KR102395830B1 - Portable fibre optic cutting device that rotates blade equally spaced one way only using reverse-rotation prevention gears. - Google Patents

Abstract

The portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention relatively extends the service life of the blade that forms a cut-out groove at the position where the optical fiber is to be cut and has relatively high mechanical stability. It relates to a portable optical fiber cutting device, wherein the main body portion 10 is positioned below the blade driving unit 30 and vertically in contact with the rotary blade gear 34 from the side when the blade driving unit 30 moves, and the teeth are A lower rotary gear 11 formed on a side surface in contact with the rotary blade gear 313 to rotate the rotary blade gear 313, and the rotary blade center shaft 312 for rotation of the lower rotary gear 11 and It includes a lower rotary gear shaft 12 that is vertically fixedly coupled, and a one-way clutch C-2 that is fixedly coupled to the lower rotary gear shaft 12 and allows rotation of the lower rotary gear 11 only in one direction. The one-way clutch (C-1) allowing the rotation of the rotary blade gear 313 only in one direction and the one-way clutch (C-2) allowing the rotation of the lower rotary gear 11 only in one direction are It is characterized in that only opposite directions are allowed, so there is an effect that the blade can be precisely rotated only during the cutting operation of the optical fiber, and the use efficiency of the blade can be maximized because the entire blade is used evenly.

Description

Portable fiber optic cutting device that rotates blade equally spaced one way only using reverse-rotation prevention gears.

The present invention is a portable optical fiber cutting device capable of cutting an optical fiber while simultaneously forming a vertical cut surface and capable of working while holding it with one hand in a portable size. It relates to a portable optical fiber cutting device having a relatively extended service life and relatively high mechanical stability.

'Optical fiber' is a means for using light as a means of transmission, and refers to a fiber formed in the form of fibers having the inside and outside of the optical fiber made of glass fibers having different densities and refractive indices, so that the light that enters the optical fiber proceeds with total reflection.

Specifically, the 'optical fiber' is a transparent fibrous material. When light energy is input, the light energy is repeatedly transmitted in a waveform due to total reflection or refractive index gradient at the interface.

'Optical fiber' using these physical characteristics is used in optical communication type transmission lines and has developed rapidly in recent years.

Quartz glass or multi-component glass is used for the material, and the core has a large refractive index part called the core, and the outside has various structures depending on the low refractive index part called the cladder. It is used to transmit data at 2/3 of the speed of light to the destination by converting it to a destination.

On the other hand, such an optical fiber uses an optical fiber cutting-only device called an 'optical fiber cutter' or a 'cleaver' so that the cut surface can be a clean vertical cross-section during cutting for accurate fusion between the optical fibers.

Such an optical fiber cutter typically uses a 'stress rupture' method, and includes a disk-shaped blade that forms a cutting groove at a position to be cut in a state in which the optical fiber is inserted and fixed.

Prior Art 1 Application No. 10-2008-006580 As mentioned through the title "optical fiber cutting device" of the invention, this stress breaking method is one of the methods of cutting an object made of a material of high hardness such as glass, An initial incision is formed on the surface by a cutting blade made of cemented carbide or diamond, etc., and a bending stress is applied to the optical fiber to break the optical fiber. ) to get

On the other hand, the optical fiber cutting device for performing this stress rupture method is configured to move the disk-shaped blade member toward the optical fiber to form a notch on the surface of the optical fiber, so that when the blade member is repeatedly used and dull, it splits There is a problem in that the fracture surface of the optical fiber formed by the fracture due to this does not become a good mirror surface.

In order to solve this problem, the conventional optical fiber cutter disk-shaped blade can be fixed by rotating it using a tool, so that the optical fiber striking point of the dull disk-type blade can be changed so that the optical fiber can be struck with a new part. did

However, in the conventional optical fiber cutter as described above, the operation of rotating the blade member to change the contact area between the blade member and the optical fiber is cumbersome for the user, and as the location change itself is arbitrarily adjusted, the reliability according to the location change is very low. However, there is a limit to optimizing the use efficiency of the disk-shaped blade.

In order to improve the limitation that the blade use efficiency of the conventional optical fiber cutter as described above cannot be optimally maintained, the prior art 1 presses the disk-shaped blade member against the glass fiber part to form a cut on the surface of the glass fiber part of the optical fiber. and the blade member is rotated by a feeding roller synchronized with the movement operation of the rotating blade member by a contact friction force generated when the blade member comes into contact with a fixedly installed contact member during its movement path. technology was initiated.

