KR101779405B1 - The apparatus of cutting a optical fiber for auto uniform rotating of blade - Google Patents

Abstract

The present invention relates to an optical fiber cutter for automatic equalization of blades. More particularly, the present invention relates to an optical fiber cutter for automatic equalization of blades which enables a structure to progress a cutting operation for cutting an optical fiber after progressing an operation for equally rotating blades for cutting to extend durability of the blades while easily fusing by uniformly cutting the optical fiber, and enables rotation of the blade to be selected as one of equalization rotation and passive rotation. Therefore, a rotation state can be selected by an embodiment of a user.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical fiber cutter for automatic equalization of blades,

The present invention relates to a method for cutting an optical fiber, in which an operation for cutting an optical fiber is advanced after an operation of evenly rotating a blade used for cutting is advanced, and a blade automatic equalization To a dedicated optical fiber cutter.

An optical fiber is a fiber-shaped waveguide for the purpose of transmitting light. It is bundled into several strands and used in the form of an optical cable. Although it is made of synthetic resin, it is mainly made of glass with good transparency. The optical fiber consists of a central core, a cladding surrounding it, and a double cylindrical structure formed by the core and cladding, which are coated with synthetic resin one or two times.

Such an optical fiber does not interfere with or interfere with external electromagnetic waves and is difficult to be tapped. It is small and light in weight and resistant to bending, and can receive a large number of communication lines in one optical fiber and is resistant to changes in the external environment It is widely used. This optical fiber needs to be cut and connected, and the cut surface must have a mirror surface of a vertical section with respect to the optical axis direction of the optical fiber, as in the case where the optical fiber is not used.

The optical fiber cutter that cuts the optical fiber in the mirror surface state in such a manner is generally configured to open the cover and set the optical fiber in a state where the knife is retracted and cover the cover so that the optical fiber is completely cut while the knife advances in one direction .

There has been a problem in that abrasion occurs due to continued use of only a part of the outer periphery of the blade-in knife, and thus the outer periphery of the knife must be newly detached or manually rotated.

Registration Practical Utility Model Bulletin 20-0280315 (Registered on June 19, 2002)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a method of cutting an optical fiber, in which an operation of cutting an optical fiber, In addition,

And to provide a blade automatic equalization-dedicated optical fiber cutter capable of evenly rotating the blade to extend the service life of the blade, but also to allow automatic change of the rotation of the blade as well as manual change according to the embodiment of the user.

Other objects and advantages of the present invention will be described hereinafter and will be understood by the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by the means and the combination shown in the claims.

In order to solve the above-mentioned problems, the present invention provides a body assembly 10 in which an optical fiber F to be cut is placed on an upper surface thereof; A slider assembly 20 slidably reciprocable in the body assembly 10 and fixed to one side for cutting the optical fiber F; After the blade 23 is rotated to uniformly rotate the blade 23 mounted on the slider assembly 20 uniformly at a predetermined angle in one direction when the body assembly 10 is closely contacted with the upper surface of the body assembly 10, An operation cover assembly (30) slidably moved to the other side and an optical fiber (F) cutting operation for cutting the optical fiber (F) proceeds to sequentially perform rotation of the blade (23) and cutting of the optical fiber (F); And a control unit.

As described above, the present invention has an effect that the optical fiber cutting operation for cutting the optical fiber is sequentially performed after the operation of rotating the blade in the cutting operation of the optical fiber.

Further, according to the present invention, since the rotation of the blade can be selected either manually or automatically, the cutting can be performed by changing the outer circumferential portion of the blade used in cutting according to the state of the blade or the embodiment of the user, There is an effect that a selection can be made so that the cutting operation can be continuously performed at the same position without changing the position.

In addition, the present invention has the effect of easily and easily cutting the optical fiber in the state of a single-stranded or ribbon-shaped ribbon, so that the fusion of the optical fibers can be done easily.

