CN112596185A - Optical cable tractor applicable to optical cables of different specifications and capable of automatically compressing - Google Patents

Optical cable tractor applicable to optical cables of different specifications and capable of automatically compressing Download PDF

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Publication number
CN112596185A
CN112596185A CN202110077507.7A CN202110077507A CN112596185A CN 112596185 A CN112596185 A CN 112596185A CN 202110077507 A CN202110077507 A CN 202110077507A CN 112596185 A CN112596185 A CN 112596185A
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CN
China
Prior art keywords
cavity
main
end wall
auxiliary
friction roller
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CN202110077507.7A
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Chinese (zh)
Inventor
徐强
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Chengdu Qinyu Network Technology Co ltd
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Chengdu Qinyu Network Technology Co ltd
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Priority to CN202110077507.7A priority Critical patent/CN112596185A/en
Publication of CN112596185A publication Critical patent/CN112596185A/en
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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
    • G02B6/46Processes or apparatus adapted for installing or repairing optical fibres or optical cables
    • G02B6/50Underground or underwater installation; Installation through tubing, conduits or ducts
    • G02B6/54Underground or underwater installation; Installation through tubing, conduits or ducts using mechanical means, e.g. pulling or pushing devices

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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 relates to the field of optical cables, and discloses an optical cable tractor which is suitable for optical cables of different specifications and can be automatically compressed, and the optical cable tractor comprises a main body box, wherein a main traction cavity which is through from front to back is arranged in the main body box, the left end wall of the main traction cavity is communicated with an optical cable inlet cavity which is provided with a left opening and is through from front to back, the upper end wall of the main traction cavity is communicated with a main compression block cavity, the lower end wall of the main traction cavity is communicated with a lower friction roller cavity, the device can self-define and set the proper pressure value of the optical cable tractor aiming at the cables of different specifications through a pressure adjusting knob, and an upper friction roller which, thereby make the device realize compressing tightly the automation of optical cable with the pressure value that sets up in advance, saved the trouble of artifical frequent regulation pressure on the one hand, on the other hand has guaranteed that the optical cable receives the definite of pressure, has avoided the undersize of pressure to lead to skidding, perhaps the condition emergence that the optical cable was damaged to pressure overgauge.

Description

Optical cable tractor applicable to optical cables of different specifications and capable of automatically compressing
Technical Field
The invention relates to the field of optical cables, in particular to an optical cable tractor which is suitable for optical cables of different specifications and can automatically compress.
Background
Optical cable tractor need be used when laying in two optical cable wells that are close to at present, but the optical cable of a specification is only applicable to most optical cable tractor at present, thereby the general usefulness is lower, and the optical cable tractor that is applicable to multiple specification at present needs artifical manual regulation machine to the pressure size of optical cable when using, it is comparatively loaded down with trivial details, and because the optical cable has certain requirement to the size of pressure, the undersize will cause the skidding easily, and too big then damage the optical cable easily, thereby there is certain difficulty through the suitable pressure size of manual adjustment, and there is certain risk.
Disclosure of Invention
The invention aims to provide an optical cable tractor which is suitable for optical cables of different specifications and can automatically compress, and the optical cable tractor can overcome the defects in the prior art, so that the practicability of equipment is improved.
The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to an optical cable tractor which is suitable for optical cables with different specifications and can be automatically compressed, and the optical cable tractor comprises a main body box, wherein a main traction cavity which is communicated from front to back is arranged in the main body box, the left end wall of the main traction cavity is communicated with an optical cable inlet cavity with a left opening and communicated from front to back, the upper end wall of the main traction cavity is communicated with a main compression block cavity, the lower end wall of the main traction cavity is communicated with a lower friction roller cavity, the tail end of the upper side of the right end wall of the main compression block cavity is communicated with a compression slider cavity, a main compression block is connected in the main compression block cavity in a sliding fit manner, an auxiliary compression block cavity with a downward opening is arranged in the main compression block, an auxiliary compression block is connected in the auxiliary compression block cavity in a sliding fit manner, an upper friction roller cavity with a downward opening is arranged in the auxiliary compression block, the left end wall of the upper friction roller cavity is connected in a rotating fit manner, the upper friction roller cavity is internally provided with an upper friction roller fixedly connected with an upper friction roller shaft, the upper end face of the auxiliary compression block is fixedly connected with a compression spring between the upper end walls of the auxiliary compression block cavity, the left end wall of the auxiliary compression block cavity is communicated with a main magnetic through cavity with a left opening, the upper end wall of the main magnetic through cavity is communicated with a magnetic resistance baffle auxiliary cavity, the lower end wall of the main magnetic through cavity is communicated with a magnetic resistance baffle main cavity corresponding to the magnetic resistance baffle auxiliary cavity, the lower side of the magnetic resistance baffle main cavity is provided with an adjusting bevel gear cavity, and the upper end wall of the adjusting bevel gear cavity is in rotary fit connection with a baffle adjusting shaft which upwards extends into the main cavity of the magnetic resistance baffle and downwards extends into the adjusting bevel gear cavity.