In the prior art 1, the contact area of the blade member with the glass fiber part is automatically changed by the rotation of the blade member synchronized with the movement operation of the blade member, so that the contact area of the blade member with the glass fiber part is laborious and laborious for the operator. It can be changed automatically without doing anything.

In addition, in order to improve the limit that cannot optimally maintain the blade use efficiency of the conventional optical fiber cutter as described above, the title of the invention of Prior Art 2 Application No. 10-2016-0173424 "Optical fiber cutter for automatic equal rotation of the blade" was disclosed.

The prior art 2 relates to an optical fiber cutter for automatic equal rotation of blades, and more specifically, uniformly cuts the optical fiber to facilitate fusion, but in order to extend the life of the blade, the operation of evenly rotating the blade for cutting is first performed. After that, it has a structure in which the cutting operation for cutting the optical fiber is carried out, and the rotation of the blade is also selectable between uniform rotation and manual rotation, so that rotation can be selected according to the embodiment of the user. It relates to an optical fiber cutter for automatic equal rotation of the blade, the body assembly 10 on which the optical fiber to be cut (F) is seated on the upper surface; a slider assembly 20 installed in the body assembly 10 so as to be slidably reciprocating, and fixed to one side to cut the optical fiber F; When in close contact with the upper surface of the body assembly 10, after the blade 23 rotation operation for uniformly rotating the blade 23 mounted on the slider assembly 20 at a predetermined angle in one direction, the body assembly 10 is The optical fiber (F) cutting operation that slides to the other side and cuts the optical fiber (F) proceeds, and the operation cover assembly 30 in which the blade 23 rotation and the optical fiber (F) cutting are sequentially performed individually; The slider assembly 20 includes a blade 23 installed in a slider housing 21 for mounting on the body assembly 10, and a fixed position on one surface of the blade 23, and is mounted on the blade when rotating. The blade gear 25 for co-rotating the 23 and the blade gear 25, which are built into the one surface mounting groove 26 of the blade gear 25, are pressed by the hinge pin 29, and the blade gear 25 and the blade 23) It is characterized in that it comprises a wave washer 28 that allows the blade 23 to reciprocate on the same straight line during sliding movement by pressing and moving the Thereafter, there is an effect that the optical fiber cutting operation for optical fiber cutting is sequentially executed, respectively, and as the blade rotation can be selected either manually or automatically, depending on the state of the blade or the user's embodiment, the There is an effect that can be selected to proceed with cutting by changing the outer periphery of the blade, or to continuously perform cutting at the same position without changing the position of the blade.

That is, prior arts 1 and 2 are provided on the blade member or the operation cover to rotate the blade by pressing the gear formed on the blade, so that the blade can be rotated at a predetermined angle in connection with the cutting operation of the optical fiber. There is an advantage in that the use efficiency of the blade can be relatively increased by solving the problem of the method in which the user arbitrarily rotates the blade.

However, in the above prior arts 1 and 2, the blade member or the operation cover is rotated by pressing the blade-formed gear by means such as a pin by the operation of the operating cover. There is a problem in that the blade rotates by a predetermined angle, and this has a problem in that the entire disk-shaped blade cannot be used evenly.

In addition, there is a problem in that precise rotation cannot be achieved because the rotation is made by pressing the gear integrated with the blade by means such as a pin.

The present invention has been devised to solve the problems of the prior art as described above, and is made of a relatively small size so that it can be operated with one hand and uses a reverse rotation prevention gear to stably and accurately strike the optical fiber with a circular blade using a reverse rotation prevention gear. And, an object of the present invention is to provide a portable optical fiber cutting device capable of precisely rotating a circular blade.

In addition, an object of the present invention is to provide a portable optical fiber cutting device capable of maximizing the use efficiency of the blade due to the rotation of the circular blade being made in the preparation stage for performing the cutting operation of the optical fiber and the entire blade is used evenly. .

In addition, an object of the present invention is to provide a portable optical fiber cutting device that can relatively increase the service life of the portable optical fiber cutting device by maximizing the use efficiency of the blade.

Another object of the present invention is to provide a portable optical fiber cutting device having a structure in which blade movement and rotation can be made more stably.