1 is a perspective view of an optical fiber cutter according to an embodiment of the present invention.
2 is a perspective view of an embodiment of a body assembly according to the present invention.
3 is a perspective view of an embodiment of a slider assembly according to the present invention.
4 is a perspective view of an embodiment of an actuation cover assembly according to the present invention.
Figure 5 is an internal exploded view of Figure 3 in accordance with the present invention;
6 is an operational view of one embodiment illustrating a certain angular rotation of the blade through a gear pusher in accordance with the present invention.
7 is an operational view of one embodiment illustrating the operation of a gear pusher such that the blade is not evenly rotated with a set screw according to the present invention;

Before describing in detail several embodiments of the invention, it will be appreciated that the application is not limited to the details of construction and arrangement of components set forth in the following detailed description or illustrated in the drawings. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front,""back,""up,""down,""top,""bottom, Expressions and predicates used herein for terms such as "left,"" right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

The present invention has the following features in order to achieve the above object.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

According to one embodiment of the present invention,

A body assembly 10 on which an optical fiber F to be cut is seated on an upper surface; A slider assembly 20 slidably reciprocable in the body assembly 10 and fixed to one side for cutting the optical fiber F; The optical fiber bundle 23 is hinged to the upper surface of the body assembly 10 and fixes the position of the optical fiber F when the upper body of the body assembly 10 is in close contact with the upper surface of the body assembly 10. The blade 23 mounted on the slider assembly 20 The position of the slider assembly 20 fixed to one side of the body assembly 10 is released after the rotation operation of the blade 23 that uniformly rotates the slider assembly 20 at a predetermined angle predetermined by the body assembly 10, An operation cover assembly 30 slidably moved to cut an optical fiber F and performing an optical fiber F cutting operation so that rotation of the blade 23 and cutting of an optical fiber F are sequentially performed; And a control unit.

Further, the slider assembly 20 includes a blade 23 installed on the slider housing 21 to be mounted on the body assembly 10; A blade gear 25 fixedly mounted on one surface of the blade 23 and rotating together with the blade 23 during rotation; The blade 23 and the blade 23 are pressed against each other by the hinge pin 29 so that the blade 23 and the blade 23 are pressed against each other. A wave washer 28 for reciprocating on the same straight line; .

The operation cover assembly 30 includes a gear pusher 35 formed on a bottom surface of the slider assembly 20 to rotate the blade gear 25 mounted on the slider assembly 20; An elastic portion 36 provided at one end of the gear pusher 35 to allow the gear pusher 35 to rotate the blade gear 25 and tilt the blade gear 25 at a predetermined angle; And a control unit.

The operation cover assembly 30 further includes a set screw 39 for pushing and fixing the gear pusher 35 to one side so as not to correspond to the blade gear 25, It is possible to manually rotate the blade 23 without rotating the blade gear 25 in addition to the automatic mode in which the blade gear 25 rotates and the blade 23 rotates uniformly when the blade gear 25 is in close contact with the upper surface of the body assembly 10. [ So that it can be used in a manual mode.

The body assembly 10 is provided with a cutting space 13 for cutting an optical fiber F therebetween so as to be opposed to and spaced apart from each other to support both sides of the cut portion of the optical fiber F, The optical fiber F is positioned and fixed in contact with a plurality of upper clamps 40 protruding from the bottom surface of the operation cover assembly 30.

The body assembly 10 has a seat 12 on which a holder H mounted with the optical fiber F is mounted and a magnetic body 11 is mounted on the seat 12, ) Can be fixed in position.

Hereinafter, an optical fiber cutter for blade automatic equalization according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 7. FIG.

The optical fiber cutter for blade automatic equalization according to the present invention includes a body assembly 10, a slider assembly 20, and an operation cover assembly 30 on which an optical fiber F to be cut, which is a single or a plurality of optical fibers F, .

The slider assembly 20 is mounted on one side of the body assembly 10 while the optical fiber F to be cut is mounted on the upper surface and the operation cover assembly 30 is hinged on the upper surface.

The body assembly 10 is provided with a seating part 12 recessed on one side of the upper surface of the body assembly 10. An optical fiber F having a single strand or a ribbon of optical fibers F So that the holder H passing through the inside of the holder H is mounted.

That is, the holder H holding the optical fiber F corresponds to the seating portion 12 and is seated and fixed. In the present invention, the magnetic body 11 (magnet or the like) is provided at the seating portion 12 And a metal or magnetic body 11 which can be attached to the bottom surface of the holder H when the magnetic body 11 is brought into contact with the bottom surface of the holder H, .

