KR20180056439A - A holder for Optical cable - Google Patents

Abstract

The present invention relates to a holder for an optical cable. More specifically, the present invention relates to a holder for an optical cable which can easily hold an optical cable by hiding the optical cable along a plane section or a corner section of an indoor space regardless of a horizontal or a vertical direction. To this end, upper and lower fitting grooves are formed in a body having inclined and lower surfaces, and the optical cable is installed to be inserted into the fitting groove for holding.

Description

Fixture for optical cable {A holder for Optical cable}

The present invention relates to a fixing device for an optical cable, and more particularly, to a fixing device for an optical cable, which can easily install an optical cable invisible along a plane section or a corner section of an indoor space regardless of a horizontal or vertical direction.

Fiber-to-the-home (FTTH) systems have been proposed to provide various kinds of information including broadcasting and communication by connecting optical cable to apartment, house, etc. Is applied to the indoor space of the building.

Meanwhile, the optical cable uses an optical fiber, and unlike a general cable or a telephone cable, depending on the characteristics of the optical fiber, if the cable is bent or bent within a bending radius, the light can not be propagated and is reflected.

Conventionally, as shown in Korean Patent Application No. 20-2011-0001864, for example, in order to install such an optical cable, an optical cable is inserted into a member formed by bending an iron plate, A method of embedding and fixing was used.

However, such a configuration using bolts or nails wastes a lot of time and manpower in fixing work, and there is a fear that the optical cable weak in impact may be damaged in the process of being put in the installation space.

On the other hand, in order to install such optical cable in the indoor space, there is a method in which the optical cable covering itself is installed at a desired place using hot melt or the like. However, such hot melt can not only damage the optical cable itself when heat is applied for work, There is a problem that it is difficult to recycle the installed optical cable at the time of re-operation of the back light.

The optical fiber cable installed in the room is used as a transparent material covering the optical fiber. When the transparent optical cable is installed, it is installed along the wall portion of the indoor space or the finishing portion of the corner portion so as not to be seen by human eyes, .

In other words, the optical cable is installed along the finish material line of the ceiling or the bottom part, and the optical cable is installed in the horizontal direction or the vertical direction depending on the shape of the indoor space.

Conventionally, it has been difficult to provide an optical cable having a curvature in a horizontal direction or a vertical direction in a plane section or a corner section of the indoor space as needed. Various members are used for fixing the optical cable, It is possible to construct an indoor network as a result, but it has a problem that the interior of the indoor space is ruined.

Korea public utility model 20-2011-0001864 (public on February 24, 2011)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fixture for an optical cable configured to facilitate an operator to install an optical cable regardless of a plane section or a corner section of an indoor space.

Another object of the present invention is to provide a fixing device for an optical cable which can be stably installed while maintaining the bending radius of the optical cable in any positional interval of the indoor space.

It is another object of the present invention to provide a fixture for an optical cable which can be installed so that the size of the fixture for optical cable is small and easy to install so that the interior of the interior space is not damaged and is not visible to human eyes.

In order to achieve the above object, an optical cable fixing device according to the present invention is configured to fix an optical cable by installing the optical cable along a plane section or a corner section of an indoor space.

To this end, a block-shaped body having an oblique side having oblique angles on both sides of the upper side and a flat bottom side formed on the lower side; An upper fitting groove formed in an upper portion of the body so as to be inserted and fixed while the optical cable is forcedly inserted; And a lower fitting groove formed in the lower portion of the body so as to be inserted and fixed with interference with the optical cable.

Preferably, the fixture for an optical cable further includes a curvature holding bar integrally formed on both sides of the lower portion of the body and extending in the same direction as the upper fitting groove, .

At this time, the curvature-maintaining bar is made of a soft material that is flexible and flexible, and has a thickness smaller than the thickness of the optical cable, so that the optical cable provided by the plurality of continuous optical cable fixing members can maintain the bending radius.

It is also preferable that the plurality of optical fiber fixing members continued by the curvature holding bar have a bending radius equal to or smaller than the bending radius of the optical cable inserted into the upper fitting groove.

