CN215357345U - Grooving device for optical fiber array substrate - Google Patents

Abstract

The utility model discloses a grooving device for an optical fiber array substrate, which comprises a supporting plate, wherein supporting rods are vertically connected at four corners above the supporting plate, a top plate is connected above the four supporting rods, a first driving piece is vertically connected on the top plate, a driving rod of the first driving piece downwards penetrates through the top plate, a pressing piece is connected below the driving rod of the first driving piece, a fixing plate is connected to one side of the supporting plate, a second driving piece is connected on the fixing plate, and a grooving cutter is connected on the driving rod of the second driving piece. The utility model has the advantages that: this device fixes a position array substrate through two locating plates, then starts first driving piece and drives to compress tightly the piece and compress tightly array substrate downwards, drives the cutting tool through the second driving piece at last and carries out the cutting to array substrate, and the cutting is effectual.

Description

Grooving device for optical fiber array substrate

Technical Field

The utility model relates to the technical field of optical fiber array substrates, in particular to a grooving device for an optical fiber array substrate.

Background

When a conventional optical fiber array substrate is grooved, the optical fiber array substrate needs to be fixed and then grooved on the substrate by using a cutter, the optical fiber array substrate is unstable in fixation in the production process, the V-groove deviation is often caused, and the V-groove precision and uniformity are reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a grooving device for an optical fiber array substrate.

In order to achieve the purpose, the utility model adopts the following technical scheme: a notching device for an optical fiber array substrate is characterized in that: including the backup pad, at the equal vertical joint support pole of four corners in the top of backup pad, connect the roof in the top of four bracing pieces, vertical connection first driving piece on the roof, the actuating lever of first driving piece passes downwards the roof is connected in the actuating lever below of first driving piece and is compressed tightly the piece, connects the fixed plate in one side of backup pad, connects the second driving piece on the fixed plate, connects the cutting tool of carving groove on the actuating lever of second driving piece.

Preferably, the fixing plate is connected with two positioning plates, the two top plates are oppositely arranged, and the distance between the two positioning plates is the same as the width of the array substrate.

Preferably, one end, far away from the grooving tool, of each positioning plate is connected with a guide plate, each guide plate is obliquely arranged, and the two guide plates form a V-shaped channel.

Preferably, the pressing piece comprises a flat plate, one side of the lower portion of the flat plate is connected with a pressing plate, the pressing plate is a stepped plate, and the other side of the lower portion of the flat plate is connected with a limiting plate through an elastic connecting piece.

Preferably, elastic connection spare includes two square posts, and two square posts are all connected on the limiting plate, all cup joint square pipe on every square post, and square union coupling is in dull and stereotyped below side all connects the spring at the top of every square post, and every spring all sets up square intraductally, and the upper end of every spring all connects correspondingly top in the square intraductal.

The utility model has the advantages that: according to the grooving device for the optical fiber array substrate, the array substrate is positioned through the two positioning plates, then the first driving piece is started to drive the pressing piece to press the array substrate downwards, the array substrate can be prevented from shaking during grooving, the efficiency is high, and the grooving effect is good.

Drawings

FIG. 1 is a schematic structural diagram of a grooving apparatus for an optical fiber array substrate according to the present invention;

FIG. 2 is a schematic view of the structure of the elastic connection member;

fig. 3 is a schematic diagram of the use of the device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

As shown in fig. 1, the notching device for an optical fiber array substrate provided by the present invention includes a supporting plate 1, two positioning plates 1.1 are welded on the supporting plate 1, the two positioning plates 1.1 are oppositely arranged, the distance between the two positioning plates 1.1 is the same as the width of the array substrate, and the array substrate is placed between the two positioning plates 1.1.

Keep away from at every locating plate 1.1 deflector 1.2 is all welded to the one end of grooving cutter 8, and every deflector 1.2 all inclines to set up, and two deflectors 1.2 form V type passageway, and the less one end opening of V type passageway is towards two locating plates 1.1.

At the equal vertical welding support pole 2 of four corners in backup pad 1's top, weld roof 3 in the top of four bracing pieces 2, through bolt fastening first drive piece 4 on roof 3, first drive piece 4 is the hydro-cylinder in this embodiment, and the actuating lever of first drive piece 4 passes downwards roof 3 connects in the actuating lever below of first drive piece 4 and compresses tightly a 5, compress tightly a 5 and include dull and stereotyped 5.1, dull and stereotyped 5.1 is connected the actuating lever below of first drive piece 4, connects clamp plate 5.2 in dull and stereotyped 5.1 below one side, and clamp plate 5.2 compresses tightly the array substrate, and clamp plate 5.2 is the ladder board, can be better compress tightly the array substrate.