Another object of the present invention is to provide a portable optical fiber cutting device capable of simultaneously cutting an optical fiber and recovering a chip by one operation in one preparation state.

Other objects of the present invention can be understood through the characteristics of the present invention, can be seen more clearly through the embodiments of the present invention, and can be realized by means and combinations indicated in the claims.

In order to achieve the problems to be solved by the present invention as described above, the present invention has the following technical features.

In the portable optical fiber cutting device, the portable optical fiber cutting device for rotating the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention includes a main body 10 forming an exterior and an upper portion of the body 10. The detachable and detachable optical fiber fixing tray 20 for fixing the optical fiber to be cut, the blade driving part 30 which moves along the movement path to generate cracks in the optical fiber, and the blade driving part 30 to cut the optical fiber ) is prepared and includes a pressing unit 40 for performing an operation and a collecting unit 50 for collecting the cut chips of the optical fiber, wherein the main body 10 is formed in a size that can be gripped with one hand, , the pressing operation unit 40 is provided with the elasticity of the coil spring at the rear relative to the front where the optical fiber fixing tray 20 is installed and hinged, and at the breaking point of the optical fiber fixed to the optical fiber fixing tray 20 The blade driving unit 30 is installed on the side so that the blade moves in the vertical direction to the optical fiber to form a crack so that it can be moved by the elastic force of the spring, and a collecting unit to collect the chips generated by cutting the optical fiber from the rear 50 has a detachable structure, and the blade driving unit 30 includes a unidirectional rotating rotary blade set 31 and a rotary blade base 32 on which the unidirectional rotary blade set 31 is mounted, the The unidirectional rotating rotary blade set 31 includes a circular rotary blade 311 and a rotary blade center shaft 312 that is fixedly installed on the blade base 32 for rotation of the rotary blade 311, and the rotary blade ( 311) and a rotary blade gear 313 that is positioned in parallel with and coupled, and fixedly coupled to the rotary blade center shaft 312 and coupled with the rotary blade gear 313 to rotate the rotary blade gear 313 in one direction and a one-way clutch (C-1) allowing only Thus, when the blade driving unit 30 is moved, the rotary blade gear 313 and the lower rotary gear are vertically in contact with the side, and the teeth are formed on the side in contact with the rotary blade gear 313 to rotate the rotary blade gear 313. (11), and a lower rotary gear shaft 12 that is vertically fixedly coupled to the rotary blade center shaft 312 for rotation of the lower rotary gear 11, and the lower rotary gear shaft 12 is fixedly coupled and a one-way clutch (C-2) allowing rotation of the lower rotary gear 11 in only one direction, and a one-way clutch (C-1) allowing rotation of the rotary blade gear 313 only in one direction ) and the one-way clutch (C-2) allowing rotation of the lower rotary gear 11 only in one direction only in opposite directions;

In addition, the blade driving unit 30 of the portable optical fiber cutting device that rotates the blade only in one direction at equal intervals using the reverse rotation prevention gear of the present invention is installed on the right side of the main body 10 and is formed in an inward direction. The one-way clutch (C-1) that moves along and allows the rotation of the rotary blade gear 313 only in a counterclockwise direction, and the one-way clutch C- 2) is allowed only in the clockwise direction, so that during the preparation operation in which the blade driving unit 30 moves inward, the lower rotary gear 11 is not allowed to rotate and the rotary blade gear 313 is allowed to rotate. The rotary blade 311 rotates in a counterclockwise direction; is a technical feature.

In addition, the pressing operation part 40 of the portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention is a pressing operation gear part 41 that turns according to the movement of the pressing operation part 40 Including, wherein the collecting unit 50 includes a gear unit 51 corresponding to the pressing operation gear unit 41 and a moving unit 52 for moving the optical fiber chip by the movement of the gear unit 51 . ; is a technical feature.

In addition, the rotary blade 311 of the portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention is that 16 steps are marked at 22.5 degree intervals; a technical feature .

The portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention rotates the blade while configuring it in a relatively small size so that it can be operated with one hand through the means for solving the above problems. In Sikkim, the optical fiber through the rotary blade gear formed on the blade, allowing rotation in only one direction, and the lower rotary gear positioned vertically with respect to the axial direction of the blade gear and allowing rotation only in the opposite direction to the rotary blade gear. There is an effect that can precisely rotate the blade only during the cutting operation.

