CN111142188B - Optical fiber cutting integrated machine for communication technology - Google Patents

Abstract

The invention discloses an optical fiber cutting integrated machine for communication technology, which comprises a placing table and a machine body, wherein a storage cavity with an upward opening is arranged in the placing table, a coated optical fiber can be placed in the storage cavity, a pressing plate is rotatably arranged on the upper side of the placing table, the pressing plate can seal the storage cavity and can press the coated optical fiber tightly, a placing cavity with a leftward opening is arranged in the machine body, the placing table can be placed in the placing cavity, and a working cavity is communicated with the right side of the placing cavity.

Description

Optical fiber cutting integrated machine for communication technology

Technical Field

The invention relates to the technical field of communication, in particular to an optical fiber cutting all-in-one machine for communication technology.

Background

At present, with the continuous improvement of the technological level, more and more electronic products are invented, and are used in each family, a computer is a product appearing earlier, the internet is required to be accessed through a communication technology in the using process, the communication network at the present stage adopts optical fibers for transmission, the speed is very high, the optical fibers are required to be subjected to a cutting process in the installation process, so that the installation applicability can be improved, but the general cutting process is carried out manually, the error is very high, the influence of the manual operation proficiency is great, and a lot of equipment and tools are required to be carried to assist cutting, so that the operation is very troublesome.

Disclosure of Invention

The invention aims to provide an optical fiber cutting all-in-one machine for communication technology, which is used for overcoming the defects in the prior art.

According to the embodiment of the invention, the optical fiber cutting integrated machine for communication technology comprises a placing table and a machine body, wherein a storage cavity with an upward opening is arranged in the placing table, a coated optical fiber can be placed in the storage cavity, a pressing plate is rotatably arranged on the upper side of the placing table, the pressing plate can seal the storage cavity and can press the coated optical fiber tightly, a placing cavity with a leftward opening is arranged in the machine body, the placing table can be placed in the placing cavity, a working cavity is communicated with the right side of the placing cavity, a limiting plate capable of limiting the movement of the placing table is arranged on the left side surface of the coated optical fiber in a vertical sliding mode, an extending part of the coated optical fiber can enter the working cavity, a transmission mechanism capable of controlling the limiting plate to be in a limiting state and clamping the coated optical fiber in the working cavity to prevent the coated optical fiber from moving is arranged in the machine body, a first arc-shaped cavity is communicated with the upper side and the, the utility model discloses a peeling machine, including the first arc intracavity rotation, the organism with be equipped with steerable two in the rotary disk relative rotation, and can peel the peeling mechanism of belt leather optic fibre crust, both sides intercommunication is equipped with the removal chamber around the working chamber, it is equipped with the movable block to slide around on the inner wall in chamber to remove, it is equipped with steerable to remove the intracavity the movable block gets into the tight optic fibre of working chamber clamp, and can be right the cutting mechanism that optic fibre was cut out is cut.

In a further technical scheme, the transmission mechanism comprises a fixed clamping block fixedly arranged on the top wall of the working cavity, the lower side of the working cavity is communicated with a through cavity, the left wall of the through cavity is provided with a sliding clamping block in an up-and-down sliding manner, the sliding clamping block can enter the working cavity, the sliding clamping block and the fixed clamping block can be abutted, and can clamp the optical fiber with the sheath, the lower side of the through cavity is communicated with a sliding cavity with a leftward opening, a first sliding block and a second sliding block are arranged on the bottom wall of the sliding cavity in a left-right sliding manner, a fixed rod is fixedly arranged between the first sliding block and the second sliding block, a first connecting rod is hinged between the first sliding block and the limiting plate, a second connecting rod is hinged between the second sliding block and the sliding clamping block, and a first spring is fixedly arranged between the right side surface of the second sliding block and the right wall of the sliding cavity.

Further technical scheme, peeling mechanism establishes including rotating rotation axis on the wall behind the first arc chamber, the rotary disk sets firmly in the rotation axis periphery, elastic cavity has been seted up in the rotary disk, it is equipped with the piece of skinning to slide on elastic cavity's the inner wall, the piece of skinning is close to elastic cavity side with elastic cavity is close to fixed mounting has the second spring between the rotation axis lateral wall, the piece of skinning is close to work chamber side has set firmly annular cutting and splitting sword.