The body assembly 10 includes a slider assembly 20 mounted on the inner circumference of the coupling part 15 so that the slider assembly 20 is mounted on one side of the body assembly 10, A gear portion 16 for sliding movement is mounted, and the sliding groove 17 is recessed in forward and backward directions. In addition, the cutting space 13 is also cut on the upper surface so that portions of the outer periphery of the mounted slider assembly 20 protrude to the upper portion of the body assembly 10. [

The lower end clamp 14 is formed on both sides of the cutting space 13 so as to correspond to the optical fibers F so that when the holder H is seated on the seating part 12, So that the optical fibers F protruded to one side are seated across the upper surface of the plurality of lower clamps 14 on both sides of the cutting space 13. [

As described above, the slider assembly 20 corresponds to one side fastening portion 15 of the body assembly 10 and is fitted and fixed.

The sliding piece and the gear portion 16 are slidably supported on the outer surface of the slider housing 21 of the slider assembly 20 so as to be slidable in correspondence to the sliding grooves 17 of the body assembly 10 in the lengthwise direction, So that a linear slide gear to be meshed with the slide gear is formed. Accordingly, the slider assembly 20 is structured to be able to slide forward and backward in a state of being mounted on the body assembly 10.

The slider assembly 20 is attached to the body assembly 10 while the position of the slider assembly 20 is fixed to one side of the body assembly 10 and the cutter button 30 The position fixation of the body assembly 10 is canceled and the optical fiber F is cut while sliding on the other side.

In other words, it is obvious that the elastic members used in the different structures are not the same on the upper surface of the slider assembly 20, for example, the springs, the elastic members and the elastic members. (Not shown) capable of being protruded and inserted into the body assembly 10. These protrusions correspond to the lower ends of the holes 18 on the inner circumferential edge of one side of the body assembly 10, . A pressing pin 19 is provided on the opposite side of the hole 18 to move up and down by an elastic member and protrude from the upper portion of the body assembly 10. [ (Of course, at this time, the gear portion 16 of the body assembly 10 is connected to another elastic member in the body assembly 10, so that the elastic member is forcibly wound and rotated together when the elastic member is returned to its original state. The operation cover assembly 30 is brought into close contact with the body assembly 10 and the operation cover assembly 30 is moved to the bottom surface corresponding to the pressing pins 19 The pressing pin 19 is lowered along the hole 18 and the protrusion of the slider assembly 20 fitted in the hole 18 is pushed out of the hole 18 The slider assembly 20 is slid to the other side and the optical fiber F is cut by the blade 23 due to the restoring force of the gear portion 16 to return to the original position. When the operation cover assembly 30 is lifted up, the pushing piece 31 extended to one side of the operation cover assembly 30 is slid to the other side and the slider assembly 20 is slid to the other side The slider assembly 20 is pushed to one side so as to rotate the gear portion 16 of the body assembly 10 to compress the elastic member connected to the gear portion 16, A protrusion formed on the upper surface of the slider assembly 20 is inserted into the hole 18 at the inner circumferential edge of one side of the body assembly 10 so that the position of the slider assembly 20 (This sliding structure of the blade 23 can be variously modified by a known technique widely used in conventional optical fiber (F) cutters.)

The slider assembly 20 includes a blade 23, a blade gear 25, a wave washer 28, and a hinge pin 29.

The blade 23 is mounted inside the slider housing 21 described above and is mounted such that a part of the outer periphery of the blade 23, which is a blade, protrudes upward,

The blade gear 25 is fixed to one side of the blade 23 by a fixing pin 27 and is fixed integrally with the blade gear 25. A thread 24 is formed around the outer periphery of the blade gear 25, Has the function of rotating the blade 23 together with the rotation so that the blade gear 25 is rotated through the gear pusher 35 of the operation cover assembly 30 to be described later so that the blade 23 rotates . In other words, since the outer circumferential portion of the outer periphery of the blade 23 protruded to the upper portion of the slider housing 21 is used for cutting, by changing the position by rotating the outer circumferential cutting portion, So that the service life can be prolonged.

