KR20180006347A - Short-distance optical fiber cutter knife - Google Patents

Abstract

The present invention relates to a short distance optical fiber cutter knife, which comprises a knife frame, a blade guide rail, a knife holder and a blade, wherein a moving optical fiber clamp and a rubber clamp is installed in the knife frame, the moving optical fiber clamp and the rubber clamp are positioned at both sides of the blade, the optical fiber is fixated and clamped through the moving optical fiber clamp and the rubber clamp, a slope guiding structure is installed between the blade and the moving optical fiber clamp, and the moving optical fiber clamp is moved in a far direction from the knife through the slope guiding structure when the blade moves toward the optical fiber such that the optical fiber is tightly pulled. In a short distance optical cutter knife, installed is one top cover, in which a striking hammer is installed to be used for striking and cutting the optical fiber having marks of having been already cut. The present invention removes the rubber pad having applied pressure to optical fiber spirals at one side of the blade to reduce a gap from a peeling mouth of an optical fiber coating layer to a cutting mouth of a cross section of the optical fiber. The cutter according to the present invention moves the moving optical fiber clamp in a far direction from the blade in a process of moving toward the optical fiber to tightly pull the optical fiber, thereby assuring a cutting angle of the optical fiber.

Description

Short-range optical fiber cutter knife {SHORT-DISTANCE OPTICAL FIBER CUTTER KNIFE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cutting device design technology field, and more particularly, to a short-distance optical fiber cutter knife.

The conventional optical fiber cutter knife is provided with rubber pads for applying pressure to the optical fiber helix on both sides of the blade. After the two sets of rubber pads are tightened by applying pressure to the optical fiber, the blade slides and moves to the bottom of the optical fiber helix A cutting mouth is formed, and finally, the optical fiber cutting operation is completed by tapping the optical fiber having already been cut with the impact hammer. The detailed procedure is as shown in Figs.

However, the conventional optical fiber cutter knife has the following disadvantages.

1. The clamping method using rubber pads can not be pulled out in the process of cutting the optical fiber (rubber cable optical fiber, 3.0 jumper wire optical fiber, hot melt head Etc.) can have a negative impact on fiber optic cut angle.

2. Since the rubber pad of the prior art clamps the optical fiber helix, the distance from the peeling mouth of the optical fiber coating layer to the optical fiber section cutter becomes longer so that the length of the optical fiber helix cut from the blade to the outside of the rubber pad It can not be shorter than the distance. Therefore, the conventional cutter knife can not be used for the cutting operation of some optical fibers, in which the cutting length of the optical fiber helix is to be limited, and the use range thereof is limited.

In order to solve the above problem, it is an object to propose a short-distance optical fiber cutter knife.

Wherein the short optical fiber cutter knife includes a knife frame, a blade guide rail and a blade, the blade is installed in the blade guide rail by a knife holder, a moving optical fiber clamp and a rubber clamp are installed in the knife frame, And a rubber clamp are positioned on both sides of the blade, and the optical fiber is fixed and clamped by the moving optical fiber clamp and the rubber clamp;

Here, a slope guiding structure is provided between the blade and the moving optical fiber clamp, and when the blade moves toward the optical fiber, the moving optical fiber clamp moves in a direction away from the knife by the slope guiding structure And pulls the optical fiber tightly.

Preferably, the slope guiding structure includes a protruding portion provided on the moving optical fiber clamp and a slope portion provided on the knife holder, wherein the protruding portion contacts the slope portion before the blade hits the optical fiber, Slides along a slope, which causes the moving optical fiber clamp to move in a direction away from the knife.

Preferably, the knife holder exhibits a two-step stepped shape facing one side of the knife holder facing the protruding part, and the step between the two stepped steps is passed through the slope.

Preferably, the gap between the slope portion and the optical fiber is smaller than the gap between the blade and the optical fiber before the blade strikes the optical fiber.

Also preferably, a top cover is included, and the top cover is connected to the knife frame.

