CN114200583A - Improved optical fiber stripper - Google Patents

Improved optical fiber stripper Download PDF

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Publication number
CN114200583A
CN114200583A CN202111225448.XA CN202111225448A CN114200583A CN 114200583 A CN114200583 A CN 114200583A CN 202111225448 A CN202111225448 A CN 202111225448A CN 114200583 A CN114200583 A CN 114200583A
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CN
China
Prior art keywords
peeling
pair
base
channel
handle
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Pending
Application number
CN202111225448.XA
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Chinese (zh)
Inventor
杨坤楠
仇琨媚
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Shanghai Kunshang Electronic Technology Co ltd
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Shanghai Kunshang Electronic Technology Co ltd
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Priority to CN202111225448.XA priority Critical patent/CN114200583A/en
Publication of CN114200583A publication Critical patent/CN114200583A/en
Pending legal-status Critical Current

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    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B6/00Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
    • G02B6/24Coupling light guides
    • G02B6/245Removing protective coverings of light guides before coupling

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Light Guides In General And Applications Therefor (AREA)

Abstract

The invention discloses an improved optical fiber stripper, which belongs to the field of optical fibers and comprises a base, a stripping handle, a pair of adjusting seats, a pair of stripping tool bits and a reducing structure, wherein the stripping tool bits are arranged on the base; one end of the peeling handle, which is far away from the adjusting seat, is rotatably connected with the base, and the other end of the peeling handle is elastically connected with the base; the pair of adjusting seats are respectively connected to the two end faces of the base; a mounting channel is formed between the pair of adjusting seats; the reducing structure rotates and locates in the installation passageway, can stretch into and wear out optic fibre from between a pair of knob portion, a pair of knob portion and a pair of reducing portion can integrated into one piece in this scheme, then rotate knob portion, through the different depressed part of reducing portion outside sunken degree, adjust the minimum distance between the last spacing portion of two blades, when pinching a pair of handle of skinning, go up spacing portion and rather than keeping the same recess contact on the straight line, two blades are close to, form the passageway of skinning, it can strip the optic fibre crust to become to pinch a pair of handle limit pulling optic fibre of skinning.

