CN220795549U - Optical fiber jumper wire spare part wire sleeving device - Google Patents

Abstract

The utility model provides an optical fiber jumper wire spare part threading device, which belongs to the technical field of optical fiber processing and comprises the following components: the upper surface of the fixing seat is provided with a threading groove which is arranged along the length direction of the fixing seat; the lifter plate, the level is located the fixing base top, and along vertical and fixing base length direction removal setting, and the spacing groove has been seted up to its lower surface, and the spacing groove is parallel and lie in same vertical face with the threading groove. According to the utility model, the sequential threading of the parts can be completed by only conveying the parts to the preset position and then extending the optical cable into the device, so that the efficiency of the threading of the parts can be remarkably improved.

Description

Optical fiber jumper wire spare part wire sleeving device

Technical Field

The application belongs to the field of optical fiber processing, and particularly relates to an optical fiber jumper wire spare part wire sleeving device.

Background

In the process of processing the optical fiber jumper, after cutting and reeling the optical cable, various parts are required to be sleeved on the optical cable, so that the subsequent working procedures are convenient. When the parts are sleeved into the optical cable, the parts are sequentially provided with a rubber sheath, a heat shrinkage tube, a support tube and a spring, and the direction of the parts should be paid attention to whether the parts are correctly arranged.

Most of existing parts threading modes are manually operated, and the threading mode is low in efficiency, time-consuming and labor-consuming; the other device adopts a mechanical auxiliary threading device, such as a pre-threading device of an optical fiber movable connector disclosed in patent application number CN202122890743.9, which automatically enables all parts to flow to a threading platform through a conveying guide rail, an operator only needs to hold an optical cable on the platform to sequentially thread the optical cable into all parts to complete threading, but a part limiting groove only limits the parts and does not limit the optical cable; the coiled optical cable has a certain degree of curvature, and the optical cable can deviate from a preset linear track when the optical cable is threaded, so that the optical cable needs to be corrected in time when the optical cable is threaded, and the time cost of threading is increased.

Disclosure of utility model

In order to solve the defects of the related prior art, the application provides the optical fiber jumper spare part wire sleeving device, which can complete sequential wire sleeving of spare parts by only conveying the spare parts to a preset position and then extending an optical cable into the device, and can remarkably improve the efficiency of the spare part wire sleeving.

In order to achieve the above object, the present utility model adopts the following technique:

an optical fiber jumper assembly line covering device, comprising:

the upper surface of the fixing seat is provided with a threading groove which is arranged along the length direction of the fixing seat;

The lifter plate, the level is located the fixing base top, and along vertical and fixing base length direction removal setting, and the spacing groove has been seted up to its lower surface, and the spacing groove is parallel and lie in same vertical face with the threading groove.

Further, the upper surface of the fixing seat is vertically rotated to be provided with two lifting studs, two screw holes are vertically formed in the lifting plate in a penetrating mode, and the two lifting studs are respectively arranged in the two screw holes in a penetrating mode and are in threaded fit.

Further, two tracks are arranged on the upper surface of the fixing seat along the length direction of the fixing seat, sliding bars are arranged in the tracks in a sliding fit mode, sliding frames are connected to the upper surface of the sliding bars, rotating motors are vertically arranged at the top ends of the sliding frames, and the driving ends of the rotating motors are connected with the upper ends of the lifting studs.

Furthermore, a plurality of special-shaped grooves are formed in the same end of the wire penetrating groove and the same end of the limiting groove.

The utility model has the beneficial effects that:

1. The optical cable can only move along the straight line by utilizing the threading groove and the limiting groove to limit the optical cable, and the parts are limited by utilizing the special-shaped groove arranged on the threading groove and the limiting groove, so that the optical cable can be sleeved only by extending into the optical cable during working.

2. The lifting plate can move along the vertical direction and the length direction of the fixing seat, so that the placement of the parts before the sleeve wire and the taking out of the finished product after the sleeve wire are more convenient, and the efficiency of the sleeve wire is improved.

Drawings

Fig. 1 is a schematic perspective view of a threading device according to an embodiment of the present application.

Fig. 2 is an exploded view of a slider bar and lifter plate according to an embodiment of the present application.

The marks in the figure: 1-fixing seat, 11-wire penetrating groove, 12-lifting stud, 13-track, 14-sliding bar, 15-sliding frame, 16-rotating motor, 2-lifting plate, 21-limit groove, 22-screw hole and 3-special groove.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, but the described embodiments of the present utility model are some, but not all embodiments of the present utility model.

As shown in fig. 1, the present embodiment provides an optical fiber jumper wire assembly and threading device, which comprises a fixing seat 1 and a lifting plate 2.

Specifically, as shown in fig. 1, the fixing base 1 is in a cuboid shape, a threading groove 11 with a semicircular section is formed in the upper surface of the fixing base 1, the threading groove 11 is arranged along the length direction of the fixing base 1, and two ends of the threading groove 11 penetrate through two ends of the fixing base 1;

specifically, as shown in fig. 1 and 2, the lifting plate 2 is rectangular and plate-shaped, is horizontally arranged above the fixed seat 1, has a length direction parallel to the length direction of the fixed seat 1, has a width matched with the width of the fixed seat 1, and is arranged along the vertical direction and the length direction of the fixed seat 1, the lifting plate 2 is provided with a limiting groove 21 with a semicircular cross section on the lower surface, two ends of the limiting groove 21 are communicated with two ends of the lifting plate 2, the limiting groove 21 is parallel to the threading groove 11 and is positioned on the same vertical surface, and the limiting groove 21 is matched with the threading groove 11, so that an optical cable to be sleeved is limited, and the optical cable always maintains a straight line state when being sleeved.