More preferably, the rubber clamp comprises an upper rubber pad and a lower rubber pad, the lower rubber pad being mounted on the knife frame and positioned on one side of the blade, the upper rubber pad being mounted on the top cover , The top cover covers the knife frame, and the upper rubber pad and the lower rubber pad clamp the optical fiber.

More preferably, a striking hammer is also installed on the top cover, the top cover covers the knife frame, and the striking hammer is positioned on the optical fiber.

The present invention has the following advantages and positive effects as compared with the prior art because it adopts the above-described technology.

(1) In the present invention, by clamping the optical fiber through the movable optical fiber clamp and the set of rubber pads, the rubber pad for applying pressure to the optical fiber on one side of the blade is removed, and the optical fiber cross- cutting mouth.

(2) In the short-range optical fiber cutter knife provided in the present invention, since the slope guiding structure is provided between the knife holder and the moving optical fiber clamp, the moving optical fiber clamp is moved in the direction far from the blade in the process of moving the cutter toward the optical fiber, So that the cutting angle of the optical fiber is guaranteed.

The above and other features and advantages of the present invention will be described in more detail with reference to the drawings.
1 shows the principle of an optical fiber cutter knife in the prior art;
2 shows the principle of an optical fiber cutter knife in the prior art;
3 is an overall structural explanatory diagram 1 of the present invention;
4 is an overall structural explanatory view of the present invention;
5 is an explanatory view of the present invention before cutting;
Fig. 6 is an explanatory view of a situation in which an optical fiber is pulled tightly before cutting an optical fiber according to the present invention. Fig.

Hereinafter, the present invention will be described in more detail with reference to examples and drawings. The present invention may be embodied in many different forms, and the following examples do not limit the scope of protection of the present invention. The following examples are intended to enable those skilled in the art to fully understand the scope of protection of the present invention by describing the present invention in more detail. The figures can be enlarged in size and relative size of layers and zones for clear viewing.

Optical fibers typically include an outer core and a coating layer surrounding the inner core and core, the core of which is the glass fiber portion. The cutting of the optical fiber is usually a preparation process for welding two optical fibers. It is necessary to ensure that the optical fiber after welding can transmit the signal normally, and that the optical fiber is sufficiently connected so as not to be directly engaged with the outer layer with the coating layer, The core of the fiber must be connected. Therefore, the portion matched to the optical fiber connecting portion (also referred to as the optical fiber cutting portion) must be a glass optical fiber portion, that is, a fiber optic spiral formed by peeling the outer covering and the coating layer. Also, the cross-section of the optical fiber at both ends of the connection should be smooth, most preferably a vertical mirror. The present invention relates to a short-haul optical fiber cutter knife, which makes it possible to make the outer shell and the coating layer section relatively short by ensuring an excellent optical fiber cutting edge.

3 to 6, the present invention relates to a short-distance optical fiber cutter knife, which includes a knife frame 1 and a top cover 2, and a blade guide rail (not shown) 3 and one blade 4 is mounted in the blade guide rail 3 by means of a knife holder and the knife holder allows the blade 4 to move along the blade guide rail 3, A moving optical fiber clamp 5 and a rubber clamp 6 are provided on both sides of the blade guide rail 3 so as to be perpendicular to the moving direction of the blade 4, The optical fiber is fixed to the knife frame 1 by the moving optical fiber clamp 5 and the rubber clamp 6 and the blade 4 moves along the blade guide rail 3 to cut the optical fiber 9.