Description

Improved optical fiber stripper
Technical Field
The invention relates to the field of optical fibers, in particular to an improved optical fiber stripper.
Background
Optical fibers are short for optical fibers, and are fibers made of glass or plastic that can be used as a light conducting means. The principle of transmission is "total reflection of light".
The optical fiber is of low stiffness and small diameter and is typically encased in a plastic jacket so that it can be bent without breaking. However, in the actual working process, the plastic sheath sometimes needs to be stripped, at present, a blade is generally adopted to directly strip the optical fiber, the stripping speed is slow, an accidental finger scratch can be caused sometimes, the safety is not high, the stripping effect is poor, the stability is poor, the action is slow, and the stripping of the optical fiber is difficult for the optical fiber of which two ends are fixed and the plastic sheath needs to be stripped in a certain position in the middle.
Disclosure of Invention
In view of the problems in the prior art, it is an object of the present invention to provide an improved optical fiber stripper.
In order to solve the above problems, the present invention adopts the following technical solutions.
An improved optical fiber stripper comprises a base with a U-shaped structure, stripping handles arranged on two sides of the base, a pair of adjusting seats, a pair of stripping tool bits and a reducing structure; one end of the peeling handle, which is far away from the adjusting seat, is rotatably connected with the base, and the other end of the peeling handle is elastically connected with the base, so that the pair of peeling handles can rotate relative to the base to move inwards to be close to or outwards to be far away from; the pair of adjusting seats are respectively connected to two end faces of the base and are vertically distributed with the peeling handle; a mounting channel is formed between the pair of adjusting seats; the peeling tool bits are respectively arranged in the adjusting seats, one end of each peeling tool bit extends to the inner side of the mounting channel, and the other end of each peeling tool bit extends into a gap formed between the peeling handle and the base; the reducing structure is rotatably arranged in the mounting channel, and the rotating reducing structure can adjust the minimum peeling distance of the peeling channel; when the pair of peeling handles are close to each other inwards, the parts of the pair of peeling heads, which are positioned at the inner side of the mounting channel, form a peeling channel; when the pair of peeling handles are far away from the outer side, the peeling channel is opened.
Furthermore, the elastic connection part of the base and the peeling handle is provided with a first compression spring, the base and the peeling handle are respectively provided with a spring seat corresponding to the first compression spring, and two ends of the first compression spring are respectively fixed in the spring seats.
Furthermore, the inner side wall of the base is provided with scale marks.
Further, at least one adjusting seat is connected with the base in a sliding mode. When the adjusting seat moves outwards relative to the base, the left part and the right part of the reducing structure are away from each other, the mounting channel is opened, the peeling channel is continuously opened, and a space for the optical fiber to enter is generated.
Furthermore, an optical fiber clamping groove is formed in the middle of the base and is located on one side far away from the adjusting seat.
Furthermore, a sliding block is arranged in the middle of the base in a sliding mode.
Furthermore, a through groove corresponding to the optical fiber clamping groove is formed in the sliding block.
Further, the peeling tool bit comprises a shape tool apron, a blade and an upper limit part and a lower limit part of the blade; a tool bit movable cavity and upper and lower limiting channels are arranged in the adjusting seat; one end of the tool bit movable cavity is communicated with the installation channel, the other end of the tool bit movable cavity is communicated with a gap generated between the peeling handle and the base, and the shape tool apron is arranged in the tool bit movable cavity; the blade is arranged on one side of the shaped blade holder close to the installation channel, the upper limit part and the lower limit part are respectively arranged on two side surfaces of the blade, the upper limit channel and the lower limit channel are respectively arranged on the upper side wall and the lower side wall of the movable cavity of the blade head, and the upper limit part and the lower limit part are respectively and correspondingly arranged in the upper limit channel and the lower limit channel.
Furthermore, the peeling channel is of a square structure, so that each blade is provided with an equilateral triangle notch.
Furthermore, two protruding parts are arranged on one side of the blade close to the mounting channel, and the two protruding parts are respectively arranged on two sides of the notch.
