CN213859582U

CN213859582U - Optical fiber recovery box

Info

Publication number: CN213859582U
Application number: CN202021809529.5U
Authority: CN
Inventors: 郁红; 彭玉峰
Original assignee: Guangdong Tumtec Communication Tech Co ltd
Current assignee: Guangdong Tumtec Communication Tech Co ltd
Priority date: 2020-08-26
Filing date: 2020-08-26
Publication date: 2021-08-03
Anticipated expiration: 2030-08-26

Abstract

The utility model discloses an optical fiber recovery box, which comprises a swing arm, an upper cover body and a fiber collecting box hinged with an optical fiber cutting machine, wherein the upper cover body covers the top surface of the optical fiber cutting machine, and the upper cover body is connected with the swing arm so that the swing arm drives the upper cover body to turn over to open or close the optical fiber cutting machine, and a fiber collecting frame is arranged on one side of the optical fiber cutting machine; the utility model discloses a set up swing arm, rack, transmission shaft, one-way pivot, so when the optical fiber cutter was opened in last lid upset, the swing arm drove transmission shaft, one-way pivot and drive roll in proper order and rotates, made drive roll and driven voller cooperation pulling optical fiber end of a thread get into receive fine frame in, fell into again and receive fine box, realized accomodating the optical fiber end of a thread automatically, the practicality is strong.

Description

Optical fiber recovery box

Technical Field

The utility model belongs to the technical field of the electrical communication technique and specifically relates to a box is retrieved to optic fibre.

Background

The optical fiber is a short-hand writing of optical fiber, is a fiber made of glass or plastic and can be used as a light conduction tool; in daily life use, optic fibre can produce the end of a thread after being cut off in the optic fibre cutter, and the optic fibre end of a thread can not be abandoned at will, needs collect it, but the optic fibre end of a thread structure is not accomodate to current optic fibre cutter, needs the manual work to collect the optic fibre end of a thread, makes the whole practicality ground of optic fibre cutter, improves whole working strength.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art, the utility model aims to provide a box is retrieved to optic fibre that practicality is strong.

In order to achieve the above purpose, the utility model provides a scheme does: an optical fiber recovery box comprises a swing arm, an upper cover body and a fiber collecting box, wherein the swing arm is hinged to an optical fiber cutting machine, the upper cover body covers the top surface of the optical fiber cutting machine, the upper cover body is connected with the swing arm so that the swing arm drives the upper cover body to turn over to open or close the optical fiber cutting machine, one side of the optical fiber cutting machine is provided with a fiber collecting frame, a driving roller and a driven roller are rotatably connected to the opposite side of the fiber collecting frame and the optical fiber cutting machine, the driving roller and the driven roller are vertically arranged in an opposite mode so that an optical fiber end can pass between the driving roller and the driven roller, one end of the driving roller is coaxially connected with a one-way rotating shaft, the one-way rotating shaft is connected with a driven gear, and the fiber collecting frame is downwards detachably connected with the fiber collecting box and used for receiving the optical fiber end passing between the driving roller and the driven roller;

racks arranged in an arc shape are formed on the swing arm, a transmission shaft is arranged on the optical fiber cutting machine, a first transmission gear and a second transmission gear are sleeved at two ends of the transmission shaft respectively, the first transmission gear is meshed with the racks, and the second transmission gear is meshed with the driven gear; meanwhile, a fiber collecting cover is hinged to the top surface of the fiber collecting frame, a sliding block capable of horizontally moving is arranged on the fiber collecting frame, a slope is formed on the top surface of the sliding block, a jacking rod is arranged on the slope of the sliding block, a connecting boss is formed at the tail end of the sliding block, a wedge block is formed at the hinged end of the swing arm, an inclined surface is formed on the wedge block, and when the swing arm swings upwards, the inclined surface of the wedge block pushes the connecting boss to move forwards in a butting mode, so that the jacking rod rises and pushes the fiber collecting cover to be opened upwards.

The utility model has the advantages that: the utility model discloses a set up swing arm, rack, transmission shaft, one-way pivot, so when the upper cover body overturns upwards and opens the optic fibre cutter, the swing arm drives transmission shaft, one-way pivot and drive roll rotation in proper order, makes drive roll and driven voller cooperate and pulls the optic fibre end of a thread to get into receive fine frame, falls into receive fine box again, realizes automatic storage optic fibre end of a thread, and the practicality is strong; meanwhile, the unidirectional rotating shaft is arranged, so that the driving roller is driven to rotate reversely when the upper cover body is closed, and the optical fiber stub exits from the fiber collecting rack; in addition, through setting up receipts fine lid, slider, realize the closing cap and receive fine frame, and the swing arm drives when upwards swinging and receives fine lid and open, so can receive fine frame and open when accomodating the optic fibre end of a thread and receive fine lid, can not influence normal receipts optical fiber work.

Further, the connecting boss extends to the outer side of the fiber collecting frame.

Furthermore, a sliding groove extending in the horizontal direction is formed in the fiber collecting frame to enable the sliding block to slide, a limiting boss is formed at the head end of the sliding block and used for being sleeved with a return spring, and the free end of the return spring abuts against and presses the inner side wall of the sliding groove.