The moving optical fiber clamp 5 is provided on the knife frame 1 and positioned on one side of the blade guide rail 3 and the moving optical fiber clamp 5 clamps the optical fiber 9 to form the optical fiber 9 ) And return to the home position; The moving optical fiber clamp 5 clamps the optical fiber 9 and the end of the moving optical fiber clamp 5 can directly clamp the coating layer of the optical fiber. The rubber clamp 6 is disposed on the other side of the blade guide rail 3 in the knife frame 1 and the rubber clamp 6 includes the upper rubber pad 61 and the lower rubber pad 62; The top cover 2 can cover the knife frame 1 while being connected to the knife frame 1 and the upper rubber pad 61 is attached to the top cover 2 and the lower rubber pad 62 is connected to the knife frame 1. [ When the top cover 2 covers the knife frame 1, the upper rubber pad 61 is brought into intimate contact with the lower rubber pad 62 to form one complete rubber clamp 6 In which the optical fiber 9 is clamped between the upper rubber pad 61 and the lower rubber pad 62 and is clamped to the upper rubber pad 61 and the lower rubber pad 62 in the optical fiber 9 The shell and coating layer must be peeled off, ie the optical fiber helix must be clamped. The optical fiber 9 is clamped and fixed to the upper portion of the blade guide rail 3 by the moving optical fiber clamp 5 and the rubber pad 6 so as to be installed perpendicular to the blade guide rail 3; In the initial state, the blade 4 is far from the optical fiber 9, but in operation, the blade 4 moves along the blade guide rail 3 to cut the optical fiber 9.

The optical fiber spiral (glass optical fiber part) is a very weak part, and in itself can not fix a hard object (that is, it is easy to break). In the prior art, optical fiber spirals were fixed by using upper and lower rubber pads of soft material on both sides of the cut portion; In order to maintain the horizontal orientation of the optical fiber during cutting, it is not enough to fix the optical fiber helix, and the portion including the optical fiber sheath and the coating layer is fixed with the optical fiber clamp. In the present invention, one side of the optical fiber cutting point is clamped only by the moving optical fiber clamp 5, and the other side is fixed by the rubber pad 6 Being; The peeling mouth of the optical fiber shell and the coating layer is located at an arbitrary point between the moving optical fiber clamp 5 and the blade 4. In the prior art, after removing the rubber pad on the left side of the blade, Making it possible to bring the fiber into contact with the blade as close as possible, which shortens the length of the optical fiber helix remaining after cutting; If the length of the optical fiber spiral is shortened, the optical fiber welded part becomes shorter in the subsequent welding step, and the welded part after welding is protected by covering the heat shrinkable sleeve. If this part is shortened, a more elaborate heat shrinkable sleeve can be used. , The demand for miniaturization of a fiber-to-the-fiber (FTTH) device can be more satisfactorily satisfied.

In this embodiment, as shown in Fig. 4, the moving optical fiber clamp 5 includes a clamp 501 and a clamp holder 502. Fig. The clamp holder 502 is installed in the knife frame 1 so that the clamp 501 is locked in the threaded hole 503 of the clamp holder 502 through the thread and the clamp 501 is clamped in the clamp holder 502. [ And the clamp 501 is used to clamp the optical fiber. A hollow portion 5021 is provided in the middle of the clamp holder 502 and one protruding block 101 is provided in the knife frame 1. The protruding block 101 is fixed to the hollow portion 5021 of the clamp holder 502, And a first spring 504 is interposed therebetween. The clamp holder 502 can move along the axial direction of the optical fiber in the knife frame 1 and the protruding block 101 moves relatively in the hollow portion 5021 of the clamp holder 502 during the movement, 1 spring 504 is compressed or opened. The clamp holder 505 is provided in the clamp holder 502 so that the first spring 504 moves only in the axial direction of the optical fiber 9, And after covering the cover, the first spring 504 moves only in the axial direction of the optical fiber without being distorted in the other direction during the movement.