Further, the two protruding parts on one of the blades are bent upwards, and the two protruding parts on the other blade are bent downwards, so that the protruding parts on the two blades are bent to be away from each other, and the two blades can be folded close to each other during peeling.
Further, the bending angle of the protruding part relative to the horizontally placed blade is 0.5-2 degrees.
Furthermore, when the adjusting seat is connected with the base in a sliding manner, a second compression spring is fixedly connected between the side wall of the shaped cutter seat and the side wall of the cutter head movable cavity close to the installation channel.
Furthermore, when the adjusting seat is connected with the base in a sliding manner, a finger ring is arranged on the outer side of the adjusting seat which can slide.
Furthermore, when adjusting seat and base sliding connection, slidable adjusts the seat outside and is equipped with the bar bulge piece.
Further, with base sliding connection's regulation seat's both sides are equipped with the slide bar, all are equipped with the slide that corresponds with the slide bar at the both sides face of adjusting the seat, slide bar sliding connection all is equipped with the locating hole in the slide at the head end and the end of slide.
Further, when adjusting seat and base fixed connection, fixedly connected with connecting block between skinning tool bit and the handle of skinning.
Furthermore, the reducing structure is provided with a left part and a right part which are respectively connected with the pair of adjusting seats, the outer side of the reducing structure is of a wave-shaped structure, and the minimum peeling distance of the peeling channel is adjusted through different sinking degrees of the wave-shaped structure at the outer end of the reducing structure.
Further, the left part and the right part of the reducing structure are composed of a knob part and a reducing part, the knob part and the reducing part are fixedly connected from top to bottom, the outer sides of the knob part and the reducing part are both designed to be of a wave-shaped structure, the sinking degree of the wave-shaped structure outside the knob part is the same, the sinking degree of the wave-shaped structure outside the reducing part is increased in sequence anticlockwise or clockwise, the peeling tool bit is positioned outside the pair of reducing parts, and the distance between the two peeling tool bits is adjusted through the sinking degree outside the reducing part.
Furthermore, the left part and the right part of the reducing structure can be integrally formed or can be independently separated.
Furthermore, the outer side surface of the knob part is provided with indicating numbers, and each indicating number corresponds to a concave part which is arranged on the outer side of the reducing structure and used for adjusting the minimum peeling distance of the peeling channel.
Further, the two knob portions have 16 recesses and 16 protrusions.
Further, the two diameter-changing portions have 8 recesses and 8 protrusions.
Furthermore, the concave part on the outer side of the knob part is arranged corresponding to the concave part on the outer side of the reducing part.
Furthermore, grooves are formed in the opposite side faces of the two diameter-changing portions, and an extension spring is fixedly connected between the pair of grooves.
Furthermore, an anti-disengaging mechanism is arranged between the variable-diameter part and the installation channel and used for limiting the variable-diameter part to rotate only in the installation channel.
Further, anti-disengaging mechanism includes arc track and mousing-hook, the arc track sets up in the variable diameter portion downside, mousing-hook one end is located the arc track inboard, the other end with adjust seat fixed connection.
Compared with the prior art, the invention has the advantages that:
one, this scheme can stretch out optic fibre from between a pair of knob portion, and a pair of knob portion and a pair of reducing portion can integrated into one piece in this scheme, then rotate knob portion, through the different depressed part of reducing portion outside sunken degree, adjust the minimum distance between the last spacing portion of two blades, when pinching a pair of handle of skinning, go up spacing portion and keep the same sharp recess contact rather than, two blades are close to, form the passageway of skinning, pinch a pair of handle of skinning and can pull optic fibre and peel off the optic fibre crust.
Second, this scheme is according to optic fibre external diameter size, through the depressed part of the unequal sunken degree in the variable diameter portion outside in the reducing structure, adjusts the minimum distance of skinning of passageway of skinning between two blades to when making to hold the handle of skinning tightly, two blades directly can imbed the suitable thickness of optic fibre crust, thereby direct pulling optic fibre gets rid of the crust and still is difficult for causing the injury to optic fibre inside.
Thirdly, a pair of regulation seats, a pair of knob portion and a pair of reducing portion of this scheme etc. part, when the optic fibre tip is not convenient for stretch into in the middle of a pair of knob portion, can outwards slide the regulation seat earlier, make two regulation seats deviate from each other, expose the distance that is greater than the optic fibre diameter from between it, optic fibre just can directly from this distance entering.