According to the technical scheme, a worm wheel cavity is formed in the rear side of the first arc-shaped cavity, worms are arranged on the upper wall and the lower wall of the worm wheel cavity in a rotating mode, the two worms are fixedly connected with each other, threads of the two worms are opposite, the upward extending part of the worm located on the upper side extends out of the outside, a manual wheel is fixedly arranged on the top surface of the worm wheel cavity, the backward extending part of the rotating shaft extends into the worm wheel cavity, a driven shaft is arranged on the front wall of the worm wheel cavity in a rotating mode, worm wheels are fixedly arranged on the peripheries of the driven shaft and the rotating shaft, and the worm wheels are meshed with the worms.

According to the technical scheme, the cutting mechanism comprises a motor fixedly arranged on the front wall of the moving cavity positioned on the front side, a power shaft is arranged on the rear side face of the motor in a power connection mode, two moving blocks are far away from each other and are provided with threaded cavities, the threaded cavities positioned on the front side are in threaded connection with the power shaft, the forward extending portion of the driven shaft extends into the moving cavity positioned on the rear side and are in threaded connection with the threaded cavities positioned on the rear side, and clamping cavities are formed in the two moving blocks close to each other and are provided with clamping cavities.

According to the further technical scheme, a cavity is formed in the moving block on the rear side, a second arc-shaped cavity and a rack cavity are communicated with the left side of the moving cavity on the front side, a rack is fixedly arranged on the bottom wall of the rack cavity, a cutter storage cavity with an opening towards the working cavity is formed in the moving block on the front side, a cutter is arranged on the inner wall of the cutter storage cavity in a front-back sliding mode, a third spring is fixedly arranged between the front side face of the cutter and the front wall of the cutter storage cavity, a limiting hole with a leftward opening is formed in the cutter, a pressure cavity with a leftward opening is communicated with the left side of the cutter storage cavity, a connecting block is arranged in the pressure cavity, a limiting pin is fixedly arranged on the right side face of the connecting block, the limiting pin can enter the limiting hole and can limit the cutter to move, and a fourth spring is fixedly arranged between the right side face of the connecting block and, the connecting block can get into in the second arc intracavity, the downside intercommunication of depositing the sword chamber is equipped with the opening slave cavity left, it is equipped with the cross axle to rotate on the right wall of slave cavity, the reel has set firmly in the periphery of cross axle, the connection rope is equipped with around being equipped with in the periphery of reel, it stretches into to connect the rope extension deposit the sword intracavity, and with cutting off cutter fixed connection, the cross axle extends into left the extension rack intracavity, and its left surface has set firmly the gear, the gear with rack toothing.

According to the technical scheme, the right side of the working cavity is communicated with a garbage cavity, and a sealing door is installed on the right side of the garbage cavity.

The invention has the beneficial effects that: the invention can perform peeling and cutting processes on the optical fiber by using only one machine without using various tools for operation, thereby effectively improving the working efficiency, reducing various errors generated during manual operation and improving the product quality, wherein the transmission mechanism can control the limiting plate to limit the placing table to move left and right through the up-and-down sliding of the limiting plate and the elastic action of the first spring in a linkage manner, thereby improving the stability, and can clamp the skinned optical fiber in the working cavity to prevent the skinned optical fiber from moving in the peeling process, the peeling mechanism can perform the peeling process on the skinned optical fiber through manually rotating a manual wheel, and the cutting mechanism can cut the optical fiber through the operation of a motor.

Drawings

FIG. 1 is a schematic view of the internal overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the worm gear cavity 40 of the present invention;

FIG. 3 is a partial cross-sectional view taken in the direction A-A of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged view of the internal structure of the front side moving block in the present invention;

FIG. 5 is a left side view of the placement table of the present invention;