On the basis of the technical scheme, the left end wall of the main compaction block cavity is communicated with an auxiliary triggering magnetic block cavity which can correspond to the main magnetic through cavity, the main magnetic resistance baffle cavity is connected with a baffle adjusting slide block which is in threaded fit connection with the baffle adjusting shaft in a sliding fit manner, the right end face of the baffle adjusting slide block is fixedly connected with a magnetic resistance baffle which extends upwards to penetrate through the main magnetic through cavity into the auxiliary magnetic resistance baffle cavity and is in sliding fit connection with the auxiliary magnetic resistance baffle cavity, the magnetic resistance baffle is internally provided with an auxiliary magnetic through cavity which penetrates through the main magnetic through cavity from left to right and is positioned in the main magnetic through cavity, the adjusting bevel gear cavity is internally provided with an auxiliary bevel gear which is fixedly connected with the baffle adjusting shaft, and the left end wall of the adjusting bevel gear cavity is in rotating fit connection with a main bevel gear shaft which extends leftwards to the main compaction block cavity and rightwards to the adjusting, the left side of the auxiliary bevel gear is meshed with a main bevel gear fixedly connected with a main bevel gear shaft, an auxiliary adjusting friction wheel fixedly connected with the main bevel gear shaft is arranged in the main pressing block cavity, and the left end wall of the main pressing block cavity is connected with a pressure adjusting main shaft which extends to the outside leftwards and extends to the main pressing block cavity rightwards in a rotating fit mode.
On the basis of the technical scheme, the pressure adjusting spindle right end face is fixedly connected with an upper side of an auxiliary adjusting friction wheel and can be abutted against the auxiliary adjusting friction wheel, the pressure adjusting spindle left end face is fixedly connected with an external pressure adjusting knob, an auxiliary triggering magnetic block is connected in an sliding fit mode in an auxiliary triggering magnetic block cavity and can be matched with a main triggering magnetic block corresponding to the auxiliary triggering magnetic block, a motor fixedly connected with a main body box is arranged on the right side of a pressing block cavity, a switching gear cavity is arranged on the right side of the main pressing block cavity and is communicated with a lower end wall of the switching gear cavity, a transmission bevel gear cavity is arranged on the right side of the main pulling cavity and is connected with an upper end wall of the pressing block cavity in a rotating fit mode, the upper end wall of the pressing block cavity extends upwards to the outside and downwards to penetrate through the pressing block cavity to switch the switching slider cavity The last fixedly connected with of main compact heap right-hand member face upside extends to right compress tightly the slider intracavity and with compress tightly slider chamber sliding fit connection and with compress tightly the slider that compresses tightly that axle screw-thread fit connects.
On the basis of the technical scheme, the upper end wall of the pressing slider cavity is fixedly connected with a contact switch which can be abutted against the pressing slider and is located on the left side of the pressing shaft, the upper end face of the pressing shaft is fixedly connected with a manual knob located outside, a pressing gear fixedly connected with the pressing shaft is arranged in the switching gear cavity, the lower end face of the motor is fixedly connected with a spline shaft which extends downwards into the switching gear cavity and is connected with the main body box in a rotating fit manner, the switching slider cavity is connected with a switching slider in a sliding fit manner, the lower end face of the switching slider and the lower end wall of the switching slider cavity are fixedly connected with a switching slider spring, the spline shaft is connected with a switching main shaft which extends downwards, penetrates through the switching gear cavity, is connected into the switching slider cavity and is connected with the switching slider in a rotating fit manner, and the lower end wall of the switching gear cavity is connected with a Extend to switch gear intracavity and be located switch the left axle that pulls in slider chamber, switch gear intracavity be equipped with and be located the compression gear downside and with pull a fixed connection's traction gear.
