KR101002709B1 - Insertion guide for optical connector and optical fiber - Google Patents

Abstract

The present invention relates to an optical connector and an insertion guide for connecting an optical fiber to enable a stable and effective manual connection between the optical connector and the optical cable assembled in the field. The optical connector seating groove 11 is formed, the other end of the optical cable seating groove 13 is formed, the guide line for straight communication between the optical connector seating groove 11 and the optical cable seating groove 13 in the center. ), But the optical cable 30 portion that is seated in the optical cable seating groove 13 and the jacket 31 is peeled off the jacket 31 is not peeled off, respectively, the optical cable 30 portion that is seated in the guidelines 14 The depth of the optical cable seating groove 13 and the guide line 14 is formed so that the fiber 33 of the fiber is horizontal, the length of the optical cable seating groove 13 is of the fiber 33 that is effectively inserted into the optical connector 20 In depth Correspondingly formed.

Description

Insertion guide for optical connector and fiber connection {Guide for connecting optical connector to fiber}

The present invention relates to an optical connector and an insertion guide for connecting an optical fiber to enable a stable and effective manual connection between the optical connector and the optical cable assembled in the field.

In the construction site that installs the optical cable, it is sometimes necessary to connect the optical connector with the optical cable immediately if necessary. In this case, after removing the jacket 31 and the coat 32 of the optical cable 30 (see FIG. 2), the fiber 33 is exposed to be inserted into the optical connector 20.

However, since this operation can only be performed by hand, it is very difficult to precisely insert the small diameter fiber 33 into the narrow ferrule 22 or the connection tube (not shown) of the optical connector 20, Since the fiber 33 may be damaged due to forced insertion even if it is normally inserted, the connection work between the optical connector 20 and the optical cable 30 in the field may cause worker fatigue and time disadvantage due to the difficulty of the work itself. There is a difficulty that can result, and also bear the cost disadvantage due to the breakage of the fiber (33).

Accordingly, the present invention has been made to solve the above problems, to minimize the breakage of the optical cable during the connection between the optical cable and the optical connector made by hand in the field to facilitate the operation, to perform an efficient connection operation An object of the present invention is to provide an insertion guide for connecting an optical connector and an optical fiber.

According to an aspect of the present invention,

It is a plate shape having a certain length, the optical connector seating groove is formed on the upper end of the upper opening, the optical cable seating groove is formed on the upper end of the other end, the guide to connect the optical connector seating groove and the optical cable seating groove straight in the center Including the line, the optical cable portion is formed in the optical cable seating groove and the optical fiber seating groove and the jacket is peeled off, the optical cable seating groove and the depth of the guide line is formed so that the fiber of each of the optical cable portion seated in the guideline is horizontal, The length of the mounting groove is an insertion guide for assembling the optical connector formed corresponding to the depth of the fiber effectively inserted into the optical connector.

The present invention is provided with an optical connector seating groove for tightly holding and supporting a standardized optical connector, and an optical cable seating groove and a guide line formed to catch and slide the optical cable in a sliding manner. When the optical connector is placed and the optical cable is pushed and moved along the optical cable seating groove and guideline, the fiber is inserted into the optical connector as it is, so that the operator can easily make the connection between the optical connector and the optical cable with minimal damage to the fiber. There is.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a state of the insertion guide according to the present invention, will be described with reference to this.

Insertion guide 10 according to the present invention forms a plate shape having a predetermined length, at one end to form an optical connector seating groove 11 which is opened upwardly so that the optical connector 20 is engaged with the other end, the other end of the optical cable ( While forming the optical cable seating groove 13 which is opened upwardly so that 30 is engaged with each other, the guide line 14 is formed in the center portion to straightly communicate the optical connector seating groove 11 and the fiber cable seating groove 13 with each other.

The optical connector seating groove 11 is securely supported so that the optical connector 20 to be connected to the optical cable 30 is seated, so that the optical connector 20 is not shaken or separated. In general, since the optical connector 20 has a standardized shape and standard, the optical connector seating groove 11 is formed to be cut in close contact with the optical connector 20 to be seated, and the inner surface of the optical connector 20 is formed so as not to shake. A pair or more reference protrusions 15 may be formed.

Here, the reference protrusion 15 may be formed anywhere within the optical connector seating groove 11 if it is in contact with the outer surface of the optical connector 20, but the reference protrusion for tight coupling with the optical connector 20 and easy detachment. 15 is preferably formed on the inner surface of the optical connector seating groove (11). In addition, since the reference protrusion 15 holds and supports the optical connector 20, it is preferable that a material having elasticity and relatively high coefficient of friction be applied.