Fourthly, the slidable adjusting seat of the scheme is provided with a ring or a strip-shaped protruding block and the like for increasing the friction between the fingers and the adjusting seat, when the peeler is held in a virtual mode, the adjusting seat can be directly hooked or pushed to slide by the virtual held hand, after the distance larger than the diameter of the optical fiber is exposed, the optical fiber is directly placed into the adjusting seat by the other hand.
And fifthly, the two protruding parts on one blade are bent upwards, and the two protruding parts on the other blade are bent downwards, so that the protruding parts on the two blades are bent to be away from each other, and the two blades are convenient to mutually approach and fold during peeling.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic view of the structure at A in FIG. 1;
FIG. 3 is a schematic front view of the present invention;
FIG. 4 is a schematic view of the structure of FIG. 3 at B;
FIG. 5 is a schematic view of the structure of FIG. 4 at C;
FIG. 6 is a schematic top view of the present invention barking blade;
FIG. 7 is a schematic view of the peeling channel of the present invention;
FIG. 8 is a schematic structural view of the reducing portion of the present invention;
FIG. 9 is a schematic view of an exposed three-dimensional structure of a fiber card slot of the present invention;
fig. 10 is a schematic view of a portion of the structure of fig. 9.
The reference numbers in the figures illustrate:
1. a base; 11. An optical fiber card slot;
2. a peeling handle; 21. A first compression spring; 22. A spring seat;
3. an adjusting seat; 31. installing a channel; 3-1, a finger ring, 3-2 and a strip-shaped protruding block; 32. a slide bar; 33. a slideway;
4. a peeling tool bit; 41. a peeling channel, 42 and an L-shaped cutter holder; 421. a second compression spring; 43. a blade; 431. a protrusion; 432. a notch; 44. a limiting part; 4a, a tool bit movable cavity;
5. a diameter-variable structure; 51. a knob portion; 52. a diameter-variable part; 521. an extension spring;
6. an anti-drop mechanism; 61. an arc-shaped track; 62. unhooking prevention;
7. and (4) connecting the blocks.
Detailed Description
Example 1:
referring to fig. 1-10, an improved optical fiber stripper includes a base 1 with a U-shaped structure, stripping handles 2 disposed at two sides of the base 1, a pair of adjusting seats 3, a pair of stripping bits 4 and a diameter-variable structure 5; one end of the peeling handle 2, which is far away from the adjusting seat 3, is rotatably connected with the base 1, and the other end of the peeling handle is elastically connected with the base 1, so that the pair of peeling handles 2 can rotate relative to the base 1 to move inwards to be close to or outwards to be far away from; the pair of adjusting seats 3 are respectively fixedly connected to two end faces of the base 1 and are vertically distributed with the peeling handle 2; a mounting channel 31 is formed between the pair of adjusting seats 3; the pair of peeling heads 4 are respectively arranged in the pair of adjusting seats 3, one end of each peeling head extends to the inner side of the mounting channel 31, and the other end of each peeling head extends into a gap formed between the peeling handle 2 and the base 1, so that when the peeling handle 2 is held tightly, the peeling handle 2 can push the peeling heads 4 to move; the reducing structure 5 is rotatably arranged in the mounting channel 31; when the pair of peeling handles 2 approach inwards, the parts of the pair of peeling heads 4 positioned at the inner side of the mounting channel 31 form a peeling channel 41, and the minimum peeling distance of the peeling channel 41 can be adjusted by rotating the reducing structure 5; when the pair of peeling handles 2 is moved away to the outside, the peeling channel 41 is opened. When adjusting seat 3 and 1 fixed connection of base, fixedly connected with connecting block 7 between 4 and the handle of skinning handle 2, the handle of skinning 2 of being convenient for remove and drive 4 removals of tool bit of skinning.
Referring to fig. 5, the diameter-variable structure 5 has a left portion and a right portion integrally connected to each other, and the two portions are respectively and fixedly connected to the pair of adjusting bases 3, and the pair of adjusting bases 3 may also be integrally connected to each other. The left part and the right part of the diameter changing structure 5 are both composed of a knob part 51 and a diameter changing part 52, the knob part 51 is fixedly connected with the diameter changing part 52 up and down, the outer sides of the knob part 51 and the diameter changing part 52 are both provided with wave structures, the sinking degrees of the wave structures positioned on the outer sides of the knob part 51 are the same, the sinking degrees of the wave structures positioned on the outer sides of the diameter changing part 52 are sequentially increased in a counterclockwise or clockwise mode, the peeling tool bit 4 is positioned