On the basis of the technical scheme, a driving gear which is fixedly connected with the switching main shaft and can be meshed with the pressing gear and the traction gear is arranged in the switching gear cavity, a lower friction roller shaft which extends leftwards to penetrate through the lower friction roller cavity into the left end wall of the lower friction roller cavity and rightwards to extend into the transmission bevel gear cavity is connected with the left end wall of the transmission bevel gear cavity in a rotating fit manner, an auxiliary transmission bevel gear which is fixedly connected with the traction shaft is arranged in the transmission bevel gear cavity, a main transmission bevel gear which is fixedly connected with the lower friction roller shaft is meshed with the left side of the auxiliary transmission bevel gear, a lower friction roller which is fixedly connected with the lower friction roller shaft is arranged in the lower friction roller cavity, and an optical cable which is positioned between the upper friction roller and the lower friction roller and can be abutted against the upper friction roller and the lower friction roller is arranged in the main traction cavity, and a trigger pull rope is fixedly connected between the left end surface of the auxiliary trigger magnetic block and the lower end surface of the switching slide block, and the attraction force between the main trigger magnetic block and the auxiliary trigger magnetic block is greater than the thrust force of the switching slide block spring.
The invention has the beneficial effects that: this device can carry out the self-defining to the cable of different specifications through pressure adjustment knob and set up its suitable pressure value, and cooperate hold-down spring simultaneously through the last friction roller that can move down to make the device realize compressing tightly the automation of optical cable with the pressure value that sets up in advance, saved artifical frequent adjusting pressure's trouble on the one hand, on the other hand has guaranteed that the optical cable receives the certain of pressure, has avoided the undersize of pressure to lead to skidding, perhaps the condition emergence of the too big damage optical cable of pressure.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
The invention is further illustrated with reference to the following figures and examples.
Fig. 1 is a schematic structural diagram of an optical cable tractor which is suitable for optical cables with different specifications and can automatically compact.
Fig. 2 is an enlarged schematic view of a structure at a in fig. 1.
Fig. 3 is an enlarged schematic view of B in fig. 2.
Fig. 4 is an enlarged schematic view of the structure at C in fig. 1.
Detailed Description
The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: 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.
Combine fig. 1-4 an optical cable tractor suitable for different specification optical cables and that can compress tightly automatically, including main body box 10, main chamber 16 that draws that link up around being equipped with in main body box 10, main chamber 16 left end wall intercommunication of drawing is equipped with the opening and link up optical cable entrance 15 around just left, main chamber 16 upper end wall intercommunication of drawing is equipped with main compact heap chamber 23, main chamber 16 lower extreme wall intercommunication of drawing is equipped with down friction roller chamber 18, main compact heap chamber 23 right-hand member wall upside end intercommunication is equipped with compact heap chamber 54, main compact heap chamber 23 sliding fit is connected with main compact heap 25, be equipped with the decurrent vice compact heap chamber 26 of opening in the main compact heap 25, sliding fit is connected with vice compact heap 45 in vice compact heap chamber 26, be equipped with the decurrent upper friction roller chamber 53 of opening in the vice compact heap 45, upper friction roller chamber 53 left end wall rotating fit is connected with and extends through to right in upper friction roller chamber 53 to on An upper friction roller shaft 13 is arranged in the right end wall of the friction roller cavity 53, an upper friction roller 14 fixedly connected with the upper friction roller shaft 13 is arranged in the upper friction roller cavity 53, a compression spring 24 is fixedly connected between the upper end surface of the auxiliary compression block 45 and the upper end wall of the auxiliary compression block cavity 26, the left end wall of the auxiliary compression block cavity 26 is communicated with a main magnetic through cavity 11 with a leftward opening, a magnetic resistance baffle auxiliary cavity 22 is communicated with the upper end wall of the main magnetic through cavity 11, a magnetic resistance baffle main cavity 63 corresponding to the magnetic resistance baffle auxiliary cavity 22 is communicated with the lower end wall of the main magnetic through cavity 11, an adjusting bevel gear cavity 51 is arranged on the lower side of the magnetic resistance baffle main cavity 63, and a baffle adjusting shaft 43 which extends upwards into the magnetic resistance baffle main cavity 63 and downwards into the adjusting bevel gear cavity 51 is connected in a rotating fit mode on the upper end wall of the adjusting bevel gear cavity 51.
