate (8), and the lifting seat (30) is provided with A lifting guide rod (33) that passes through the lifting connecting plate (8) and lifts and guides the lifting connecting plate (8), and the lifting connecting plate (8) is connected with the loading installation block (26). 5. A detector optical fiber polishing mechanism according to claim 4, characterized in that, one end of the lifting connecting plate (8) close to the loading installation block (26) is provided with a connection with the loading plate (27) The matching port matched with the material loading area, and the lifting connecting plate (8) presses the loading plate (27) and is locked on the loading installation block (26) by bolts. 6. A detector optical fiber polishing mechanism according to any one of claims 1-5, characterized in that, the polishing device (2) includes a polishing drive structure (11) arranged on the frame (1) , the turntable of the grinding drive structure (11) is sleeved with a grinding installation sleeve (12), the grinding installation sleeve (12) is fixed with a grinding installation disc (13), and the grinding installation disc (13) is equipped with The grinding block (14), the grinding installation disc (13) and the turntable of the grinding drive structure (11) are provided with matching grinding installation holes (15), and are locked by bolts, and the grinding installation disc (13) is provided with The outside of the part where the mounting hole (15) is ground is flat.