figure 6 is an enlarged schematic view of the stripping block of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-6, an optical fiber cutting integrated machine for communication technology according to an embodiment of the present invention includes a placing table 15 and a machine body 11, a storing cavity 64 with an upward opening is disposed in the placing table 15, a covered optical fiber 14 can be placed in the storing cavity 64, a pressing plate 13 is rotatably disposed on an upper side of the placing table 15, the pressing plate 13 can seal the storing cavity 64 and can press the covered optical fiber 14, a placing cavity 12 with a leftward opening is disposed in the machine body 11, the placing table 15 can be placed in the placing cavity 12, a working cavity 27 is disposed on a right side of the placing cavity 12 in a communicating manner, a limiting plate 16 capable of limiting the moving of the placing table 15 is slidably disposed on a left side surface of the covered optical fiber 14 up and down, an extending portion of the covered optical fiber 14 can enter the working cavity 27, and the machine body 11 is internally provided with a device capable of controlling the limiting plate 16 to be in a limiting state, and can be in the clamping in working chamber 27 drive mechanism 101 that belt leather optic fibre 14 prevented its removal, the upper and lower both sides of working chamber 27 all communicate and are equipped with first arc chamber 30, the rotation of first arc chamber 30 is equipped with rotary disk 31, organism 11 with be equipped with steerable two in the rotary disk 31 relatively rotates, and can peel off the peeling mechanism 102 of belt leather optic fibre 14 crust, the front and back both sides intercommunication of working chamber 27 are equipped with removes chamber 41, it is equipped with movable block 43 to slide around on the inner wall of chamber 41 to remove, it is equipped with steerable to remove in the chamber 41 movable block 43 gets into clamp tight optic fibre 46 in the working chamber 27, and can be right cutting mechanism 103 that optic fibre 46 cut and tailor.

In addition, in one embodiment, the transmission mechanism 101 includes a fixed clamping block 26 fixedly disposed on the top wall of the working chamber 27, the lower side of the working chamber 27 is communicated with a through chamber 24, the left wall of the through chamber 24 is provided with a sliding clamping block 25 in a vertically sliding manner, the sliding clamping block 25 can enter the working chamber 27, the sliding clamping block 25 and the fixed clamping block 26 can be abutted and can clamp the coated optical fiber 14, the lower side of the through chamber 24 is communicated with a sliding chamber 18 with a leftward opening, the bottom wall of the sliding chamber 18 is provided with a first sliding block 19 and a second sliding block 21 in a horizontally sliding manner, a fixing rod 20 is fixedly disposed between the first sliding block 19 and the second sliding block 21, a first connecting rod 17 is hinged between the first sliding block 19 and the limiting plate 16, a second connecting rod 22 is hinged between the second sliding clamping block 21 and the sliding clamping block 25, a first spring 23 is fixedly disposed between the right side surface of the second sliding block 21 and the right wall of the sliding chamber 18, the limiting plate 16 is manually pressed downwards, so that the first slide block 19 drives the second slide block 21 to move rightwards, the sliding clamping block 25 can be moved downwards, the sheathed optical fiber 14 and the placing table 15 can be in a loose state, the sheathed optical fiber 14 and the placing table 15 can be taken out, when the placing table 15 is arranged in the placing cavity 12, the limiting plate 16 can limit the placing table 15 to move through the elastic action of the first spring 23, and the sliding clamping block 25 can enter the working cavity 27 and clamp the sheathed optical fiber 14 with the fixed clamping block 26.

In addition, in one embodiment, the peeling mechanism 102 includes a rotating shaft 32 rotatably disposed on the rear wall of the first arc-shaped chamber 30, the rotating disc 31 is fixedly disposed on the outer periphery of the rotating shaft 32, an elastic chamber 33 is disposed in the rotating disc 31, a peeling block 35 is slidably disposed on the inner wall of the elastic chamber 33, a second spring 34 is fixedly disposed between the side of the peeling block 35 close to the elastic chamber 33 and the side of the elastic chamber 33 close to the rotating shaft 32, an annular cutter 65 is fixedly disposed on the side of the peeling block 35 close to the working chamber 27, the rotating disc 31 drives the peeling block 35 to rotate by the rotation of the rotating shaft 32, when the peeling block 35 rotates to the working chamber 27, the peeling block 35 can enter the working chamber 27 by the elastic action of the second spring 34, and the outer skin of the coated optical fiber 14 can be cut by the annular cutter 65, the peeling block 35 can peel the cut skin to the right by the continuous rotation of the rotating disk 31.