In addition, in one embodiment, the left end wall of the main compact block cavity 23 is communicated with a secondary trigger magnetic block cavity 38 capable of corresponding to the main magnetic through cavity 11, the magnetic resistance baffle main cavity 63 is connected with a baffle adjusting slider 44 in a sliding fit manner, the baffle adjusting slider 44 is connected with the baffle adjusting shaft 43 in a threaded fit manner, the right end face of the baffle adjusting slider 44 is fixedly connected with a magnetic resistance baffle 41 which extends upwards and penetrates through the main magnetic through cavity 11 to the magnetic resistance baffle auxiliary cavity 22 and is connected with the magnetic resistance baffle auxiliary cavity 22 in a sliding fit manner, the magnetic resistance baffle 41 is internally provided with a secondary magnetic through cavity 40 which penetrates left and right and is positioned in the main magnetic through cavity 11, the adjusting bevel gear cavity 51 is internally provided with a secondary bevel gear shaft 50 fixedly connected with the baffle adjusting shaft 43, the left end wall of the adjusting bevel gear cavity 51 is connected with a main bevel gear 47 which extends leftwards to the main compact block cavity 23 and rightwards to the adjusting bevel gear cavity 51 in a rotating fit manner, the left side of the auxiliary bevel gear 50 is engaged with a main bevel gear 48 fixedly connected with a main bevel gear shaft 47, an auxiliary adjusting friction wheel 46 fixedly connected with the main bevel gear shaft 47 is arranged in the main pressing block cavity 23, and a pressure adjusting main shaft 39 which extends to the outside leftwards and extends to the inside of the main pressing block cavity 23 rightwards is connected to the left end wall of the main pressing block cavity 23 in a rotating fit mode.
In addition, in one embodiment, the right end surface of the pressure adjusting spindle 39 is fixedly connected with a main adjusting friction wheel 49 which is located on the upper side of the auxiliary adjusting friction wheel 46 and can be abutted against the auxiliary adjusting friction wheel 46, the left end surface of the pressure adjusting spindle 39 is fixedly connected with a pressure adjusting knob 12 which is located outside, an auxiliary triggering magnetic block 36 is connected in the auxiliary triggering magnetic block cavity 38 in a sliding fit manner, a main triggering magnetic block 42 which can correspond to the auxiliary triggering magnetic block 36 is fixedly connected in the auxiliary pressing block 45, the right side of the pressing slider cavity 54 is provided with a motor 31 which is fixedly connected with the main body box 10, the lower side of the pressing slider cavity 54 is provided with a switching gear cavity 58 which is located on the right side of the main pressing block cavity 23, the lower end wall of the switching gear cavity 58 is communicated with a switching slider cavity 57, the lower side of the switching slider cavity 57 is provided with a transmission bevel gear cavity 35 which is, the upper end wall of the pressing slider cavity 54 is connected with a pressing shaft 30 which extends upwards to the outside and downwards to penetrate through the pressing slider cavity 54 to the switching gear cavity 58 in a rotating fit mode, and the upper end of the right end face of the main pressing block 25 is fixedly connected with a pressing slider 29 which extends rightwards to the inside of the pressing slider cavity 54, is connected with the pressing slider cavity 54 in a sliding fit mode and is connected with the pressing shaft 30 in a threaded fit mode.