Subsequently, since the optical connector seating groove 11 has a groove shape opened upward, the operator can drive the optical connector 20 into the optical connector seating groove 11 as it is.

On the other hand, the end of the optical connector seating groove 11 may further include a fixing fence 12 for physically holding and supporting the optical connector 20. The fixing fence 12 is engaged with the side surface of the stopper 21 provided in the optical connector 20 and is held by the optical connector 20 so as not to be separated from side to side. Fixability of the connector 20 can be improved.

The optical cable seating groove 13 has a shape that is opened upwardly so that the optical cable 30 is seated, and the optical cable 30 is formed to move in a sliding manner for connection between the optical connector 20 and the optical cable 30. .

The optical cable seating groove 13 is formed to be cut into a width to which the portion of the optical cable 20 which is not stripped of the jacket 31 is fitted, and the inner surface thereof is a flat surface so that interference is minimized during the movement of the optical cable 20.

The guide line 14 is formed such that the coat 32 from which the jacket 31 is stripped can move in a sliding manner, and has a relatively narrow width compared to the optical cable seating groove 13. Therefore, the point where the optical cable seating groove 13 and the guide line 14 communicate with each other is inclined to form a bottleneck point in a tapered shape, thereby minimizing interference of the optical cable 20 sliding in the horizontal direction and the jacket 31. The stripped coat 32 or fiber 33 portion is guided to the guideline 14 along the tapered inner surface of the optical cable seating groove 13 upon insertion into the guideline 14, thus the stripped coat 32 Or solves the problem that the worker is damaged by forced movement in the state that the fiber 33 portion does not lead to the guideline 14.

On the other hand, the depth of the guide line 14 is formed to be shallower than the depth of the optical cable seating groove 13, the optical cable 20 seated in the insertion guide 10 according to the present invention is an optical cable that the jacket 31 is not stripped ( 30) The fiber 33 is formed in a single layer so that the height of the fiber 33 is always horizontal without the division of the part of the optical cable 30 from which the part or the jacket 31 is stripped. In the optical connector 20 seated on 11) to match the inlet height of the optical connector 20 is inserted fiber.

For reference, since the diameter of the jacket 31, the diameter of the coat 32, the diameter of the fiber 33, and the like are standardized, the optical connector seating groove 11, the optical cable seating groove 13, and the guideline 14 are provided. The depth of is formed correspondingly, so that the insertion guide 10 according to the present invention the horizontal arrangement of the fiber 33 described above is possible.

On the other hand, since the insertion guide 10 is manually operated in the field, the insertion guide 10 should be so as not to slip or easily detach from the operator's hand. Accordingly, the material or surface coating of the insertion guide 10 may be made of a material having a large coefficient of friction, or may form a plurality of jaws 16 to increase the contact area with the hand as shown.

2 is a view showing the connection of the optical connector and the optical cable via the insertion guide according to the present invention, Figure 3 is a view showing the connection of the optical connector and the optical cable via the insertion guide according to the present invention. It will be described with reference to this.

Insertion guide 10 according to the present invention when the direct connection and fixing the optical cable 30 to the optical connector 20 in the field, so that the operator can easily and stably work without damaging the optical cable 30 In this case, the operator presses the optical connector 20 into the optical connector seating groove 11 and tightly fixes the optical connector 20.

At this time, the fixing fence 12 or the reference protrusion 15 is engaged with the side of the optical connector 20, the optical connector 20 is separated upward from the optical connector seating groove 11, or the length of the insertion guide 10 To prevent pushing in the direction.

When the stable seating of the optical connector 20 is confirmed, the optical cable 30 stripped of the jacket 31 and the coat 32 to a predetermined length is pushed into the optical cable seating groove 13 and the guide line 14, respectively. At this time, the ends of the optical cable 30 is peeled off both the jacket 31 and the coat 32 so that the fiber 33 is exposed, and the interruption is peeled off only the jacket 31 and the fiber 33 is wrapped in the coat 32 Allow the part to be exposed. Of course, except for the two parts described above, the optical cable 30 is wrapped in a jacket 31 and protected.

On the other hand, the length of the fiber 33 inserted into the optical connector 20 is limited. Therefore, the jacket 31 and the coat 32 are all peeled off, as well as the length of the portion where the fiber 33 is exposed, as well as being physically wrapped and protected by the stopper 21 in the process of being inserted into the optical connector 20. The length of the stripped portion of the jacket 31 is determined in advance, and the length of the guide line 14 as well as the length of the optical cable seating groove 13 is determined according to the determination.