Furthermore, a top pressure plate is formed on the fiber collecting cover to be pushed by the top pressure rod, and the fiber collecting frame is provided with a guide hole to be slidably arranged by the top pressure rod.

Further, the slope of the slider is disposed obliquely downward in the advancing direction of the slider. After the above structure is adopted in the utility model, when making the slider go forward, the roof pressure pole climbs on the slope of slider, makes the roof pressure pole rebound, realizes that the roof pressure pole upwards promotes to receive fine lid and opens to in the fine frame is received in the entering of optic fibre end of a thread.

Furthermore, receive fine frame bottom surface and receive fine box top surface and all be provided with magnet in order to realize receiving fine frame and receive fine box detachable connection.

Drawings

Fig. 1 is an overall three-dimensional structure diagram of the present invention.

Fig. 2 is the connection structure diagram of the swing arm and the fiber collecting frame of the present invention.

Fig. 3 is a first internal structure diagram of the present invention.

Fig. 4 is a second internal structure diagram of the present invention.

Fig. 5 is a third internal structure diagram of the present invention.

The optical fiber cutting machine comprises an optical fiber cutting machine 11, an upper cover 12, a swing arm 2, a rack 21, a wedge 22, a transmission shaft 3, a first transmission gear 31, a second transmission gear 32, a driven gear 33, a fiber collecting frame 41, a driving roller 411, a driven roller 412, a sliding block 413, a connecting boss 4131, a limiting boss 4132, a return spring 4133, a sliding groove 414, a jacking rod 415, a fiber collecting box 42 and a fiber collecting cover 43.

Detailed Description

The invention will be further described with reference to the following specific embodiments:

referring to fig. 1 to 5, an optical fiber recycling box includes a swing arm 2 hinged to an optical fiber cutter 11, an upper cover 12 and a fiber collecting box 42, the upper cover 12 covers the top surface of the optical fiber cutter 11, the upper cover 12 is connected to the swing arm 2 so that the swing arm 2 drives the upper cover 12 to turn over to open or close the optical fiber cutter 11, a fiber collecting frame 41 is disposed on one side of the optical fiber cutter 11, a driving roller 411 and a driven roller 412 are rotatably connected to the fiber collecting frame 41 on the opposite side of the optical fiber cutter 11, the driving roller 411 and the driven roller 412 are vertically aligned to allow an optical fiber stub to pass between the driving roller 411 and the driven roller 412, a one end of the driving roller 411 is coaxially connected to a one-way rotating shaft, the one-way rotating shaft is connected to a driven gear 33, and the fiber collecting frame 41 is downwardly detachably connected to the fiber collecting box 42 for receiving the optical fiber stub passing between the driving roller 411 and the driven roller 412.

Racks 21 arranged in an arc shape are formed on the swing arm 2, a transmission shaft 3 is arranged on the optical fiber cutting machine 11, a first transmission gear 31 and a second transmission gear 32 are respectively sleeved at two ends of the transmission shaft 3, the first transmission gear 31 is meshed with the racks 21, and the second transmission gear 32 is meshed with a driven gear 33; meanwhile, the top surface of the fiber collecting frame 41 is hinged with a fiber collecting cover 43, the fiber collecting frame 41 is provided with a sliding block 413 which can horizontally move, the top surface of the sliding block 413 is provided with a slope, the slope of the sliding block 413 is provided with a jacking rod 415, the tail end of the sliding block 413 is provided with a connecting boss 4131, the hinged end of the swing arm 2 is provided with a wedge 22, the wedge 22 is provided with an inclined surface, and when the swing arm 2 swings upwards, the inclined surface of the wedge 22 pushes against the connecting boss 4131 to advance, so that the jacking rod 415 rises and pushes the fiber collecting cover 43 upwards to open.

The connecting boss 4131 extends to the outside of the fiber collecting frame 41, the slope of the sliding block 413 is arranged obliquely downwards along the advancing direction of the sliding block 413, a sliding groove 414 extending in the horizontal direction is formed in the fiber collecting frame 41 for the sliding block 413 to slide, a limiting boss is formed at the head end of the sliding block 413 and used for being sleeved with a return spring 4133, and the free end of the return spring 4133 abuts against and presses the inner side wall of the sliding groove 414.

The fiber collecting cover 43 is formed with a pressing plate for pressing and pushing the pressing rod 415, and the fiber collecting frame 41 is provided with a guide hole for sliding arrangement of the pressing rod 415; magnets are arranged on the bottom surface of the fiber collecting frame 41 and the top surface of the fiber collecting box 42 to realize that the fiber collecting frame 41 is detachably connected with the fiber collecting box 42.