In addition, in one embodiment, a contact switch 27 capable of abutting against the pressing slider 29 and located on the left side of the pressing shaft 30 is fixedly connected to the upper end wall of the pressing shaft 54, a manual knob 28 located outside is fixedly connected to the upper end surface of the pressing shaft 30, a pressing gear 55 fixedly connected to the pressing shaft 30 is arranged in the switching gear chamber 58, a spline shaft 32 extending downward into the switching gear chamber 58 and rotatably connected to the main body case 10 is fixedly connected to the lower end surface of the motor 31, a switching slider 61 is slidably connected in the switching slider chamber 57, a switching slider spring 62 is fixedly connected between the lower end surface of the switching slider 61 and the lower end wall of the switching slider chamber 57, a switching main shaft 60 extending downward through the switching gear chamber 58 into the switching slider chamber 57 and rotatably connected to the switching slider 61 is spline connected in the spline shaft 32, the end wall inner rotation fit connection in the switching gear cavity 58 has a downward extension to the transmission bevel gear cavity 35 and an upward extension to the switching gear cavity 58 and the left traction shaft 33 of the switching slide block cavity 57, and the switching gear cavity 58 is provided with a traction gear 56 which is located on the lower side of the compression gear 55 and fixedly connected with the traction shaft 33.
In addition, in one embodiment, a driving gear 59 fixedly connected to the switching spindle 60 and capable of engaging with the pressing gear 55 and the traction gear 56 is disposed in the switching gear cavity 58, a lower friction roller shaft 20 extending leftwards through the lower friction roller cavity 18 into the left end wall of the lower friction roller cavity 18 and rightwards into the transmission bevel gear cavity 35 is connected in a rotationally fitting manner to the left end wall of the transmission bevel gear cavity 35, a secondary transmission bevel gear 34 fixedly connected to the traction shaft 33 is disposed in the transmission bevel gear cavity 35, a main transmission bevel gear 21 fixedly connected to the lower friction roller shaft 20 is engaged to the left side of the secondary transmission bevel gear 34, a lower friction roller 19 fixedly connected to the lower friction roller shaft 20 is disposed in the lower friction roller cavity 18, an optical cable 17 disposed between the upper friction roller 14 and the lower friction roller 19 and capable of abutting against the upper friction roller 14 and the lower friction roller 19 is disposed in the main traction cavity 16, a trigger pull rope 37 is fixedly connected between the left end surface of the auxiliary trigger magnetic block 36 and the lower end surface of the switching slider 61, and the attraction force between the main trigger magnetic block 42 and the auxiliary trigger magnetic block 36 is greater than the thrust of the switching slider spring 62.
The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.
As shown in fig. 1-4, when the device of the present invention is in an initial state, the pressing slider 29 and the contact switch 27 are in an abutting state, the main pressing block 25 is completely located in the main pressing block cavity 23, the auxiliary triggering magnetic block 36 and the main triggering magnetic block 42 are not in a corresponding state, the auxiliary triggering magnetic block 36 and the left end wall of the auxiliary triggering magnetic block cavity 38 are in a close-fitting state, the driving gear 59 and the pressing gear 55 are in a meshing state, and the main adjusting friction wheel 49 and the auxiliary adjusting friction wheel 46 are in an abutting state;
sequence of mechanical actions of the whole device:
in operation, the cable 17 is placed in the main pulling chamber 16 through the cable inlet chamber 15, and the optical cable 17 is positioned between the upper friction roller 14 and the lower friction roller 19 and is in a state of abutting against the lower friction roller 19, at this time the motor 31 is started in a forward direction, thereby driving the spline shaft 32 to rotate, the spline shaft 32 drives the driving gear 59 to rotate through the switching main shaft 60, thereby driving the pressing gear 55 to rotate, thereby driving the pressing shaft 30 to rotate, thereby driving the pressing slide block 29 to move downwards, the pressing slide block 29 drives the auxiliary pressing block 45 to move downwards through the auxiliary pressing block cavity 26 and the pressing spring 24, the auxiliary pressing block 45 drives the upper friction roller 14 to move downwards through the upper friction roller shaft 13, the upper friction roller 14 moves downwards along with the downward abutment of the upper side of the optical cable 17, so that the lower friction roller 19 is matched to achieve an automatic pressing effect on the optical cable 17, and the optical cable 17 is prevented from slipping in the subsequent traction process;