As a result, when the operator pushes the optical cable 30 on the optical cable seating groove 13 and slides toward the optical connector 20 along the longitudinal direction of the insertion guide 10, the fiber 33 is first given to the optical connector 20 A portion of the fiber 33 wrapped with the coat 32 is then inserted into the optical connector 20. The operator keeps sliding the optical cable 30, and when the jacket 31 reaches the end of the optical cable seating groove 13 where the jacket 31 is no longer inserted, the optical connector 20 and the optical cable 30 are inserted into the guide. Separate from (10).

That is, since the jacket 31 and the coat 32 of the optical cable 30 are stripped according to a predetermined length, the operator pushes the optical cable 30 to the end of the optical cable seating groove 13 of the insertion guide 10, It is not necessary to check whether the optical cable 30 is correctly and sufficiently connected to the optical connector 20. Therefore, the worker can easily handle the optical connector 20 and the optical cable 30 in the field.

4 is a view showing another embodiment of the insertion guide according to the present invention, will be described with reference to this.

On the other hand, the optical cable 30 is connected to the optical connector 20 is a variety of standards. Therefore, the insertion guide 10 having the optical cable seating groove 13 and the guide line 14 formed according to a specific standard can be utilized only when working on the optical cable 30.

However, the insertion guide 10 according to the present invention has various lengths and widths of the guide grooves 17a and 17a 'formed on the upper surface thereof so that various types of optical cables can be applied. More).

The guide blocks 17 and 17 'are detachably engaged on the optical cable seating groove 13 and can be used whenever necessary. The types of the guide blocks 17 and 17' can be adapted to the type of optical cable connected to the optical connector 20. have.

For reference, the guide block 17 shown in FIG. 4 (a) has a guide groove 17a narrower than the guide line 14, and the overall length of the guide block 17 is the length of the optical cable seating groove 13. Was the same as This is to apply to the optical cable of the standard that the thickness of the portion of the coat 32 where the jacket 31 is peeled off is thinner than the thickness of the general coat, and when the jacket 31 of the optical cable is not inserted into the guide groove 17a. Slid to the end.

Meanwhile, the guide block 17 ′ shown in FIG. 4 (b) has the same guide groove 17 a ′ as the guide line 14, and the entire length of the guide block 17 ′ is the optical cable seating groove 13. It was shorter than the length of. This is to be applied when the length of the fiber 33 inserted into the optical connector 20 is longer than usual, the operator until the jacket 31 of the optical cable is not inserted into the guide groove (17a '). Sliding.

1 is a view showing a state of the insertion guide according to the present invention,

2 is a view illustrating a state in which an optical connector and an optical cable are connected through an insertion guide according to the present invention.

3 is a view illustrating a state in which an optical connector and an optical cable are connected through an insertion guide according to the present invention.

4 is a view showing another embodiment of the insertion guide according to the present invention.

-Explanation of terms for main parts of attached drawings-

10; Insertion guide 11; Optical connector seating groove

12; Fixed fence 13; Optical cable seating groove

14; Guideline 15; Standard projection

16; Jaw 17, 17 '; Guide Block

20; Optical connector 30; Optical cable

Claims (3)

delete delete To form a plate with a constant length; An optical connector seating groove 11 protruding from the upper surface of one end thereof is formed to be opened upward, and a reference protrusion of an elastic material protruding from the side of the optical connector 20 is formed on an inner side thereof; An optical cable seating groove 13 is formed on the other end of the upper surface; The central portion includes a guide line 14 for straight communication between the optical connector seating groove 11 and the optical cable seating groove 13; Fiber 33 of each part of the optical cable 30 seated in the optical cable seating groove 13 without the jacket 31 being stripped, and the part of the optical cable 30 in which the jacket 31 is peeled off and seated on the guideline 14. ), The depth of the optical cable seating groove 13 and the guide line 14 is formed in a single layer so as to be horizontal to each other; The length of the optical cable seating groove 13 is formed corresponding to the depth at which the fiber 33 is effectively inserted into the optical connector 20; Guide grooves (17a, 17a ') is formed on the upper surface in communication with the guide line 14, and further comprising a guide block (17, 17') detachably engaged with the optical cable seating groove (13); Insertion guide for optical connector and optical fiber.

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