CN217222237U - Adjustable jig for multi-core optical cable branch solidification - Google Patents

Abstract

The utility model provides a tool with adjustable be used for multicore optical cable branch solidification, one side of horizontal curing oven is provided with single cable end optical cable and places the subassembly, and the opposite side is provided with many optical cable end optical cable and places the subassembly, single cable end optical cable place the subassembly with many optical cable end optical cable is placed and is provided with the heating solidification subassembly between the subassembly for place the spliter and the encapsulating solidifies, single cable end optical cable is placed the subassembly and is placed board, optical cable by single cable end optical cable and place the board grudging post and the optical cable is pressed to buckle and is constituteed, the optical cable is placed the board grudging post and is installed on the horizontal curing oven, single cable end optical cable is placed the board and is installed on the board grudging post is placed to the optical cable, the utility model discloses it is very convenient to use, consequently, has very big use value and economic value.

Description

Adjustable jig for multi-core optical cable branch solidification

Technical Field

The utility model relates to an optical cable connector and assembly structure technical field especially relate to a tool with adjustable be used for solidification of multicore optical cable branch.

Background

In the production of some optical cable products in the optical communication manufacturing industry at the present stage, N optical cable products need to be led out from one end, the optical cable products are commonly called as branch optical cables in the industry, a splitter (similar to a branch box) needs to be added in the middle, a thicker optical cable is fixed at one end, a thinner optical cable with the required branch quantity is fixed at the other end, the splitter is placed in a heating groove of a curing furnace after the fixing is finished, and then curing glue is filled into the splitter to heat and fix the optical cables at the two ends. The size of the splitter is not uniform due to the different number of the branched optical cables. Curing of the branches is not satisfied with only one width of the curing slot. The product with too wide curing groove will be warped and twisted, resulting in defective products. Too narrow a curing tank splitter cannot be put in and cannot be produced.

The prior multi-core branch curing method has the following defects:

a. in order to ensure that the branching device does not tilt and turn, a heavy object is required to be pressed on the branching device. The weight sometimes blocks the pouring of the curing glue of the splitter.

b. The optical fiber of the optical cable in the front branch of the weight is twisted off.

In conclusion, many problems of multi-core branch curing can be easily found, staff at a multi-core branch curing station can not press a heavy object in place, the glue filling amount is insufficient, and the finished optical cable and the splitter are twisted, so that the problems need to be further improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a use convenient, work efficiency is high, effectively avoid the adjustable tool that is used for multicore optical cable branch solidification that defective products produced.

The utility model discloses a solve the technical scheme that above-mentioned problem adopted and do:

the utility model provides a tool with adjustable be used for multicore optical cable branch solidification, including horizontal curing oven, one side of horizontal curing oven is provided with single cable end optical cable and places the subassembly, and the opposite side is provided with many optical cable end optical cable and places the subassembly, single cable end optical cable place the subassembly with many optical cable end optical cable is placed and is provided with the heating solidification subassembly between the subassembly for place spliter and encapsulating and solidify, single cable end optical cable is placed the subassembly and is placed the board by single cable end optical cable, the board grudging post is placed to the optical cable and optical cable is pressed to buckle and is constituteed, the board grudging post is placed to the optical cable and installs on the horizontal curing oven, single cable end optical cable is placed the board and is installed the optical cable is placed on the board grudging post, the optical cable is pressed to buckle and is installed single cable end optical cable is placed on the board.

Furthermore, a plurality of clamping grooves and clamping blocks are arranged on the single-cable-end optical cable placing plate, and the optical cable is fixed on the clamping blocks in a pressing and buckling mode.

Further, the subassembly is placed to multi-cable end optical cable places the board by multi-cable end clamp plate, clamp plate connecting block and multi-cable end optical cable and constitutes, place on the board is placed to multi-cable end optical cable the multi-cable end clamp plate, the one end that the board was placed to multi-cable end optical cable is provided with the fixed position, install on the fixed position the clamp plate connecting block, be provided with the fixed hole site on clamp plate connecting block and the multi-cable end clamp plate that still, the one end of multi-cable end clamp plate be provided with clamp plate connecting block matched with bayonet socket position, through bayonet socket position with the clamp plate connecting block the multi-cable end clamp plate is installed on the board is placed to multi-cable end optical cable.

Furthermore, a plurality of fixing grooves and fixing blocks are arranged on the multi-cable-end optical cable placing plate at intervals.

Further, the heating curing assembly is composed of a heating inner plate and a heating adjustable outer plate, a sliding groove and an outer plate clamping position are arranged at the bottom of the heating adjustable outer plate, the heating inner plate is installed in the sliding groove and slides along the sliding groove, and the outer plate clamping position is arranged above the heating inner plate.