In this embodiment, a slope guiding structure is also provided between the knife holder 7 and the moving optical fiber clamp 5, and the slope guiding structure includes the protruding portion 501 and the slope portion 702 . More specifically, one projecting portion 506 is provided on one surface of the moving optical fiber clamp 5 and the blade 4 facing each other. Specifically, the projecting portion 506 is installed in the clamp holder 502. As shown in Figs. 4 and 5, one surface of the knife holder 7 facing the moving optical fiber clamp 5 has a two-stepped shape, and one side closer to the optical fiber 9 in Fig. And the vertical distance from the first step 701 to the protruding part 506 is a distance from the second step 703 to the protruding part 506 Longer than vertical distance; The distance between the slope portion 702 and the second step 703 passes through the slope portion 702 and the distance from the slope portion 702 to the optical fiber 9 when the blade 4 is in the initial position is the distance between the blade 4) to the optical fiber (9). In the initial state, the blade 4 is located at one side of the optical fiber 9, the protruding portion 506 is in contact with the first step 701; After the start of the operation, the knife holder 7 moves the blade 4 in the direction of the optical fiber 9 and the protruding portion 506 slides along the first step 701 and moves along the slope portion 702 The protruding portion 506 moves the moving optical fiber clamp 5 in a direction farther away from the blade 4 and the protruding portion 101 is moved to the second step 703 along the slope portion 702, And the first spring 504 mounted between the hollow portion 5021 are also compressed at the same time; The moving optical fiber clamp 5 moves in a direction farther away from the blade 4 and pulls the optical fiber 9 so that the optical fiber 9 is pulled tight before being cut, (4) continue to advance and cut the optical fiber. The present invention is advantageous in ensuring the cutting angle of the optical fiber since the slope guiding structure is provided so that the optical fiber 9 is pulled up before it is cut. After the cutting is completed, the knife holder 7 returns to its initial position, at which time the second step 703 of the knife holder 7 no longer supports the protruding sidewall 506 and the first spring 504 is opened The clamp holder 502 is returned to its original position.

In this embodiment, the top cover 2 is also provided with a striking hammers 8, the striking hammers 8 are provided on the opposite sides of the top cover 2 and the knife frame 1, When the optical fiber 9 is cut to leave a cutting mark, the striking hammer 8 breaks and cuts the optical fiber 9 having already been cut. In the present invention, the blade and the striking hammer are used together to cut the optical fiber Complete. More specifically, the impact hammer 8 is installed on the top cover 2, and a second spring is installed between the impact hammer 8 and the top cover 2; When the top cover 2 is closed during the cutting operation, the impact hammer 8 and the protrusion collide with each other, and the impact hammer 8 is struck by the action of the protrusion, And the second spring is in a compressed state. When the cutting operation of the optical fiber is performed by moving the knife holder 7, the protrusion slides along the blade guide rail while simultaneously sliding against the hammer 8 until it reaches a position where it is not in contact with the hammer 8 At this time, the striking hammer 8 is lowered due to the tensile action of the top second spring, and the striking hammer 8 is lowered on the optical fiber 9 having already been cut, and the optical fiber 9 is cut. When only the blade 4 is used in the cutting operation of the optical fiber, substantially only the cutting line is formed on the optical fiber, and then the optical fiber is pulled from both sides of the blade 4. In this case, the cross section of the optical fiber is not smooth. However, in the present invention, since the optical fiber 9 is cut by using the blasting hammer 8 and the blade 4 together, the cross section of the optical fiber is relatively smooth, which is advantageous for improving the accuracy in the subsequent welding process of the optical fiber.

The present invention relates to a short-haul optical fiber cutter knife, and the cutting method specifically includes the following steps.

Step 1: First, the optical fiber skin and the coating layer are peeled off.

Step 2: One side of the well-treated optical fiber 9 is clamped with the moving optical fiber clamp 5 and the top cover 2 is covered so that the glass optical fiber portion of the optical fiber 9 is clamped to the rubber clamp 6 .

Step 3: Move the knife holder 7 to cause the blade 4 to move toward the optical fiber 9 and move the optical fiber clamp 5 through the slope guiding structure before cutting the blade 4 to the blade 4 So that the optical fiber 9 is pulled up tightly, and the blade 4 keeps moving and leaves a cutting mark on the optical fiber 9. [

Step 4: Cutting operation of the optical fiber 9 is completed by lowering the impact hammer 8 downward and cutting the optical fiber 9 with the trace already cut.