In addition, in an embodiment, a worm wheel cavity 40 is formed at the rear side of the first arc-shaped cavity 30, worm wheels 29 are rotatably arranged on the upper and lower walls of the worm wheel cavity 40, the two worm wheels 29 are fixedly connected with each other, the threads of the two worm wheels 29 are opposite, the upward extending part of the worm wheel 29 located at the upper side extends out of the outside, a manual wheel 28 is fixedly arranged on the top surface of the worm wheel cavity, the backward extending part of the rotating shaft 32 extends into the worm wheel cavity 40, a driven shaft 42 is rotatably arranged on the front wall of the worm wheel cavity 40, worm wheels 39 are fixedly arranged on the outer peripheries of the driven shaft 42 and the rotating shaft 32, the worm wheels 39 are meshed with the worm wheels 29, and the worm wheel 29 can drive the rotating shaft 32 and the driven shaft 42 to rotate simultaneously by manually rotating the manual wheel 28.

In addition, in one embodiment, the cutting mechanism 103 includes a motor 50 fixedly arranged on the front wall of the moving cavity 41 on the front side, a power shaft 66 is arranged on the rear side surface of the motor 50 in a power connection manner, two moving blocks 43 are far away from each other and are respectively provided with a threaded cavity 51, the threaded cavity 51 on the front side is in threaded connection with the power shaft 66, a forward extending portion of the driven shaft 42 extends into the moving cavity 41 on the rear side and is in threaded connection with the threaded cavity 51 on the rear side, clamping cavities 45 are respectively arranged on the two moving blocks 43 close to each other, the moving blocks 43 on the rear side can enter the working cavity 27 through the rotation of the driven shaft 42, the moving blocks 43 on the front side can enter the working cavity 27 through the operation of the motor 50, when the two moving blocks 43 enter the working cavity 27 to abut against each other, the optical fiber 46 can be secured within the clamping cavity 45.

In addition, in one embodiment, a cavity 44 is formed in the moving block 43 located at the rear side, a second arc-shaped cavity 47 and a rack cavity 48 are arranged at the left side of the moving cavity 41 located at the front side in a communicating manner, a rack 49 is fixedly arranged on the bottom wall of the rack cavity 48, a cutter storage cavity 52 which is opened towards the working cavity 27 is arranged in the moving block 43 located at the front side, a cutting cutter 53 is arranged on the inner wall of the cutter storage cavity 52 in a sliding manner, a third spring 58 is fixedly arranged between the front side surface of the cutting cutter 53 and the front wall of the cutter storage cavity 52, a limiting hole 57 which is opened towards the left is formed in the cutting cutter 53, a pressure cavity 67 which is opened towards the left is arranged at the left side of the cutter storage cavity 52 in a communicating manner, a connecting block 54 is arranged in the pressure cavity 67, a limiting pin 56 is fixedly arranged on the right side surface of the connecting block 54, and the limiting pin, a fourth spring 55 is fixedly installed between the right side surface of the connecting block 54 and the right wall of the pressure chamber 67, the connecting block 54 can enter the second arc-shaped chamber 47, the lower side of the cutter storage chamber 52 is communicated with a driven chamber 62 with a leftward opening, a transverse shaft 61 is rotatably installed on the right wall of the driven chamber 62, a reel 63 is fixedly installed on the periphery of the transverse shaft 61, a connecting rope 59 is wound on the periphery of the reel 63, an extending portion of the connecting rope 59 extends into the cutter storage chamber 52 and is fixedly connected with the cutting knife 53, a leftward extending portion of the transverse shaft 61 extends into the rack chamber 48, a gear 60 is fixedly installed on the left side surface of the transverse shaft 61, the gear 60 is engaged with the rack 49, when the moving block 43 located on the front side moves towards the working chamber 27 side, the rack 49 can drive the gear 60 to rotate, and the transverse shaft 61 can drive the reel 63 to rotate, the connecting rope 59 can be in a loose state, when the moving block 43 moves to the point that the connecting block 54 can enter the second arc-shaped cavity 47, the connecting block 54 can be made to drive the limiting pin 56 to pop up to the left, and then the cutting knife 53 can be made to pop up to cut off the optical fiber 46.

In addition, in one embodiment, a garbage chamber 37 is communicated with the right side of the working chamber 27, a closing door 38 is installed on the right side of the garbage chamber 37, garbage generated after work can be collected through the garbage chamber 37, and the garbage can be taken out by manually opening the closing door 38.

In the initial state, the placing table 15 is located in the placing chamber 12, the limiting plate 16 limits the placing table 15, the sliding clamping block 25 and the fixed clamping block 26 clamp the coated optical fiber 14, the peeling block 35 is located in the first arc-shaped chamber 30, and the moving block 43 is located in the moving chamber 41.