When the lifting device works, firstly, the lifting plate 2 is lifted, then the lifting plate 2 moves along the length direction of the fixed seat 1, and the lifting plate 2 is ensured not to be positioned right above the threading groove 11 in which the parts are to be placed; the parts are sequentially arranged on the threading groove 11, the lifting plate 2 is moved to compress the parts after the parts are placed, the optical cable stretches into a circular channel formed by the limiting groove 21 and the threading groove 11, the optical cable sequentially passes through the compressed parts, the lifting plate 2 is lifted and moves away from the upper part of the optical cable after the threading is completed, and the optical cable is taken out.

Preferably, as shown in fig. 1 and fig. 2, two lifting studs 12 are vertically rotatably arranged on the upper surface of the fixing base 1, the lifting studs 12 are symmetrically arranged about the wire penetrating groove 11, two screw holes 22 are vertically and rotatably arranged in the lifting plate 2, the two screw holes 22 are symmetrically arranged about the limiting groove 21, and the two lifting studs 12 are respectively arranged in the two screw holes 22 in a penetrating manner and are in threaded fit, so that the lifting plate 2 is driven to vertically displace by the rotation of the lifting studs 12.

Preferably, as shown in fig. 1 and fig. 2, two rails 13 are provided on the upper surface of the fixing base 1 along the length direction thereof, the vertical section of the rails 13 is rectangular, the two rails 13 are symmetrically arranged about the wire through groove 11, rectangular strip-shaped sliding strips 14 are slidably matched in the rails 13, the upper surfaces of the sliding strips 14 are connected with sliding frames 15, the sliding frames 15 are formed by two vertically arranged limiting strips and supporting strips connected with the top ends of the two limiting strips, two ends of the lifting plate 2 are respectively and vertically slidably attached to the two limiting strips, the limiting strips are used for further limiting the swing of the lifting plate 2, and in this example, the sliding strips 14 and the sliding frames 15 can be manually pushed to move along the direction of the rails 13, and besides, the lifting plate can be driven by an air cylinder; the center of the supporting bar at the top end of the sliding frame 15 is vertically provided with a rotating motor 16 and a through hole, the driving end of the rotating motor 16 penetrates through the through hole and is connected with the upper end of the lifting stud 12 for driving the lifting stud 12 to rotate, and further preferably, the lifting stud 12 can be driven by using a gear fit or a toothed chain fit and other mechanical fit structures, and can be driven manually, so that the threading device does not need power supply, but the threading efficiency is reduced.

Preferably, as shown in fig. 1 and fig. 2, the same end of the threading groove 11 and the limiting groove 21 is provided with a plurality of special-shaped grooves 3, the special-shaped grooves 3 are matched with the parts to be sheathed, and are used for limiting the displacement of the parts along the length direction of the fixing seat 1 and avoiding the parts from moving along with the optical cable during wire sheathing.

When the lifting device works, the rotating motor 16 is started, the rotating motor 16 drives the lifting stud 12 to rotate, and then the lifting plate 2 is driven to vertically move; after the lifting plate 2 is lifted to a preset position, the sliding frame 15 is pushed to enable the sliding frame 14 to move along the direction of the track 2, so that the lifting plate 2 is separated from the position right above the special-shaped groove 3; corresponding parts are placed in the special-shaped groove 3 in sequence, and after the placement is finished, the lifting plate 2 is moved, so that the threading groove 11 is combined with the limiting groove 21, and the movement of the parts along the length direction of the fixed seat 1 is limited; at this time, the optical cable stretches into the port where the threading groove 11 and the limiting groove 21 are combined, the optical cable sequentially passes through the parts, the lifting plate 2 is removed after the threading is finished, and the optical cable with the threading finished is taken out.

The above description is only of the preferred embodiments of the present application and is not intended to limit the application, and it will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the spirit and scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (4)

1. An optical fiber jumper assembly line sleeving device, comprising:

The upper surface of the fixing seat (1) is provided with a threading groove (11), and the threading groove (11) is arranged along the length direction of the fixing seat (1);

lifting plate (2), the level is located fixing base (1) top, and along vertical and fixing base (1) length direction removal setting, limit groove (21) has been seted up to its lower surface, and limit groove (21) are parallel and lie in same vertical face with threading groove (11).

2. The optical fiber jumper wire spare part threading device according to claim 1, wherein the upper surface of the fixing seat (1) is vertically rotatably provided with two lifting studs (12), two screw holes (22) are vertically formed in the lifting plate (2) in a penetrating mode, and the two lifting studs (12) are respectively arranged in the two screw holes (22) in a penetrating mode and are in threaded fit.

3. The optical fiber jumper wire spare part threading device according to claim 2, characterized in that two tracks (13) are arranged on the upper surface of the fixing seat (1) along the length direction of the fixing seat, sliding strips (14) are slidably matched in the tracks (13), sliding frames (15) are connected to the upper surfaces of the sliding strips (14), rotating motors (16) are vertically arranged at the top ends of the sliding frames (15), and the driving ends of the rotating motors (16) are connected with the upper ends of lifting studs (12).

4. The optical fiber jumper wire spare part threading device according to claim 1, wherein a plurality of special-shaped grooves (3) are formed in the same end of the threading groove (11) and the limiting groove (21).