Furthermore, an inner plate clamping position is arranged on the heating inner plate.

Furthermore, one end of the heating adjustable outer plate is provided with a positioning pin, and the distance between the inner plate clamping position and the outer plate clamping position is adjusted through the positioning pin.

Furthermore, inner plate pressing pins are arranged at two ends of the heating inner plate and used for positioning the heating inner plate.

The beneficial effects of the utility model reside in that:

the utility model provides a tool with adjustable be used for multicore optical cable branch solidification has the advantage that uses convenient, work efficiency is high, effectively avoid the defective products to produce through unique structural design, and this application makes both ends optical cable and splitter location on a parallel plane in the use, stops the defective products that twist reverse the production each other. Meanwhile, the branching devices with different sizes can be produced on one device, and the use is very convenient, so that the branching device has great use value and economic value.

Drawings

FIG. 1 is a drawing of an adjustable jig structure for multi-core optical cable branch curing according to the present invention;

FIG. 2 is another structural diagram of the adjustable fixture for multi-core optical cable branch curing according to the present invention;

fig. 3 is a third schematic structural view of the adjustable jig for multi-core optical cable branch curing of the present invention;

fig. 4 is a structural diagram of an optical cable placing plate at the end of an adjustable jig single optical cable for multi-core optical cable branch curing of the utility model;

fig. 5 is a structural diagram of a multi-optical cable end pressing plate of the adjustable jig for multi-optical cable branch curing of the present invention;

fig. 6 is a structural diagram of a multi-cable-end optical cable placing plate of the adjustable jig for multi-core optical cable branch curing of the present invention;

fig. 7 is a schematic structural view of the heating adjustable outer plate of the adjustable jig for multi-core optical cable branch curing of the present invention;

fig. 8 is a side view of a heated adjustable outer plate of the adjustable jig for multi-core optical cable branch curing of the present invention;

FIG. 9 is a structural diagram of a heating inner plate of the adjustable jig for multi-core optical cable branch curing of the present invention;

fig. 10 is a side view of the heating inner plate of the adjustable jig for multi-core optical cable branch curing of the present invention.

Detailed Description

The following embodiments of the present invention will be specifically explained with reference to the accompanying drawings, which are only used for reference and illustration, and do not limit the scope of the present invention.

As shown in fig. 1-10, the utility model provides an adjustable jig for multi-core optical cable branch curing, which comprises a horizontal curing oven 1, one side of the horizontal curing furnace 1 is provided with a single-cable-end optical cable placing component 2, the other side is provided with a multi-cable-end optical cable placing component 3, a heating and curing component 4 is arranged between the single-cable-end optical cable placing component 2 and the multi-cable-end optical cable placing component 3, used for placing a splitter and pouring glue for curing, the single-cable-end optical cable placing component 2 consists of a single-cable-end optical cable placing plate 5, an optical cable placing plate vertical frame 6 and an optical cable pressing buckle 7, the optical cable placing plate vertical frame 6 is installed on the horizontal curing oven 1, the single-optical-cable-end optical cable placing plate 5 is installed on the optical cable placing plate vertical frame 6, and the optical cable pressing buckle 7 is installed on the single-optical-cable-end optical cable placing plate 5.

In this embodiment, the optical cable placing plate 5 at the single optical cable end is provided with a plurality of clamping grooves 51 and clamping blocks 52, and the optical cable press fastener 7 is fixed on the clamping blocks 52.

In this embodiment, the multi-cable-end optical cable placing assembly 3 includes a multi-cable-end pressing plate 31, a pressing plate connecting block 32, and a multi-cable-end optical cable placing plate 33, the multi-cable-end pressing plate 31 is placed on the multi-cable-end optical cable placing plate 33, a fixing position 34 is disposed at one end of the multi-cable-end optical cable placing plate 33, the pressing plate connecting block 32 is mounted on the fixing position 34, fixing hole positions 35 are disposed on the pressing plate connecting block 32 and the multi-cable-end pressing plate 31, a bayonet position 36 matched with the pressing plate connecting block 32 is disposed at one end of the multi-cable-end pressing plate 31, and the multi-cable-end pressing plate 31 is mounted on the multi-cable-end optical cable placing plate 33 through the bayonet position 36 and the pressing plate connecting block 32.

In this embodiment, the multi-cable-end optical cable placing plate 33 is provided with a plurality of fixing grooves 331 and fixing blocks 332 at intervals.

In this embodiment, the heating and curing assembly 4 is composed of a heating inner plate 8 and a heating adjustable outer plate 9, the bottom of the heating adjustable outer plate 9 is provided with a chute 91 and an outer plate clamping position 92, the heating inner plate 8 is installed in the chute 91 and slides along the chute 91, and the outer plate clamping position 92 is arranged above the heating inner plate 8.