Meanwhile, in one embodiment, the upper fitting groove and the lower fitting groove of the fastener for an optical cable are formed so as to cross at right angles.

In another embodiment, the lower fitting groove has a plurality of grooves staggered about the center of the body.

According to another aspect of the present invention, the body further includes a plurality of upper fitting grooves spaced apart from each other, and further includes a cutting groove formed at one side between the upper fitting groove and the adjacent upper fitting groove so as to break the force.

The body of the fixture for an optical cable according to the present invention is fixed to a place to be provided with an adhesive or a double-sided tape on an oblique or bottom surface.

As described above, the fastener for an optical fiber according to the present invention has an effect that the optical cable can be easily and quickly installed without damaging the optical cable with a structure in which the optical cable is forcedly inserted into the upper fitting groove or the lower fitting groove.

Second, since a plurality of fixtures for optical cables are installed in the form of a straight line or a curved line in the optical cable installation section, and then the optical cable is fixed by being inserted into the fixture, the bending radius of the optical cable does not deviate along the finishing line of the interior space regardless of the plane section or the corner section So that it can be stably installed.

Third, it can be stably installed within the bending radius of the optical cable by the curvature-maintaining bar integrally connected to the plurality of optical cable fixing members, and the curvature-maintaining bar does not have to worry about the bending radius of the optical cable, thereby improving the working efficiency.

Fourth, there is an effect that the fixture for optical cable can be stably installed by using the oblique surface of the body even in a vertical corner section bent at a right angle.

Fifth, since only the upper fitting groove and the lower fitting groove are formed so that the optical cable can be seated, the optical cable can be installed in a small size so that the interior of the interior space is not deteriorated and the optical cable is not visible.

1 and 2 are perspective views showing a fixing device for an optical cable according to the present invention.
3 is a view showing another embodiment of a fixture for an optical cable according to the present invention.
4 is a view showing still another embodiment of a fixture for an optical cable according to the present invention.
FIGS. 5 (a), 5 (b), 5 (c) and 5 (d) are views showing the use of the optical fiber fixing device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a fixing device for an optical cable according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

First, as shown in the accompanying drawings, the fixing device 1 for an optical fiber according to the present invention has a structure in which a worker places the optical cable 2 at a position having any form such as a plane section or a bent corner section along a finish material line of an indoor space So that it can be installed and fixed easily and easily so as not to be seen by the human eye.

To this end, a plurality of optical fiber fixing devices 1 are arranged in a plane section or a corner section, and an optical fiber is inserted and fixed in the groove of the optical fiber fixing device 1 to construct an indoor network.

Each fixture 1 for a single optical cable has a block shape and is configured to have an upper fitting groove 20 and a lower fitting groove 30 which can be inserted and fixed by inserting the optical cable 2 into the upper and lower portions.

In this way, it is possible to minimize the size and thickness of the optical fiber cable 2 having a simple block shape and having grooves only in the upper part and the lower part. Thus, the optical cable 2 can be positioned at a desired position with a minimum size including the size of the optical cable 2 Can be fixed.

Accordingly, when the transparent optical cable 2 is installed in the indoor space, it can be installed easily along the finish material line of the indoor space without being conspicuous to the human eye.

More specifically, with reference to FIG. 1, each individual optical fiber fixing member 1 according to the present invention will be described below.

As shown in the figure, the fixture 1 for optical cables has a block-shaped body 10 formed with oblique surfaces 11 having a slanting angle and a flat bottom surface 12 on both sides of the top.

At this time, the actual optical cable 2 is fixed to the oblique surface 11 composed of the left side oblique surface 11a and the right oblique surface 11b and the lower bottom surface 12 using the optical cable fixing tool 1 according to the present invention. An adhesive or double-sided tape is applied or attached so as to be fixed on the surface of the corresponding interior space depending on the structure of the installed position, that is, the wall section having the plane or the corner section bent.

In addition, although the body 10 is shown in the form of a triangular column as a block in the drawing, the present invention is not limited thereto, and any shape can be applied as long as it has a beveled surface 11 on both sides and a bottom surface 12 on the bottom. will be.