When in use, the limiting plate 16 is pressed downwards manually, the first slide block 19 drives the second slide block 21 to move rightwards, the sliding clamping block 25 can move downwards, the covered optical fiber 14 and the placing table 15 can be in a loose state, then the covered optical fiber 14 and the placing table 15 can be taken out, when the placing table 15 is placed in the placing cavity 12, the limiting plate 16 can limit the placing table 15 to move through the elastic action of the first spring 23, the sliding clamping block 25 can enter the working cavity 27 and clamp the covered optical fiber 14 with the fixed clamping block 26 mutually, the worm 29 can drive the rotating shaft 32 and the driven shaft 42 to rotate simultaneously through the rotation of the rotating shaft 32, the rotating disc 31 can drive the peeling block 35 to rotate, when the peeling block 35 rotates to the side of the working cavity 27, the peeling block 35 can enter the working cavity 27 through the elastic action of the second spring 34, the outer sheath of the optical fiber 14 with sheath can be cut off by the annular cutter 65, the sheath cut off can be peeled off by the peeling block 35 driven by the continuous rotation of the rotating disc 31, the moving block 43 at the rear side can enter the working chamber 27 by the rotation of the driven shaft 42, the moving block 43 at the front side can enter the working chamber 27 by the operation of the motor 50, when the two moving blocks 43 enter the working chamber 27 to be abutted, the optical fiber 46 can be fixed in the clamping chamber 45, when the moving block 43 at the front side moves to the working chamber 27 side, the rack 49 can drive the gear 60 to rotate, so that the transverse shaft 61 can drive the reel 63 to rotate, the connecting rope 59 can be in a loose state, when the moving block 43 moves to the connecting block 54 to enter the second arc-shaped chamber 47, the connecting block 54 can drive the limiting pin 56 to pop up to the left, and then the cutter 53 can shoot off the optical fiber 46, waste produced after work can be collected via the waste chamber 37 and can be removed by manually opening the closure door 38.

The invention has the beneficial effects that: the invention can perform peeling and cutting processes on the optical fiber by using only one machine without using various tools for operation, thereby effectively improving the working efficiency, reducing various errors generated during manual operation and improving the product quality, wherein the transmission mechanism can control the limiting plate to limit the placing table to move left and right through the up-and-down sliding of the limiting plate and the elastic action of the first spring in a linkage manner, thereby improving the stability, and can clamp the skinned optical fiber in the working cavity to prevent the skinned optical fiber from moving in the peeling process, the peeling mechanism can perform the peeling process on the skinned optical fiber through manually rotating a manual wheel, and the cutting mechanism can cut the optical fiber through the operation of a motor.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (7)

1. The utility model provides an all-in-one is tailor to optic fibre for communication technology, is including placing platform and organism, its characterized in that: a storage cavity with an upward opening is formed in the placing table, a coated optical fiber can be placed in the storage cavity, a pressing plate is rotatably arranged on the upper side of the placing table, the pressing plate can seal the storage cavity and can press the coated optical fiber tightly, a placing cavity with a leftward opening is formed in the machine body, the placing table can be placed in the placing cavity, a working cavity is communicated with the right side of the placing cavity, a limiting plate capable of limiting the placing table to move is arranged on the left side face of the coated optical fiber in a vertical sliding mode, the extending portion of the coated optical fiber can enter the working cavity, and a transmission mechanism capable of controlling the limiting plate to be in a limiting state and clamping the coated optical fiber in the working cavity to prevent the coated optical fiber from moving is arranged in the machine body;

the upper and lower both sides of working chamber all communicate and are equipped with first arc chamber, first arc intracavity rotation is equipped with the rotary disk, the organism with be equipped with steerable two in the rotary disk rotates relatively, and can peel the peeling mechanism of belt leather optic fibre crust, both sides intercommunication is equipped with the removal chamber around the working chamber, it is equipped with the movable block to slide around on the inner wall in removal chamber, it is equipped with steerable to remove the intracavity the movable block gets into the tight optic fibre of working intracavity clamp, and can be right optic fibre cuts the cutting mechanism of tailorring.