In addition, the present invention has the effect of maximizing the use efficiency of the blade because the entire blade is used evenly.

In addition, the present invention has the effect of relatively increasing the service life of the portable optical fiber cutting device through the maximization of the use efficiency of the blade.

In addition, the present invention has the effect of stably moving and rotating the blade while implementing the rotation of the blade with a simpler structure.

In addition, the present invention has an effect that the cutting of the optical fiber and the recovery of the chip can be made at the same time by one operation using the press operation unit in the one-time preparation state.

Furthermore, through the above effects, the present invention has the effect of improving the mechanical reliability of the optical fiber cutting device.

Other effects of the present invention can be understood through the characteristics of the present invention, can be seen more clearly through the embodiments of the present invention, and can be exhibited by means and combinations shown in the claims.

1 is a view showing the appearance and configuration of a portable optical fiber cutting device that rotates a blade in only one direction at equal intervals using the reverse rotation prevention gear of the present invention;
2 is a view showing each configuration of a portable optical fiber cutting device that rotates a blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention;
3 is a view showing each configuration of a portable optical fiber cutting device that rotates a blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention;
4 is a view for explaining the blade driving part of the portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention;
5 is a view for explaining the configuration of the main body of a portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention;
6 is a view showing the coupling relationship between the rotary blade gear and the lower rotary gear according to the portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention;
7 is a view for explaining the operation of the rotary blade gear and the lower rotary gear according to the portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention set forth below refers to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that various embodiments of the present invention are different but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it should be understood that the position or arrangement of individual components in each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all scopes equivalent to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

1 is a view showing the appearance and configuration of a portable optical fiber cutting device that rotates a blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention, as shown in the drawing, a portable optical fiber cutting device according to the present invention (1) is the main body 10 forming the exterior, the optical fiber fixing tray 20 that is detachably attached to the upper part of the main body 10 and fixes the optical fiber to be cut, and moves along the movement path to generate cracks in the optical fiber A blade driving unit 30, a pressing unit 40 for performing an operation in a state in which the blade driving unit 30 is prepared to cut the optical fiber, and a collecting unit 50 for collecting the cut chips of the optical fiber made including

On the other hand, as shown in FIG. 1, the portable optical fiber cutting device 1 according to the present invention can be used while the portable optical fiber cutting device 1 according to the present invention is held with one hand based on an adult's hand. In particular, in order to close the operation of pressing the blade driving unit 30 with the thumb in the gripped state and the pressing operation unit 40 in the open state, the width is approximately 7 cm or less, and the length is 10 cm or less, In the state in which the pressing operation part 40 is opened, the height is also made to be within 8 cm.

When each configuration of the portable optical fiber cutting device 1 according to the present invention as described above is described in detail, Figs. As shown in the drawings showing each configuration, the main body 10 is formed in a size that can be gripped with one hand, and the optical fiber fixing tray 20 with the peeled optical fiber 2 end portion installed and fixed The pressing operation part 40 is provided with the elasticity of the coil spring 19 at the rear (R) with respect to the front (F) in which it is installed and is hinged.

Accordingly, the pressing operation unit 40 is normally opened by the elastic force of the coil spring 19 installed on the hinge shaft, and when the pressing operation unit 40 is pressed from the outside, the coil spring 19 is pressed while the pressing operation unit 40 is pressed. When the pressing operation unit 40 is closed and the external force is removed, it is automatically opened by the restoring force of the pressed coil spring 19 .

And, the main body 10 is the blade driving unit 30 is shown in Fig. 2 so that the blade moves in the direction perpendicular to the optical fiber so as to form a crack at the breaking point of the optical fiber 2 fixed to the optical fiber fixing tray 20. And it is installed on the side as shown in Figure 3 so that it can be moved by the elastic force of a spring (not shown).

In addition, as shown in FIGS. 2 and 3 , the main body 10 has a structure in which the collecting unit 50 is detachable to collect chips generated by cutting the optical fiber 2 at the rear (R). has

At this time, the pressing operation part 40 includes a pressing operation gear part 41 which turns according to the movement of the pressing operation part 40, and the collecting part 50 is a gear part corresponding to the pressing operation gear part 41 ( 51) and a moving unit 52 for moving the optical fiber chip by the movement of the gear unit 51.