An upper fitting groove 20 and a lower fitting groove 30 are formed in the upper and lower portions of the body 10 and the optical cable 2 is selectively inserted and fixed according to the installation environment of the installed indoor space .

In other words, an upper fitting groove 20 is formed in the upper portion of the body 10 so that the optical cable 2 is securely inserted and fixed, and the optical cable (not shown) 2) are inserted into the lower fitting groove 30 so as to be inserted and fixed.

Preferably, the upper fitting groove 20 and the lower fitting groove 30 are formed as a single groove and cross each other at right angles.

If necessary, the upper fitting groove 20 and the lower fitting groove 30 may be formed with grooves so as not to interfere with each other by the body 10 having a thickness, and the upper fitting groove 20 and the lower fitting groove 30, The optical cable 2 can be installed on each of the optical fibers 30.

The upper fitting groove 20 and the lower fitting groove 30 are configured such that the inserted optical cable 2 is not separated again from the outside. Referring to the lower fitting groove 30 of FIG. 1, An inlet 31 having a protruding locking protrusion 31a and a size smaller than the diameter of the optical cable 2 and an optical cable 2 through which the optical cable 2 inserted through the inlet 31 are completely contained Sized seating portion 32 as shown in Fig.

It is a matter of course that the same structure can be applied to the upper fitting groove 20 as well.

In order to fix the optical cable 2 to the upper fitting groove 20 or the lower fitting groove 30 of the fixture 1 for optical cable installed and fixed on one side of the indoor space, (2) and applies force to pass through the inlet (31).

At this time, since the size (interval) of the inlet 31 is smaller than the diameter of the optical cable 2, the optical cable 2 is forced to pass through the inlet 31 and passes through the inlet 31 The optical cable 2 mounted on the mounting portion 32 is prevented from being released to the outside unless it is pulled by the holding jaw 31a protruding toward the entrance 31 side.

Meanwhile, as described above, the optical cable 2 should be installed while maintaining the bend radius of the optical cable 2 so that no banding loss is generated when the optical cable 2 is bent according to the characteristics of the optical fiber. Referring to FIG. 2, a plurality of fixtures 1 for optical cables according to the present invention are installed and used in a continuous manner so as to facilitate the installation of the optical cable 2.

At this time, in order to install the optical cable 2 with a curvature, a plurality of optical cable fixing members 1 are arranged so as to be located within the bending radius of the optical cable 2.

The optical cable fixing member 1 is arranged in the bending radius of the optical cable 2 and the optical cable fixing member 1 is fixed to the curvature maintaining bar 4 ).

The curvature holding bar 4 has a length integrally formed on both lower sides of the body 10 and extends in the same direction as the upper fitting groove 20.

Preferably, the curvature holding bar 4 connects the optical fiber fixing member 1a and the neighboring optical fiber fixing members 1b and 1c to each other. The flexible optical fiber cable 2 can be stably fixed It is preferable to have a thickness smaller than the thickness of the optical cable 2.

The plurality of optical fiber fixing members continued by the curvature holding bar 4 has a bending radius equal to or smaller than the bending radius of the optical cable 2 inserted into the upper fitting groove 20 by the curvature holding bar .

Accordingly, if the operator can flexibly mount a plurality of continuous optical fiber fixtures, it can be determined that the optical fiber cable 2 is within the bending radius of the optical cable 2 to be installed and the work can be performed. As a result, It is possible to construct an indoor network using the network 2.

The curvature holding bar 4 configured in this way may have various shapes such as a cylindrical bar, a square bar, a bar having a semicircular cross-sectional shape, and when it is desired to use a non-continuous individual optical cable fixture 1 The portion connected to the body 10 is cut so that the curvature holding bar 4 is removed and then the fixing tool 1 for individual optical cables is used.

As described above, the optical cable 2 should be installed while maintaining the bend radius of the optical cable 2 so that no bending loss occurs when the optical cable 2 is bent according to the characteristics of the optical fiber. For example, as shown in FIG. 3, the fastener 1 for individual optical cables is formed with a lower fitting groove 30, and a plurality of grooves 30a, 30b, and 30c are staggered about the center.