The wave washer 28 is a washer in a wave form, which is inserted into one surface of the blade gear 25 mounted on the blade, that is, one surface mounting groove 26 of the blade gear 25. A hinge pin 29 is inserted in the center of the wave washer 28 and is fixed to the slider housing 21 after passing through the blade gear 25 and the blade 23. That is, the hinge pin 29 presses the wave washer 28 and positions it so that the blade gear 25 and the blade 23 are securely fixed to the slider housing 21, and the blade 23 ) Can be reciprocated in a straight line when sliding.

The operation cover assembly 30 is hinged on one side of the upper surface of the body assembly 10 so that the operation cover assembly 30 can be opened or closed on the upper surface of the operation cover assembly 30.

The operation cover assembly 30 is installed on the upper surface of the body assembly 10 in a direction perpendicular to the holder H in which the optical fiber F is inserted, As shown in FIG.

The operation cover assembly 30 further includes a pushing piece 31 that is bent at a right angle toward the lower end on one side of the hinge coupling 30 so that the operation cover assembly 30 is supported by the body assembly 10 When the operation cover assembly 30 is lifted to the upper portion of the body assembly 10 after the slider assembly 20 is slid and slid from one side to the other side, The sliding assembly is pushed to one side and serves to reposition itself to the pre-actuated position.

The operation cover assembly 30 includes a plurality of upper clamps 40 which are in contact with a plurality of lower clamps 14 of the body assembly 10 described above, So that the position of the optical fiber (F) can be fixed.

Between the plurality of upper clamps 40, a blade groove 32 capable of moving upward and downward is formed by an elastic member or the like disposed inside the operation cover assembly 30. The blade groove 32 The support 33 and the blade 23 sliding in one direction correspond to each other and the blade groove 34 into which the blade 33 is fitted is formed. That is, when the operation cover assembly 30 is in close contact with the upper surface of the body assembly 10, the support body 33 is fixed to the support surface 22 of the slider assembly 20 to which the blade 23 is fixed, And the blade groove portion 32 is positioned corresponding to the front end of the blade 23 in the direction of movement of the blade 23 protruded above the cutting space 13. Accordingly, when the blade 23 is operated, the blade 23 is moved in one direction along the blade groove 32.

The operation cover assembly 30 is provided at one end of a gear pusher 35 and a gear pusher 35 protruded to the bottom surface corresponding to the blade gear 25 mounted on the slider assembly 20, And an elastic portion 36 for allowing the gear pusher 35 to be bent by a predetermined angle when the gear pusher 35 is contacted with the blade gear 25 is provided. Of course, a first long hole 37 is formed around the gear pusher 35 of the operation cover assembly 30 so that the gear pusher 35 can be bent, and the gear pusher 35 The second elongated hole 38 is also formed in the direction perpendicular to the first elongated hole 37 (the direction of arrangement of the optical fibers F raised on the upper surfaces of the plurality of lower clamps 14).

The gear pusher 35 is further provided with a set screw 39 provided at one side where the gear pusher 35 is formed so as to be able to move forward and backward toward the gear pusher 35, , The set screw 39 is pushed toward the gear pusher 35 and the gear pusher 35 is pushed and fixed to one side (one side of the blade 23) along the second long hole 38, Even when the cover assembly 30 is in close contact with the upper surface of the body assembly 10, the gear pusher 35 is not brought into contact with the blade gear 25 so that the blade 23 is not rotated uniformly.

That is, in the case of the present invention, in addition to the automatic mode in which the blade gear 25 is rotated and the blade 23 is evenly rotated, the position of the aforementioned gear pusher 35 is changed according to the embodiment of the user, So that the blade 23 can be manually rotated. The fact that the blade 23 does not rotate means that the current cutting portion of the outer periphery of the blade 23 will be continuously used and the hinge pin 29 is rotated according to the embodiment of the user to rotate the blade gear 25 and the blade 23 can be manually rotated.

Of course, since the hinge pin 29 serves to fix the blade gear 25 and the blade 23 to the slider housing 21, the blade gear 25 and the blade 23 are connected to each other via the hinge pin 29, It will be appreciated that the upper and lower positions can also be fixed to the slider housing 21 by variously adjusting the height according to the embodiment.