on the outer sides of the pair of diameter changing parts 52, and the distance between the two peeling tool bits 4 is adjusted through the sinking degrees on the outer sides of the diameter changing parts 52. In the present embodiment, please refer to fig. 8, the two knob portions 51 have 16 recesses and 16 protrusions. The two diameter-changing portions 52 have 8 recesses and 8 protrusions in total. The recess outside the knob portion 51 corresponds to the recess outside the diameter-variable portion 52. The extended line of the concave part outside the knob part 51 and the concave part outside the reducing part 52 passes through the center of a circle. The outer side surface of the knob part 51 is provided with indicating numbers, and each indicating number corresponds to a concave part on the outer side of the reducing part 52. The indication number can indicate the diameter of the optical fiber corresponding to the recess, so that the position of the required recess can be determined by the position of the indication number.
Referring to fig. 4, a first compression spring 21 is disposed at an elastic connection portion between the base 1 and the peeling handle 2, spring seats 22 corresponding to the first compression spring 21 are disposed on both the base 1 and the peeling handle 2, and two ends of the first compression spring 21 are respectively fixed in the spring seats 22.
Referring to fig. 1, a slider 12 is slidably disposed in the middle of a base 1. The inner side wall of the base 1 is provided with scale marks. This embodiment is applicable to the condition that the optic fibre tip directly stretched into, and the slider can control the distance that the optic fibre tip stretched into, and the concrete length of stretching into can be known to cooperation scale mark.
Referring to fig. 3-6, the peeling head 4 includes an L-shaped blade seat 42, a blade 43, and upper and lower retainers 44 of the blade 43; a tool bit movable cavity 4a and upper and lower limiting channels are arranged in the adjusting seat 3; one end of the tool bit movable cavity 4a is communicated with the mounting channel 31, the other end of the tool bit movable cavity is communicated with a gap generated between the peeling handle 2 and the base 1, and the L-shaped tool apron 42 is arranged in the tool bit movable cavity 4 a; the blade 43 is installed on one side of the L-shaped blade seat 42 close to the installation channel 31, the upper and lower limiting portions 44 are respectively disposed on two side surfaces of the blade 43, the upper and lower limiting channels are respectively opened on the upper and lower side walls of the blade head movable cavity 4a, and the upper and lower limiting portions 44 are respectively correspondingly disposed in the upper and lower limiting channels.
Referring to fig. 7, peeling channel 41 is a square configuration such that each blade 43 is provided with an equilateral triangular notch 432. Referring to fig. 6, two protrusions 431 are further disposed on a side of the blade 43 close to the mounting channel 31, and the two protrusions 431 are disposed on two sides of the notch 432, respectively. Referring to fig. 4, the two protrusions 431 of one of the blades 43 are bent upward, and the two protrusions 431 of the other blade 43 are bent downward, so that the protrusions 431 of the two blades 43 are bent away from each other, thereby facilitating the two blades 43 to be folded close to each other during peeling. The angle of bending of the protrusion 431 with respect to the horizontally disposed blade 43 is 0.5 to 2 degrees.
Referring to fig. 5, in the reducing structure 5, an anti-dropping mechanism 6 is disposed between the reducing portion 52 and the installation channel 31, and the anti-dropping mechanism 6 is used for limiting the reducing portion 52 to rotate only in the installation channel 31. The anti-disengaging mechanism 6 can be in the following form, and comprises an arc-shaped rail 61 and an anti-disengaging hook 62, wherein the arc-shaped rail 61 is arranged on the lower side of the reducing portion 52, one end of the anti-disengaging hook 62 is arranged on the inner side of the arc-shaped rail 61, and the other end of the anti-disengaging hook 62 is fixedly connected with the adjusting seat 3. It should be noted that, in this form, the knob portion 51 cannot rotate 360 degrees, but in this embodiment, because the two knob portions 51 are integrally formed, the ends of the two arc-shaped rails 61 can be communicated to form a circular ring, so that the knob portion 51 can rotate 360 degrees.