By using the plurality of lower fitting grooves 30a, 30b, and 30c having different directions and having different angles, the operator can selectively use the lower fitting groove in the corresponding direction to insert the optical cable 2 .

As a result, a plurality of optical fiber fixing members 1 can be continuously arranged and arranged within the bending radius of the optical cable 2 as much as possible.

The fixture 1 for an optical fiber according to the present invention includes an upper fitting groove 20 and a lower fitting groove 30 in a body 10 of a single block. The body 10 has a predetermined length and a plurality of upper fitting grooves 20 may be formed on the upper body.

Although it is shown that two upper fitting grooves 20 are formed in the illustrated case, the number of the upper fitting grooves 20 is not limited to the number of the upper fitting grooves 20, It is needless to say that they may be selectively formed as necessary.

Meanwhile, it is preferable that the upper fitting grooves 20 are formed to have the same direction, but they may be formed in different angles as needed.

The body 10 further includes cutting grooves 40 that are broken at one side between the upper fitting grooves 20 and the adjacent upper fitting grooves 20 so as to be broken by a force.

The upper and lower fitting grooves 20 and 30 are formed in the single upper portion of the body 10 separated from the cutting groove 40 by the force, 1).

Accordingly, the operator can use the fixture for optical cable 1 as a fastener having a length of the body 10 of a short length or as a fastener having a long body length if necessary, It is needless to say that the body 10 separated from the body 10 by the cutting force using the cut grooves 40 according to the present invention can be used as a fixture 1 for a single optical cable.

Such a use state may be used depending on the work environment of the indoor space and the operator's selection.

5 (a), 5 (b), 5 (c) and 5 (d), the use state of the optical fiber fixing device 1 according to the present invention will be described below.

As shown in the drawing, the optical fiber fixing device 1 according to the present invention is installed along the finishing material line inconspicuously in the installation of the optical cable 2 in the indoor space. It is installed considering the interior decoration such as installation or installation along the bent section of the corner section.

5 (a) is a view showing that an optical cable 2 is installed on a flat wall surface 3a. The number of the optical cable fixing members 1 is selected according to the installation length of the optical cable 2, (3a) with an adhesive or double-sided tape.

In this case, when the optical cable 2 is installed in a straight section, the optical cable fixing members 1 are arranged in a line. When the optical cable fixing member 1 is curved and bent, the optical cable fixing member 1 has a minimum bending radius And then an adhesive or a double-sided tape is provided on the lower bottom surface 12 and fixed to the flat surface 3a.

The optical cable 2 is inserted and fixed while connecting the upper fitting groove 20 of the optical cable fixing member 1 and the upper fitting groove of the neighboring optical cable fixing member.

As shown in the drawing, when the optical cable 2 is bent, the end of the optical cable 2 passing through the optical cable fixing member 1 may be scratched by the end of the fixing member 1, It is preferable that the end of the optical fiber fixing member 1 is formed so as to have rounded corners.

The continuous optical fiber fixing member 1a and the optical fiber fixing member 1b are connected by the curvature holding bar 4 so that they can be easily installed within the bending radius of the optical cable 2. [

It should be noted that the curvature holding bar 4 may be cut according to the operator or the environment in which it is installed, and the fixture for individual optical cables and the fixture may be spaced apart from each other.

On the other hand, referring to FIG. 5 (b), when the optical cable 2 is installed in the indoor space, the optical cable 2 is horizontally installed on the ceiling or the bottom wall 3b of the bent corner section.

When the optical cable 2 is installed in the horizontal direction in the corner section where the optical cable 2 has a right angle, the optical cable 2 can not be positioned at a distance from the corner due to the bending radius, And the optical cable 2 is inserted and fixed in the upper fitting groove 20 after the fixing bracket 1a for the optical cable is provided on the surface of the other side of the corner.

At this time, the optical cable 2 can be stably installed within the bending radius by the curvature-maintaining bar 4 connected to the respective optical cable fixing members 1a, 1b, 1c, and the intermediate optical cable fixing member 1b And serves as a guide to maintain the bending radius of the optical cable 2.