That is, the collecting unit 50 stress-breaks the optical fiber while the pressing operation unit 40 is pressed, and thereafter, the gear unit connected to the pressing operation gear unit 41 which turns according to the movement of the pressing operation unit 40, which is opened again by elastic force. 51 rotates, and the moving part 52 associated with the rotation shaft of the gear part 51 rotates and automatically stores the remaining optical fiber chips after being broken.

As shown in FIGS. 1 to 3 , the optical fiber fixing tray 20 is inserted and fixed to the front of the main body 10 to fix the optical fiber.

That is, the optical fiber fixing tray 10 stably fixes the optical fiber in a state in which a portion of the end portion of the coated optical fiber is peeled off so that a clear break can be achieved at the breaking point.

Such an optical fiber fixing tray 10 corresponds to an optical fiber fixing means used for fixing an optical fiber in a conventional portable optical fiber cutting device and is not limited to a special shape or structure.

The blade driving unit 30 is a main configuration of the portable optical fiber cutting device 1 according to the present invention. The blade driving unit of the portable optical fiber cutting device rotates the blade in one direction at equal intervals using the reverse rotation prevention gear of the present invention. As shown in the drawings for explaining the unidirectional rotary blade set 31 and the unidirectional rotary blade set 31 is made to include a rotary blade base 32 is mounted.

As shown in FIG. 4, the unidirectional rotating rotary blade set 31 has a circular rotary blade 311 and a rotary blade center fixed to the blade base 32 for rotation of the rotary blade 311. A shaft 312, a rotary blade gear 313 positioned in parallel with the rotary blade 311, and fixedly coupled to the rotary blade center shaft 312 and coupled to the rotary blade gear 313, the It is made to include a one-way clutch (C-1) allowing rotation of the rotary blade gear 313 only in one direction, and the rotary blade center shaft 312 is coupled to the blade frame 315 as shown in FIG. 4 . It includes a washer bolt 316 consisting of a washer and a bolt for fixing, and a fixing pin p1 for coupling the rotary blade 311 and the rotary blade gear 313 and the rotary blade gear 313 and unidirectional and a fixing pin p2 for coupling the clutch C-1, and the rotary blade center shaft 312 to prevent separation of the one-way clutch C-1 coupled to the rotary blade center shaft 312 ) includes a washer nut 317 consisting of a washer and a nut screwed to.

The one-way clutch (C-1) consists of an inner ring coupled with a shaft like a bearing and an outer ring coupled with a rotating body, but has a structure that can rotate in only one direction. is a kind of

Accordingly, the unidirectional rotating rotary blade set 31 is coupled and fixed to the blade frame 315 by the washer bolt 316 with the rotary blade center shaft 312 as shown in FIG. 4, and the rotary blade 311 ) is mounted on the rotary blade center shaft 312, the one-way clutch (C-1) is firmly coupled to the rotary blade center shaft 312 using a washer nut 317, and finally the rotary blade gear ( 313 ) and the rotary blade 311 are connected and fixed with a fixing pin p1 , and the unidirectional rotating rotary blade set 31 made in this way is mounted on the rotary blade base 32 .

On the other hand, the rotary blade base 32 is coupled to the main body 10 as shown in FIG. 1 , and moves along a movement path, and a unidirectional rotating rotary blade set mounted on the rotary blade base 32 . The rotary blade 311 of (31) is also moved together.

The rotary blade 311 is a means corresponding to a disk-shaped (circular) blade used in the optical fiber cutting device, and is not limited to any specified disk-type blade, but as shown in FIG. 4, a rotary blade according to use In order to visually recognize the rotation of 311, the rotary blade 311 according to the present invention is, for example, that 16 steps are marked at 22.5 degree intervals, such as 1 to 16 numbers at 22.5 degree intervals. desirable.

As described above, in a configuration for rotating the rotary blade 311 of the unidirectional rotating rotary blade set 31 by organically combining with the blade driving unit 30 As shown in the drawing for explaining the configuration of the main body of the portable optical fiber cutting device rotating at intervals, the main body 10 according to the present invention includes a lower rotary gear 11, a lower rotary gear shaft 12, and a one-way clutch. (C-2).

And, a fixing pin p3 for coupling the lower rotary gear 11 and the one-way clutch C-2, and a state in which the one-way clutch C-2 is coupled to the lower rotary gear shaft 12 are restrained It includes a ring pin (13).