The present invention relates to a short-range optical fiber cutter knife comprising a knife frame, a blade guide rail and a blade, the blade being installed in the blade guide rail by means of a knife holder, and a moving optical fiber clamp A rubber clamp is installed, a moving optical fiber clamp and a rubber clamp are placed on both sides of the blade, and the optical fiber is fixed and clamped through a moving optical fiber clamp and a rubber pad; A slope guiding structure is provided between the blade and the moving optical fiber clamp, and when the blade moves in the optical fiber direction, the moving optical fiber clamp is moved in a direction away from the knife through the slope guiding structure to pull the optical fiber tightly. A single top cover is also installed on the short-haul fiber optic cutter knife, and a striking hammer is installed on the top cover, which is used to strike and cut an optical fiber having already been cut. In the present invention, the gap between the peeling port of the optical fiber coating layer and the optical fiber cross section is reduced by clamping the optical fiber through the mobile optical fiber clamp and the set of rubber pads, thereby eliminating the rubber pad which presses the optical fiber helix on one side of the blade. In addition, a slope guiding structure is provided between the knife holder and the moving optical fiber clamp to move the moving optical fiber clamp in a direction away from the blade in the process of moving the knife in the direction of the optical fiber, so that the optical fiber is pulled tightly, Respectively.

Those skilled in the art will appreciate that the present invention may be embodied in many other forms without departing from the basic spirit or scope of protection of the invention. The above embodiments are intended to further illustrate the present invention and do not limit the scope of protection of the present invention. Any modifications and alterations made by those skilled in the art based on the basic spirit of the invention are within the scope of the present invention.

In the figure,
1: knife frame 101: protruding block
2: top cover 3: blade guide rail
4: Blade 5: Movable fiber optic clamp
501: Clamp 502: Clamp holder
5021: hollow portion 503: threaded hole
504: first spring 505: clamp holder cover
506: projecting portion 6: rubber clamp
61: upper rubber pad 62: lower rubber pad
7: Knife holder 701: 1st step
702: slope portion 703: second staircase
8: striking hammer 9: optical fiber

Claims (7)

Wherein the moving optical fiber clamp and the rubber clamp are installed in the blade guide rail by means of a knife holder, the moving optical fiber clamp and the rubber clamp are installed in the knife frame, Placing the optical fibers on both sides of the blade, fixing and clamping the optical fiber by the moving optical fiber clamp and the rubber clamp;
Here, a slope guiding structure is provided between the blade and the moving optical fiber clamp, and when the blade moves toward the optical fiber, the moving optical fiber clamp moves in a direction away from the knife by the slope guiding structure So that the optical fiber is pulled up tightly. The method according to claim 1,
Wherein the slope guiding structure includes a protruding portion provided on the moving optical fiber clamp and a slope portion provided on the knife holder so that the protruding portion slides along the slope in contact with the slope portion before the blade hits the optical fiber And the protruding portion causes the moving optical fiber clamp to move in a direction away from the knife. 3. The method of claim 2,
Wherein the knife holder exhibits a two-step step shape with one side facing the protruding part, and the step between the two step steps is passed through the slope. 3. The method of claim 2,
Wherein an interval between the slope portion and the optical fiber is smaller than an interval between the blade and the optical fiber before the blade strikes the optical fiber. 3. The method according to claim 1 or 2,
And a top cover, wherein the top cover is connected to the knife frame. 6. The method of claim 5,
Wherein the rubber clamp comprises an upper rubber pad and a lower rubber pad, the lower rubber pad being mounted on the knife frame and positioned on one side of the blade, the upper rubber pad being mounted on the top cover, Wherein the upper rubber pad and the lower rubber pad cover the knife frame and clamp the optical fiber. 6. The method of claim 5,
Wherein the top cover is provided with a striking hammer, the top cover covers the knife frame, and the striking hammer is positioned above the optical fiber.

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