That is, in the case of the operation cover assembly 30 according to the present invention, the position of the optical fiber F is fixed when the upper surface of the body assembly 10 is closely contacted thereto, and the blade 23 mounted on the slider assembly 20 is moved in one direction The position fixation of the slider assembly 20 fixed at one side of the body assembly 10 is released after the blade 23 rotating operation is uniformly rotated at a predetermined angle, And the cutting operation of the optical fiber F cutting the optical fiber F is performed so that the rotating operation of the blade 23 and the cutting operation of the optical fiber F are sequentially performed separately.

In addition to the automatic mode in which the rotational operation of the blade 23 is automatically performed at the same time that the operation cover assembly 30 contacts the body assembly 10, the blade gear 25 is not rotated so that the blade 23 can be manually rotated And to operate in manual mode.

In addition, a chip collection box 60, which can be collected by dropping the cut optical fiber (F) chip, is installed at one side of the operation cover assembly 30 (or the other side of the body assembly 10).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

10: body assembly 11: magnetic body
12: seat part 13: cutting space
14; Lower clamp 15: fastening portion
16: gear portion 17: sliding groove
18: hole 19: push pin
20: Slider assembly 21: Slider housing
22: support surface 23: blade
24: thread 25: blade gear
26: mounting groove 27: fixing pin
28: wave washer 29: hinge pin
30: Operation cover assembly 31: Pushing piece
32: blade groove portion 33; Support
34: blade groove 35: gear pusher
36: Elastic part 37: First slot
38: 2nd slot 40: upper clamp
41: Cutting button 50: Slide gear
51: Slide piece 60: Chip collection box
F: Optical fiber H: Holder

Claims (6)

A body assembly 10 on which an optical fiber F to be cut is seated on an upper surface;
A slider assembly 20 slidably reciprocable in the body assembly 10 and fixed to one side for cutting the optical fiber F;
After the blade 23 is rotated to uniformly rotate the blade 23 mounted on the slider assembly 20 uniformly at a predetermined angle in one direction when the body assembly 10 is closely contacted with the upper surface of the body assembly 10, And an operation cover assembly (30) slidably moved to the other side and an optical fiber (F) cutting operation for cutting the optical fiber (F) proceeds to sequentially perform the rotation of the blade (23) and the cutting of the optical fiber In addition,
The slider assembly 20 includes a blade 23 mounted on a slider housing 21 to be mounted on the body assembly 10 and a blade 23 fixedly mounted on one surface of the blade 23, The blade gear 25 and the one side mounting groove 26 of the blade gear 25 are pressed together by a hinge pin 29 to press the blade gear 25 and the blade 23 against each other. And a wave washer (28) for allowing the blade (23) to reciprocate on the same straight line during sliding movement by floating the position of the blade (23).
The method according to claim 1,
The actuation cover assembly (30)
A gear pusher 35 formed on the bottom surface of the slider assembly 20 so as to rotate the blade gear 25 mounted on the slider assembly 20;
An elastic portion 36 provided at one end of the gear pusher 35 to allow the gear pusher 35 to rotate the blade gear 25 and tilt the blade gear 25 at a predetermined angle;
And an optical fiber cutter for automatic equalization of the blade.
3. The method of claim 2,
The actuation cover assembly (30)
And a set screw 39 for pushing and fixing the gear pusher 35 to one side so as not to correspond to the blade gear 25,
When the operation cover assembly 30 is in close contact with the upper surface of the body assembly 10,
In addition to the automatic mode in which the blade gear 25 is rotated and the blade 23 is evenly rotated, it is possible to use the manual mode in which the blade gear 25 is not rotated so that the blade 23 can be manually rotated Features a fiber optic cutter for automatic equalization of blades.
The method according to claim 1,
The body assembly (10)
In order to support both sides of the cut portion of the optical fiber F,
A lower clamp 14 is provided on the upper surface of the upper cover 14 so as to be spaced apart from each other with a cutting space 13 therebetween for cutting an optical fiber F and an optical fiber F is mounted on the upper surface. And the optical fiber (F) is fixed in position by making contact with the plurality of upper clamps (40) formed.
The method according to claim 1,
The body assembly (10)
And a mounting part (12) on which a holder (H) equipped with the optical fiber (F) is mounted,
Wherein a magnetic body (11) is installed on the seating part (12) so that the holder (H) can be fixed in position.
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