In this embodiment, the process of receiving the optical fiber specifically includes: after the optical fiber cutter 11 cuts the optical fiber, the upper cover 12 is opened, the upper cover 12 is turned upwards to drive the swing arm 2 to swing upwards, in the process that the swing arm 2 swings upwards, the inclined surface of the wedge block 22 contacts the connecting boss 4231, so that the connecting boss 4131 climbs on the inclined surface, the wedge block 22 pushes the connecting boss 4131 and the slide block 413 to advance, the jacking rod 415 climbs on the slope of the slide block 413, and the jacking rod 415 moves upwards to push the fiber collecting cover 43 to open, so that the optical fiber end can enter the fiber collecting frame 41; meanwhile, in the process that the swing arm 2 swings upwards, the rack 21 rotates forwards to sequentially drive the first transmission gear 31, the transmission shaft 3, the second transmission gear 32, the driven gear 33, the one-way rotating shaft and the driving roller 411 to rotate, so that the driving roller 411 and the driven roller 412 are matched to pull the optical fiber end to continuously enter the fiber collecting frame 41, and automatic fiber collection is realized.

When the swing arm 2 swings downwards, the wedges 22 leave the connecting boss 4131, and then the return spring 4133 pushes the sliding block 413 and the connecting boss 4131 to retreat and return to the original position under the action of the return spring 4133; meanwhile, due to the arrangement of the one-way rotating shaft, when the swing arm 2 swings downwards, the rack 21 rotates reversely to sequentially drive the first transmission gear 31, the transmission shaft 3, the second transmission gear 32 and the driven gear 33 to rotate reversely, and the driving roller 411 is in a standing state, so that the optical fiber end can be prevented from exiting the fiber collecting frame 41.

The above-described embodiments are merely preferred embodiments of the present invention, which are not intended to limit the present invention in any way. Those skilled in the art can make further changes and modifications to the invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention. Therefore, the content of the technical scheme of the utility model, according to the equivalent change made by the idea of the utility model, should be covered in the protection scope of the utility model.

Claims

1. An optical fiber recycling box, characterized in that: the optical fiber cutting machine comprises a swing arm (2) hinged to an optical fiber cutting machine (11), an upper cover body (12) and a fiber collecting box (42), wherein the upper cover body (12) covers the top surface of the optical fiber cutting machine (11), the upper cover body (12) is connected with the swing arm (2) so that the swing arm (2) drives the upper cover body (12) to turn over to open or close the optical fiber cutting machine (11), a fiber collecting frame (41) is arranged on one side of the optical fiber cutting machine (11), a driving roller (411) and a driven roller (412) are rotatably connected to the side, opposite to the optical fiber cutting machine (11), of the fiber collecting frame (41), the driving roller (411) and the driven roller (412) are vertically arranged in an opposite mode so that an optical fiber end passes through between the driving roller (411) and the driven roller (412), one end of the driving roller (411) is coaxially connected with a one-way rotating shaft, the one-way rotating shaft is connected with a driven gear (33), and the fiber collecting frame (41) is downwards detachably connected with the fiber collecting box (42) for receiving optical fiber passing through the driving roller (411) and the driven roller (412) 412) The optical fiber wire end passing through the optical fiber wire end;

racks (21) arranged in an arc shape are formed on the swing arm (2), a transmission shaft (3) is arranged on the optical fiber cutting machine (11), a first transmission gear (31) and a second transmission gear (32) are sleeved at two ends of the transmission shaft (3) respectively, the first transmission gear (31) is meshed with the racks (21), and the second transmission gear (32) is meshed with the driven gear (33); meanwhile, a fiber collecting cover (43) is hinged to the top surface of the fiber collecting frame (41), a sliding block (413) which translates in the horizontal direction is arranged on the fiber collecting frame (41), a slope is formed on the top surface of the sliding block (413), a top pressure rod (415) is arranged on the slope of the sliding block (413), a connecting boss (4131) is formed at the tail end of the sliding block (413), a wedge block (22) is formed at the hinged end of the swing arm (2), an inclined surface is formed on the wedge block (22), and when the swing arm (2) swings upwards, the inclined surface of the wedge block (22) pushes the connecting boss (4131) to move forwards in an abutting mode, so that the top pressure rod (415) rises and the fiber collecting cover (43) is pushed upwards to be opened.

2. An optical fiber recycling cassette according to claim 1, wherein: the connecting boss (4131) extends to the outer side of the fiber collecting frame (41).

3. An optical fiber recycling cassette according to claim 2, wherein: a sliding groove (414) extending in the horizontal direction is formed in the fiber collecting frame (41) to allow the sliding block (413) to slide, a limiting boss is formed at the head end of the sliding block (413) and used for being sleeved with a return spring (4133), and the free end of the return spring (4133) abuts against and presses the inner side wall of the sliding groove (414).

4. An optical fiber recycling cassette according to claim 3, wherein: the fiber collecting cover (43) is formed with a jacking plate for jacking and pushing the jacking rod (415), and the fiber collecting frame (41) is provided with a guide hole for the jacking rod (415) to slide.

5. An optical fiber recycling cassette according to claim 4, wherein: the slope of the slider (413) is arranged obliquely downwards along the advancing direction of the slider (413).

6. An optical fiber recycling bin according to claim 5, wherein: magnets are arranged on the bottom surface of the fiber collecting frame (41) and the top surface of the fiber collecting box (42) to realize that the fiber collecting frame (41) is detachably connected with the fiber collecting box (42).