In this embodiment, the left and right parts of the reducing structure 5 are integrally connected, so that only the end of the optical fiber can be inserted, when the optical fiber peeling device is used, the knob part 51 is adjusted according to the outer diameter of the optical fiber, the reducing part 52 is driven to rotate, the concave part on the outer side of the reducing part 52 is adjusted to a position suitable for the outer diameter of the optical fiber, the pair of peeling handles 2 is pinched, the first compression spring 21 is compressed, the blades 43 are driven to approach each other, the limiting part 44 on the blades 43 is close to the concave part which is distributed on one of the pair of straight lines on the outer side of the reducing part 52, at the moment, the protruding parts 431 of the two blades 43 are overlapped and close to each other, the peeling channel 41 shown in fig. 7 is formed between the two blades 43, then the peeling handles 2 can be tightly held while the optical fiber is pulled, the outer skin of the optical fiber is removed by the blades 43, more blades can be provided with inclined planes on the blade edges of the blades 43, and peeling can be smoother. In order to quickly find the position of the recessed portion abutting against the stopper portion 44, a protrusion may be provided on the inner wall of the installation passage 31, and the protrusion may be matched with the recessed portion outside the diameter-variable portion 52, so that the recessed portion outside the diameter-variable portion 52 may be quickly found.
Example 2:
different from the embodiment 1, at least one adjusting seat 3 is connected with the base 1 in a sliding way; in the present embodiment, one of the adjusting bases 3 slides on the base 1, and the other is fixed to the base 1 through the connecting block 7, as shown in fig. 4, of course, in the embodiment 1, both are fixed to the base 1 through the connecting block 7.
Referring to fig. 9-10, the diameter-variable structure 5 has left and right two independent portions, and the two portions are respectively connected to the pair of adjusting bases 3, when the adjusting bases 3 move outward relative to the base 1, the left and right portions of the diameter-variable structure 5 are away from each other, the installation channel 31 is opened, the peeling channel 41 is continuously opened, and a space for the optical fiber to enter is generated. An optical fiber clamping groove 11 is arranged in the middle of the base 1, and the optical fiber clamping groove 11 is located on one side far away from the adjusting seat 3. The optical fiber clamping groove is convenient for placing the optical fiber in the optical fiber clamping groove when the optical fiber is stripped, so that the optical fiber clamping groove can move along the length direction of the base 1. A sliding block 12 is arranged in the middle of the base 1 in a sliding mode, and a through groove corresponding to the optical fiber clamping groove 11 is formed in the sliding block 12.
Referring to fig. 4, when the adjusting seat 3 is slidably connected to the base 1, a second compression spring 421 is fixedly connected between the L-shaped tool seat 42 and the side wall of the tool bit moving cavity 4a close to the mounting channel 31.
Referring to fig. 9, when the adjusting seat 3 is slidably connected to the base 1, a finger ring 3-1 is disposed outside the slidable adjusting seat 3. The bar-shaped protruding block 3-2 can be arranged on the outer side of the slidable adjusting seat 3, as shown in fig. 2, in order to enable a user to push the adjusting seat 3 to slide by fingers through the finger ring 3-1 or the bar-shaped protruding block 3-2 when the user holds the peeling handle 2 in a virtual manner and does not pinch the peeling handle 2, so that a distance larger than the diameter of the optical fiber is opened between the two adjusting seats 3, the finger and the slidable adjusting seat 3 can be increased in friction by other structures, and then the optical fiber can enter from the distance.
Referring to fig. 2, sliding rods 32 are disposed on two sides of the adjusting base 3 slidably connected to the base 1, sliding ways 33 corresponding to the sliding rods 32 are disposed on two sides of the adjusting base 3, the sliding rods 32 are slidably connected in the sliding ways 33, and positioning holes are disposed at the head end and the tail end of the sliding ways 33. The slide 33 can be controlled to the stroke of slide bar 32, and the distance that the restriction was adjusted seat 3 and was removed to can fix a position initial position and final position through the locating hole, can more quick removal adjust seat 3 to suitable position.
Referring to fig. 9, two opposite side surfaces of the two diameter-variable portions 52 are respectively provided with a groove, an extension spring 521 is fixedly connected between the pair of grooves 521, the extension spring 521 is used for ensuring that the two portions can rotate together when the knob portion 51 is rotated, and a telescopic rod can be arranged on the inner side of the extension spring 521 to keep the rotation stable.
In this embodiment, the left and right parts of the diameter-variable structure 5 are independent, the optical fiber can enter from the side, firstly, the slidable adjusting seat 3 is moved to drive the knob part 51, the diameter-variable part, the blade 43 and the like connected with the adjusting seat to integrally move, the distance for the optical fiber to enter is separated between the two adjusting seats 3, see fig. 10, after the optical fiber is put in, the adjusting seat 3 is returned to the state of fig. 1, then, as in embodiment 1, the knob part 51 is adjusted according to the outer diameter of the optical fiber to form a peeling channel 41, then, the optical fiber is pulled while the peeling handle 2 is tightly held, and the blade 43 is used for removing the sheath of the optical fiber.