Accordingly, the main body 10 vertically couples the lower rotary gear shaft 12, engages the one-way clutch C-2 therein, and fixes it with a ring pin 13, and then the one-way clutch C-2 ) and the lower rotary gear 11 are coupled with a fixing pin (p3).

In these configurations, as shown in FIG. 5 , the blade driving part 30 is fastened to guide the movement, and a spring is built-in and is located below the spring rail part 33 which is compressed or provides restoring force.

And, as shown in FIG. 5, the lower rotary gear 11 is in vertical contact with the rotary blade gear 313 from the side when the blade driving unit 30 is moved, and the teeth are in contact with the rotary blade gear 313. It is formed on the side in contact with and rotates the rotary blade gear 313 .

The lower rotary gear shaft 12 is vertically coupled to the main body portion 10 with the rotary blade center shaft 312 for rotation of the lower rotary gear 11 .

The one-way clutch C-2 is fixedly coupled to the lower rotary gear shaft 12, and is coupled to the lower rotary gear 11 with a fixing pin p3 to limit the rotation of the lower rotary gear 11 in one direction only. allow

Therefore, the organic coupling relationship between the rotary blade gear 313 and the lower rotary gear 11 is according to the portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention in FIG. As shown in the drawing showing the coupling relationship between the rotary blade gear and the lower rotary gear, the rotary blade gear 313 and the lower rotary gear 11 are arranged so that the rotary shafts are perpendicular to each other like the bevel gear method and rotate. , As described above, the lower rotary gear 11 according to the present invention has a feature that the teeth are formed on the side in contact with the rotary blade gear 313, and the rotation of the rotary blade gear 313 is allowed only in one direction. The clutch C-1 and the one-way clutch C-2 that allow the rotation of the lower rotary gear 11 only in one direction rotates only in one direction, but has a technical feature of allowing only in opposite directions.

In the conventional bevel gear method, the directions of rotation about the axis are opposite to each other, but the rotary blade gear 313 and the lower rotary gear 11 according to the present invention are unidirectional allowing the rotation of the rotary blade gear 313 only in one direction. As the one-way clutch C-2 that allows the rotation of the clutch C-1 and the lower rotary gear 11 in one direction only in the opposite direction with respect to the axis, the rotation of the rotary blade gear 313 In this permissible direction, the lower rotary gear 11 is fixed and rotation is not permitted, and in the direction in which the rotation of the rotary blade gear 313 is not permitted, the lower rotary gear 11 is allowed to rotate.

Accordingly, FIG. 7 is shown in (a) of the drawing for explaining the operation of the rotary blade gear and the lower rotary gear according to the portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using the reverse rotation prevention gear of the present invention As shown, the blade driving unit 30 is installed on the right side of the main body 10 to move along the movement path formed in the inward direction, and a one-way clutch (C-1) allowing rotation of the rotary blade gear 313. is allowed only in the counterclockwise direction, and when the one-way clutch (C-2) that allows the rotation of the lower rotary gear 11 is allowed only in the clockwise direction, the blade driving unit 30 is prepared to move in the inward direction During operation, the lower rotary gear 11 is fixed to be immovable because rotation is not allowed, and the rotary blade gear 313 is allowed to rotate and the lower rotary gear 11 is fixed by the fixed lower rotary gear 11. As it passes, the rotary blade 311 rotates counterclockwise.

Conversely, as shown in (b) of FIG. 7 , in the process of returning to cut the optical fiber, the lower rotary gear 11 is allowed to rotate so that rotation is possible, whereas the rotary blade gear 313 is rotated. As this is not allowed and is fixed, as the lower rotary gear 11 rotates at the point where they meet while passing through the lower rotary gear 11, the fixed rotary blade 311 moves as it is without any resistance to strike the optical fiber 2 be able to

In the above, the present invention has been described based on a preferred embodiment, but the technical spirit of the present invention is not limited thereto, and it is possible to make modifications or changes within the scope described in the claims. Those of ordinary skill in the art to which the present invention pertains It is obvious to the user, and such modifications or changes shall fall within the scope of the appended claims.