In this embodiment, the inner heating plate 8 is provided with an inner plate detent 81.

In this embodiment, one end of the heating adjustable outer plate 9 is provided with a positioning pin 93, and the distance between the inner plate position lock 81 and the outer plate position lock 92 is adjusted by the positioning pin 93.

In this embodiment, inner plate pressing pins (not shown) are disposed at two ends of the inner heating plate 8 for positioning the inner heating plate 8.

During use, the heating and curing assembly corresponds to the size of the splitter to be produced currently, the heating adjustable outer plate is adjusted to form a corresponding groove width with the heating inner plate, and the single cable end is pressed and buckled on the single cable end optical cable placing plate through the optical cable during production. The splitter is placed in the heating plate that has adjusted the groove width, and the board is placed on to the multi-cable end optical cable is placed with the multi-cable end clamp plate to multi-cable end optical cable, begins to glue the splitter after accomplishing above-mentioned process, opens the curing oven afterwards and begins the heating, and this application increases the stability of manufacturing through the fixed positioning to each position of product, can produce multiple type branch product through heating groove width size.

The utility model provides a tool with adjustable be used for multicore optical cable branch solidification has the advantage that uses convenient, work efficiency is high, effectively avoid the defective products to produce through unique structural design, and this application makes both ends optical cable and spliter location on a parallel plane in the use, stops the defective products that twists reverse the production each other. Meanwhile, the branching devices with different sizes can be produced on one device, and the use is very convenient, so that the branching device has great use value and economic value.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (8)

1. A tool with adjustable be used for multicore optical cable branch solidification, including horizontal curing oven, its characterized in that: the optical cable curing device is characterized in that a single-cable-end optical cable placing assembly is arranged on one side of the horizontal curing furnace, a multi-cable-end optical cable placing assembly is arranged on the other side of the horizontal curing furnace, a heating and curing assembly is arranged between the single-cable-end optical cable placing assembly and the multi-cable-end optical cable placing assembly and used for placing a splitter and pouring glue for curing, the single-cable-end optical cable placing assembly is composed of a single-cable-end optical cable placing plate, an optical cable placing plate vertical frame and an optical cable pressing buckle, the optical cable placing plate vertical frame is installed on the horizontal curing furnace, the single-cable-end optical cable placing plate is installed on the optical cable placing plate vertical frame, and the optical cable pressing buckle is installed on the single-cable-end optical cable placing plate.

2. The adjustable fixture for multi-core optical cable branch curing as claimed in claim 1, wherein: and a plurality of clamping grooves and clamping blocks are arranged on the single-cable-end optical cable placing plate, and the optical cable is fixed on the clamping blocks in a pressing and buckling manner.

3. The adjustable fixture for multi-core optical cable branch curing as claimed in claim 2, wherein: the multi-cable-end optical cable placing assembly is composed of a multi-cable-end pressing plate, a pressing plate connecting block and a multi-cable-end optical cable placing plate, the multi-cable-end optical cable placing plate is placed on the multi-cable-end pressing plate, a fixing position is arranged at one end of the multi-cable-end optical cable placing plate, the pressing plate connecting block is installed on the fixing position, fixing hole positions are arranged on the pressing plate connecting block and the multi-cable-end pressing plate, one end of the multi-cable-end pressing plate is provided with a bayonet position matched with the pressing plate connecting block, and the bayonet position is matched with the pressing plate connecting block.

4. The adjustable fixture for multi-core optical cable branch curing as claimed in claim 1, wherein: and a plurality of fixing grooves and fixing blocks are arranged on the multi-cable-end optical cable placing plate at intervals.

5. The adjustable fixture for multi-core optical cable branch curing of claim 4, wherein: the heating curing subassembly comprises heating inner panel and the adjustable planking of heating, the adjustable planking bottom of heating is provided with spout and planking screens, the heating inner panel is installed in the spout and follow the spout slides, the planking screens is established the top of heating inner panel.

6. The adjustable fixture for multi-core optical cable branch curing of claim 5, wherein: an inner plate clamping position is arranged on the heating inner plate.

7. The adjustable fixture for multi-core optical cable branch curing as claimed in claim 6, wherein: one end of the heating adjustable outer plate is provided with a positioning pin, and the distance between the inner plate clamping position and the outer plate clamping position is adjusted through the positioning pin.

8. An adjustable fixture for multi-core optical cable branch curing as claimed in claim 5, characterized in that: and inner plate pressing pins are arranged at two ends of the heating inner plate and used for positioning the heating inner plate.

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