Claims (11)

1. An improved generation optical fiber stripper which characterized in that: comprises a base (1) with a U-shaped structure, peeling handles (2) arranged at two sides of the base (1), a pair of adjusting seats (3), a pair of peeling tool bits (4) and a diameter-changing structure (5);
one end of the peeling handle (2) far away from the adjusting seat (3) is rotatably connected with the base (1), and the other end of the peeling handle is elastically connected with the base (1), so that the pair of peeling handles (2) can rotate inwards to be close to or outwards to be far away from the base (1);
the pair of adjusting seats (3) are respectively connected to two end faces of the base (1) and are vertically distributed with the peeling handle (2); a mounting channel (31) is formed between the pair of adjusting seats (3);
the peeling tool heads (4) are respectively arranged in the adjusting seats (3), one end of each peeling tool head extends to the inner side of the mounting channel (31), and the other end of each peeling tool head extends into a gap formed between the peeling handle (2) and the base (1);
the reducing structure (5) is rotatably arranged in the mounting channel (31);
when the pair of peeling handles (2) are close to each other, peeling channels (41) are formed between the parts, located on the inner sides of the mounting channels (31), of the pair of peeling heads (4), and the minimum peeling distance of the peeling channels (41) can be adjusted by rotating the reducing structure (5); when the pair of peeling handles (2) is far away from the outside, the peeling channel (41) is opened.
2. An improved fiber stripper as defined in claim 1, wherein: the elastic connection part of the base (1) and the peeling handle (2) is provided with a first compression spring (21), the base (1) and the peeling handle (2) are respectively provided with a spring seat (22) corresponding to the first compression spring (21), and two ends of the first compression spring (21) are respectively fixed in the spring seats (22).
3. An improved fiber stripper as defined in claim 1, wherein: a sliding block (12) is arranged in the middle of the base (1) in a sliding mode.
4. An improved fiber stripper as defined in claim 1, wherein: the inner side wall of the base (1) is provided with scale marks.
5. An improved fiber stripper as defined in claim 1, wherein: the peeling tool bit (4) comprises an L-shaped tool holder (42), a blade (43) and upper and lower limiting parts (44) of the blade (43);
a tool bit movable cavity (4a) and upper and lower limiting channels are arranged in the adjusting seat (3);
one end of the tool bit movable cavity (4a) is communicated with the mounting channel (31), the other end of the tool bit movable cavity is communicated with a gap generated between the peeling handle (2) and the base (1), and the L-shaped tool apron (42) is arranged in the tool bit movable cavity (4 a);
the blade (43) is arranged on one side of the L-shaped blade holder (42) close to the installation channel (31), the upper limit part and the lower limit part (44) are respectively arranged on two side surfaces of the blade (43), the upper limit channel and the lower limit channel are respectively arranged on the upper side wall and the lower side wall of the tool bit movable cavity (4a), and the upper limit part and the lower limit part (44) are respectively and correspondingly arranged in the upper limit channel and the lower limit channel.
6. An improved fiber stripper as defined in claim 5, wherein: the peeling channel (41) is of a square structure, so that each blade (43) is provided with an equilateral triangle notch (432).
7. An improved fiber stripper as defined in claim 6, wherein: two protrusions (431) are further arranged on one side, close to the mounting channel (31), of the blade (43), and the two protrusions (431) are respectively arranged on two sides of the notch (432).
8. An improved fiber stripper as defined in claim 1, wherein: when adjusting seat (3) and base (1) fixed connection, fixedly connected with connecting block (7) between tool bit (4) and the handle of skinning (2) of skinning.
9. An improved fiber stripper as defined in claim 1, wherein: the reducing structure (5) is provided with a left part and a right part which are respectively connected with the pair of adjusting seats (3), the outer side of the reducing structure (5) is of a wave-shaped structure, and the minimum peeling distance of the peeling channel (41) is adjusted through different sinking degrees of the wave-shaped structure at the outer end of the reducing structure.
10. An improved fiber stripper as defined in claim 1, wherein: indicating numbers are arranged on the outer side face of the knob part (51), and each indicating number corresponds to a concave part which is arranged on the outer side of the reducing structure (5) and used for adjusting the minimum peeling distance of the peeling channel (41).
11. An improved fiber stripper as defined in claim 1, wherein: be equipped with anti-disengaging mechanism (6) between reducing structure (5) and installation passageway (31), anti-disengaging mechanism (6) are used for restricting reducing structure (5) and make it only can rotate in installation passageway (31).
CN202111225448.XA 2021-10-21 2021-10-21 Improved optical fiber stripper Pending CN114200583A (en)