1: Portable optical fiber cutting device according to the present invention
2: optical fiber
10: body part
11: lower rotary gear
12: lower rotary gear shaft
13: ring pin
19: coil spring
20: optical fiber fixed tray
30: blade driving part
31: one-way rotating rotary blade set
32: rotary blade base
33: spring rail part
40: press control unit
41: push operation gear part
50: collection unit
51: gear unit
52: moving part
311: rotary blade
312: rotary blade center axis
313: rotary blade gear
315: blade frame
316: washer bolt
317: washer nut
C-1 : One-way clutch
C-2: one-way clutch
p1, p2, p3 : fixing pin

Claims (4)

In the portable optical fiber cutting device,
The main body 10 forming the exterior, the optical fiber fixing tray 20 that is detachably attached to the upper part of the main body 10 and fixes the optical fiber to be cut, and a blade that moves along the movement path and creates a crack in the optical fiber It includes a driving unit 30, a pressing unit 40 for performing an operation in a state in which the blade driving unit 30 is prepared to cut the optical fiber, and a collecting unit 50 for collecting the cut chips of the optical fiber. but,
The body portion 10 is formed to a size that can be gripped with one hand, and the pressing operation portion 40 is provided with the elasticity of the coil spring at the rear relative to the front where the optical fiber fixing tray 20 is installed and is hinged. and the blade driving unit 30 is installed on the side so that the blade moves in the vertical direction to the optical fiber to form a crack at the breaking point of the optical fiber fixed to the optical fiber fixing tray 20 so that it can be moved by the elastic force of the spring and has a structure in which the collecting unit 50 is detachable to collect chips generated by cutting the optical fiber from the rear,
The blade driving unit 30 includes a unidirectional rotary blade set 31 and a rotary blade base 32 on which the unidirectional rotary blade set 31 is mounted,
The unidirectional rotating rotary blade set 31 includes a circular rotary blade 311 and a rotary blade center shaft 312 fixedly installed on the blade base 32 for rotation of the rotary blade 311, and the rotary blade (311) and a rotary blade gear 313 that is positioned and coupled in parallel, and fixedly coupled to the rotary blade center shaft 312 and coupled with the rotary blade gear 313 to rotate the rotary blade gear 313 Consists of including a one-way clutch (C-1) that allows only one direction,
The main body portion 10 is located below the blade driving unit 30 and is in contact with the rotary blade gear 34 from the side when the blade driving unit 30 moves, and the teeth are in contact with the rotary blade gear 313. A lower rotary gear 11 formed on a side surface to rotate the rotary blade gear 313, and a lower rotary gear vertically fixedly coupled to the rotary blade center shaft 312 for rotation of the lower rotary gear 11 A shaft 12 and a one-way clutch (C-2) that is fixedly coupled to the lower rotary gear shaft 12 and allows rotation of the lower rotary gear 11 in only one direction,
The one-way clutch C-1 allowing the rotation of the rotary blade gear 313 only in one direction and the one-way clutch C-2 allowing the rotation of the lower rotary gear 11 only in one direction are opposite to each other. A portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using a reverse rotation prevention gear, characterized in that only allowing only one. According to claim 1,
The blade driving unit 30 is installed on the right side of the main body 10 and moves along a movement path formed in the inward direction,
The one-way clutch C-1 allowing rotation of the rotary blade gear 313 is allowed only in a counterclockwise direction, and the one-way clutch C-2 allowing rotation of the lower rotary gear 11 is clockwise. Only by allowing the blade driving unit 30 to move inward, the lower rotary gear 11 is not allowed to rotate, and the rotary blade gear 313 is allowed to rotate, so that the rotary blade 311 is rotated. A portable optical fiber cutting device that rotates the blade at equal intervals only in one direction using a reverse rotation prevention gear, characterized in that it rotates counterclockwise. According to claim 1,
The pressing operation unit 40 includes a pressing operation gear unit 41 that turns according to the movement of the pressing operation unit 40,
The collecting unit 50 includes a gear unit 51 corresponding to the pressing operation gear unit 41 and a moving unit 52 for moving the optical fiber chip by the movement of the gear unit 51; A portable optical fiber cutting device that rotates the blade in one direction at equal intervals using a reverse rotation prevention gear. According to claim 1, wherein the rotary blade (311)
A portable optical fiber cutting device that rotates the blade only in one direction at equal intervals using a reverse rotation prevention gear, characterized in that 16 steps are marked at intervals of 22.5 degrees.

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