Meanwhile, although not shown, when the optical cable 2 is to be installed by arranging a single optical cable fixing member without the curvature holding bar 4, the optical cable fixing member 1b provided in the middle can be fixed to the upper or lower side It can be fixed on the ceiling or floor.

Therefore, more stable installation is possible.

Next, referring to FIG. 5 (c), there is shown a state in which the optical cable 2 is installed in a vertical direction along a corner section having a right angle of the indoor space.

At this time, the fixture for optical cable 1 is fixed to the both side oblique faces 11 by using an adhesive or a double-sided tape along the right corner.

The optical cable 2 is inserted along the lower fitting groove 30 and the lower fitting groove 30 of the fixture 1 adjacent to the optical fiber 1, Inserted and fixed in place.

5D, a state in which the optical cable 2 is installed in a horizontal direction along a section formed by bending wall and wall surfaces in a section having a right angle of the indoor space, that is, a column or a living room .

First, a plurality of optical fiber fixing members 1 are fixed to a place where the optical fiber cable 2 is to be installed, and the optical fiber cable 2 is inserted and fixed in the upper fitting groove 20 of the neighboring fixing member, .

At this time, it is possible to stably install the optical cable (2) within the bending radius of the optical cable (2) by the curvature holding bar (4) between successive optical cable fixing members.

As described in the above-mentioned use state, the optical cable fixing device 1 according to the present invention is not limited to the outer side, that is, not the wall side, depending on the environment of the indoor space in which the optical cable 2 is easily inserted and separated, The optical cable 2 is inserted into the upper fitting groove 20 or the lower fitting groove 30 in the interior space so that the optical cable 2 can be inserted into the lower fitting groove 30 or the upper fitting groove 30, (Not shown).

As described above, the optical cable fixing device 1 according to the present invention can easily and stably install and fix the optical cable 2 in any position such as a flat section or a bent corner section along the finish material line of the indoor space And the optical cable 2 can be installed so as not to be visible to a person.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It is not.

1: fixture for optical cable 2: optical cable
4: Curvature holding bar 10: Body
11: beveled surface 12: bottom surface
20: upper fitting groove 30: lower fitting groove
31: inlet 31a:
32: seat part 40: cutting groove

Claims (8)

An optical fiber fixing device for fixing a position of an optical cable (2) along a plane section or a corner section of an indoor space,
A block-shaped body (10) having an oblique surface (11) having an oblique angle on both sides of the top and a bottom surface (12) at the bottom;
An upper fitting groove 20 formed in the upper portion of the body 10 so that the optical cable 2 is inserted into the upper fitting groove;
And a lower fitting groove (30) formed in the lower portion of the body (10) so that the optical cable (2) is forcedly inserted and fixed along the lower side of the body (10).
The method according to claim 1,
The optical cable fixing device includes:
Further comprising a curvature holding bar (4) integrally formed on both sides of the lower portion of the body (10) and extending in the same direction as the upper fitting groove (20).
3. The method of claim 2,
The curvature-maintaining bar (4)
The optical fiber 2 has a thickness smaller than the thickness of the optical cable 2,
And the optical cable provided by the plurality of continuous optical fiber fixing members can maintain the bending radius.
3. The method of claim 2,
Wherein the plurality of optical fiber fixing members continued by the curvature holding bar (4) have a bending radius equal to or smaller than a bending radius of the optical cable inserted into the upper fitting groove (20).
The method according to claim 1,
Wherein the upper fitting groove (20) and the lower fitting groove (30) intersect at right angles.
The method according to claim 1,
The lower fitting groove (30)
Wherein a plurality of grooves are staggered about the center of the body (10).
The method according to claim 1,
The body (10)
A plurality of upper fitting grooves 20 are formed with a gap,
Further comprising cutting grooves (40) formed on one side between the upper fitting grooves (20) and the adjacent upper fitting grooves (20) so as to be broken by the force.
The method according to claim 1,
The body (10)
Characterized in that an adhesive or double-sided tape is provided on the oblique surface (11) or the bottom surface (12).

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