Connect limiting plate 5.4 at dull and stereotyped 5.1's below opposite side through elastic connection spare 5.3, as shown in fig. 2, elastic connection spare 5.3 includes two square posts 5.5, and two square posts 5.5 all weld on limiting plate 5.4, all cup joint square pipe 5.6 on every square post 5.5, and square pipe 5.6 welds in dull and stereotyped 5.1's below side, at the equal welded spring 5.7 in every square post 5.5's top, and every spring 5.7 all sets up in the square pipe 5.6, and the upper end of every spring 5.7 all welds correspondingly top in the square pipe 5.6.

Before the array substrate enters between two locating plates 1.1, limiting plate 5.4 is in the front end of two locating plates 1.1, forms a U-shaped frame, makes the array substrate enter into in the U-shaped frame, then starts first driving piece 4 and drives dull and stereotyped 5.1 and descend to drive clamp plate 5.2 and compress tightly the array substrate downwards, at the in-process that dull and stereotyped 5.1 descends, spring 5.7 compresses, makes square pipe 5.6 downstream moreover.

Fixing plate 6 is welded on one side of backup pad 1, the base is welded on fixing plate 6, through bolt fastening second driving piece 7 on the base, second driving piece 7 is the hydro-cylinder in this embodiment, connects grooving cutter 8 on the actuating lever of second driving piece 7, and grooving cutter 8 is current cutter, can carry out the grooving to the array substrate, and the length of grooving cutter 8 is less than the distance between two square posts 5.5, makes grooving cutter 8 can pass through smoothly.

As shown in figure 3, the device is used in cooperation with a conveying belt 9, when the device is installed, a supporting plate 1 is welded at the output end of the conveying belt 9, in order to enable the connection between the supporting plate 1 and the conveying belt 9 to be more stable, two reinforcing rods 1.4 are also welded between the supporting plate 1 and the conveying belt 9, a connecting plate 1.3 is welded at one side, close to the conveying belt 9, of the supporting plate 1, the gap between the supporting plate 1 and the conveying belt 9 is filled, after the device is installed, an array substrate is placed on the conveying belt 9 as shown in the figure, the array substrate is driven to move forwards under the conveying of the conveying belt 9, the array substrate enters between two positioning plates 1.1, under the limiting of the limiting plates 5.4, the array substrate stops moving, then a first driving part 4 is started to drive a pressing plate 5.2 to compress the array substrate, then a second driving part 7 is started to drive a grooving cutter 8 to groove the array substrate, in the process, the array substrate is tightly pressed by the pressing plate 5.2, so that the array substrate cannot shake during groove carving.

Claims (5)

1. A notching device for an optical fiber array substrate is characterized in that: including backup pad (1), at the equal vertical joint support pole (2) of four corners in the top of backup pad (1), connect roof (3) in the top of four bracing pieces (2), vertical connection first driving piece (4) on roof (3), the actuating lever of first driving piece (4) passes downwards roof (3) connect in the actuating lever below of first driving piece (4) and compress tightly piece (5), connect fixed plate (6) in one side of backup pad (1), connect second driving piece (7) on fixed plate (6), connect cutting tool (8) of cutting into grooves on the actuating lever of second driving piece (7).

2. The grooving apparatus for an optical fiber array substrate according to claim 1, wherein: two locating plates (1.1) are connected on the supporting plate (1), the two locating plates (1.1) are arranged oppositely, and the distance between the two locating plates (1.1) is the same as the width of the array substrate.

3. The grooving apparatus for an optical fiber array substrate according to claim 2, wherein: every locating plate (1.1) is kept away from guide plate (1.2) is all connected to the one end of grooving cutter (8), and every guide plate (1.2) all inclines to set up, and two guide plates (1.2) form V type passageway.

4. The grooving apparatus for an optical fiber array substrate according to claim 1, wherein: compressing tightly piece (5) including dull and stereotyped (5.1), connecting clamp plate (5.2) in below one side of dull and stereotyped (5.1), clamp plate (5.2) are the step board, pass through elastic connection spare (5.3) at the below opposite side of dull and stereotyped (5.1) and connect limiting plate (5.4).

5. The grooving apparatus for an optical fiber array substrate according to claim 4, wherein: elastic connector (5.3) include two square post (5.5), and two square post (5.5) are all connected on limiting plate (5.4), all cup joint square pipe (5.6) on every square post (5.5), and square pipe (5.6) are connected the below side of flat board (5.1), at the top of every square post (5.5) equal coupling spring (5.7), every spring (5.7) all set up in square pipe (5.6), and the upper end of every spring (5.7) all is connected correspondingly top in square pipe (5.6).

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