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CN202111225448.XA CN114200583A (en) 2021-10-21 2021-10-21 Improved optical fiber stripper

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Application Number Priority Date Filing Date Title
CN202111225448.XA CN114200583A (en) 2021-10-21 2021-10-21 Improved optical fiber stripper

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CN114200583A true CN114200583A (en) 2022-03-18

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JP2000059945A (en) * 1998-08-05 2000-02-25 Fujii Denko Co Ltd Cutting tool for optical fiber cable slot rod
CN201812078U (en) * 2010-09-20 2011-04-27 徐伟 Multifunctional optical cable stripper
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CN109782391A (en) * 2019-03-26 2019-05-21 浙江大丰管网有限公司 A kind of optical fiber splicer
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CN211508436U (en) * 2019-12-16 2020-09-15 广东伊之密精密机械股份有限公司 Cable stripper
CN211829984U (en) * 2020-04-14 2020-10-30 湖南嘉恒电气设备有限公司 Cutting tool for cable
CN213986909U (en) * 2020-12-10 2021-08-17 吉林省易诚通信工程有限公司 Optical fiber covered wire stripping device

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000059945A (en) * 1998-08-05 2000-02-25 Fujii Denko Co Ltd Cutting tool for optical fiber cable slot rod
CN201812078U (en) * 2010-09-20 2011-04-27 徐伟 Multifunctional optical cable stripper
CN201853974U (en) * 2010-11-04 2011-06-01 湖州市三利线缆有限公司 Electric wire and cable stripper
WO2019086811A1 (en) * 2017-11-02 2019-05-09 Derancourt Ingenierie Cutting head for apparatus suitable for stripping cables, comprising means for adjusting a cutting depth
CN209071970U (en) * 2018-12-25 2019-07-05 金华市焰丰工具制造有限公司 A kind of multi-functional cable line wire stripper
CN109782391A (en) * 2019-03-26 2019-05-21 浙江大丰管网有限公司 A kind of optical fiber splicer
CN211508436U (en) * 2019-12-16 2020-09-15 广东伊之密精密机械股份有限公司 Cable stripper
CN211829984U (en) * 2020-04-14 2020-10-30 湖南嘉恒电气设备有限公司 Cutting tool for cable
CN213986909U (en) * 2020-12-10 2021-08-17 吉林省易诚通信工程有限公司 Optical fiber covered wire stripping device

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