2. An optical fiber cutting integrated machine for communication technology according to claim 1, characterized in that: drive mechanism is including setting firmly fixed clamp splice on the working chamber roof, the downside intercommunication of working chamber is equipped with logical chamber, it is equipped with the slip clamp splice to lead to the sliding of going up and down on the left wall in chamber, the slip clamp splice can get into in the working chamber, the slip clamp splice with but fixed clamp splice butt, and can press from both sides tightly the area skin optic fibre, the downside intercommunication that leads to the chamber is equipped with the slip chamber of opening left, the horizontal slip is equipped with first slider and second slider on the diapire in slip chamber, first slider with the dead lever has set firmly between the second slider, first slider with it is equipped with first connecting rod to articulate between the limiting plate, the second slider with it is equipped with the second connecting rod to articulate between the slip clamp splice, the right flank of second slider with fixed mounting has first spring between the right wall in slip chamber.

3. An optical fiber cutting integrated machine for communication technology according to claim 2, characterized in that: peeling mechanism establishes including rotating the rotation axis on the wall behind the first arc chamber, the rotary disk sets firmly in the rotation axis periphery, elastic cavity has been seted up in the rotary disk, it is equipped with the piece of skinning to slide on the inner wall in elastic cavity, the piece of skinning is close to elastic cavity side with the elastic cavity is close to fixed mounting has the second spring between the rotation axis lateral wall, the piece of skinning is close to the working chamber side has set firmly the annular and has cut the sword that splits.

4. An optical fiber cutting integrated machine for communication technology according to claim 3, characterized in that: the rear side of the first arc-shaped cavity is provided with a worm wheel cavity, the upper wall and the lower wall of the worm wheel cavity are respectively provided with a worm in a rotating mode, the two worms are fixedly connected with each other, the threads of the two worms are opposite, the upward extending part of the worm located on the upper side extends out of the outside, the top surface of the upward extending part of the worm is fixedly provided with a manual wheel, the backward extending part of the rotating shaft extends into the worm wheel cavity, the front wall of the worm wheel cavity is rotatably provided with a driven shaft, the driven shaft and the periphery of the rotating shaft are respectively and fixedly provided with a worm wheel, and the worm wheel is meshed with the.

5. An optical fiber cutting integrated machine for communication technology according to claim 4, characterized in that: the cutting mechanism comprises a motor fixedly arranged on the front wall of the moving cavity on the front side, a power shaft is arranged on the rear side face of the motor in a power connection mode, two moving blocks are far away from each other and are provided with threaded cavities, the threaded cavities on the front side are in threaded connection with the power shaft, the forward extending portion of the driven shaft extends into the moving cavity on the rear side and is in threaded connection with the threaded cavities on the rear side, and clamping cavities are formed in the two moving blocks close to each other.

6. An optical fiber cutting integrated machine for communication technology according to claim 5, characterized in that: a cavity is formed in the moving block on the rear side, a second arc-shaped cavity and a rack cavity are communicated with the left side of the moving cavity on the front side, a rack is fixedly arranged on the bottom wall of the rack cavity, a cutter storage cavity with an opening towards the working cavity is formed in the moving block on the front side, a cutter is arranged on the inner wall of the cutter storage cavity in a sliding mode, a third spring is fixedly arranged between the front side face of the cutter and the front wall of the cutter storage cavity, a limiting hole with a leftward opening is formed in the cutter, a pressure cavity with a leftward opening is communicated with the left side of the cutter storage cavity, a connecting block is arranged in the pressure cavity, a limiting pin is fixedly arranged on the right side face of the connecting block and can enter the limiting hole and limit the cutter to move, a fourth spring is fixedly arranged between the right side face of the connecting block and the right wall of the pressure cavity, and the connecting block can enter the second arc-shaped, deposit the downside intercommunication in sword chamber and be equipped with the driven chamber of opening left, it is equipped with the cross axle to rotate on the right wall in driven chamber, the reel has set firmly in the periphery of cross axle, the connection rope is equipped with around the dress in the periphery of reel, connect rope extension to stretch into deposit the sword intracavity, and with cutting off cutter fixed connection, the cross axle extends into left the rack intracavity, and its left surface has set firmly the gear, the gear with rack toothing.

7. An optical fiber cutting integrated machine for communication technology according to claim 1, characterized in that: the right side intercommunication in working chamber is equipped with the rubbish chamber, the right side in rubbish chamber is installed and is closed the door.

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