meanwhile, the reaction force of the optical cable 17 on the upper friction roller 14 drives the auxiliary pressing block 45 to move upwards relative to the main pressing block 25 by overcoming the thrust of the pressing spring 24 through the upper friction roller 14 and the upper friction roller shaft 13, simultaneously, the pressing spring 24 is in a gradually compressed state, and when the main pressing block 25 moves downwards, the main magnetic through cavity 11 and the auxiliary triggering magnetic block cavity 38 are in a corresponding state, so that when the auxiliary pressing block 45 moves upwards relative to the main pressing block 25, the main triggering magnetic block 42 moves upwards relative to the main magnetic through cavity 11 along with the auxiliary pressing block 45 and corresponds to the auxiliary magnetic through cavity 40, and at the moment, the main triggering magnetic block 42 generates a certain attractive force to the auxiliary triggering magnetic block 36 through the auxiliary magnetic through cavity 40 and the main magnetic through cavity 11, so that the auxiliary triggering magnetic block 36 moves rightwards, the triggering pull rope 37 is in a tensioned state, and the switching slider 61 overcomes the thrust of the switching slider spring 62 to move downwards under the action of the pulling force of the triggering slider 37, therefore, the switching slide block 61 drives the driving gear 59 to move downwards to be just in a meshed state with the traction gear 56 through the switching main shaft 60, and at the moment, the driving gear 59 is in a separated state with the pressing gear 55, so that the pressing gear 55 stops rotating, namely the upper friction roller 14 stops moving downwards, namely the optical cable 17 is stopped being pressed, and therefore reaction force with corresponding magnitude generated due to the compression amount of the pressing spring 24 can generate corresponding pressing effect on the optical cable 17 through the upper friction roller 14;
if the pressing force generated by the upper friction roller 14 on cables with different sizes needs to be adjusted, the pressure adjusting knob 12 is rotated in the initial state to drive the pressure adjusting spindle 39 to rotate, so as to drive the main adjusting friction wheel 49 to rotate, because the main adjusting friction wheel 49 and the auxiliary adjusting friction wheel 46 are in the abutting state in the initial state, the main adjusting friction wheel 49 drives the auxiliary adjusting friction wheel 46 to rotate, so as to drive the main bevel gear shaft 47 to rotate, the main bevel gear shaft 47 drives the auxiliary bevel gear 50 to rotate through the main bevel gear 48, so as to drive the auxiliary bevel gear 50 to rotate, so as to drive the baffle adjusting shaft 43 to rotate, so as to drive the baffle adjusting slider 44 to move upwards, so as to drive the magnetic blocking baffle 41 to move upwards, so that the distance between the auxiliary magnetic through cavity 40 and the main triggering magnetic block 42 is increased, so that when the main triggering magnetic block 42 and the auxiliary magnetic through cavity 40 correspond again, the upward movement distance of the auxiliary pressing block 45 relative to the main pressing block 25 is increased, so that the compression amount of the pressing spring 24 is increased, the reaction of the pressing spring 24 on the optical cable 17 through the upper friction roller 14 is increased, the pressing effect of the optical cable 17 is enhanced, and when the pressure adjusting knob 12 is reversed, the pressing effect on the optical cable 17 can be weakened, so that the device can adapt to the traction work of optical cables 17 of different types, and the universality of the device is improved;
meanwhile, the driving gear 59 and the traction gear 56 are in a meshed state at the moment, so that the driving gear 59 drives the traction gear 56 to rotate, the traction shaft 33 is driven to rotate, the traction shaft 33 drives the main transmission bevel gear 21 to rotate through the auxiliary transmission bevel gear 34, the lower friction roller shaft 20 is driven to rotate, the lower friction roller 19 is driven to rotate, the friction force between the lower friction roller 19 and the optical cable 17 is generated at the moment, and the optical cable 17 is pulled forwards by matching with the rotation of the lower friction roller 19, so that the optical cable 17 is driven to move;
when the traction is finished, the motor 31 is turned off at the moment, then the manual knob 28 is rotated for one circle, so that the pressing shaft 30 is driven to rotate reversely, the pressing slider 29 is driven to move upwards, the main pressing block 25 is driven to move upwards, the auxiliary pressing block 45 is pushed by the pressing spring 24 to move downwards relative to the main magnetic through cavity 11 at the moment, the main triggering magnetic block 42 is driven to move downwards relative to the auxiliary magnetic through cavity 40, the main triggering magnetic block 42 and the auxiliary triggering magnetic block 36 are in a separation corresponding state, the auxiliary triggering magnetic block 36 loses the attraction of the main triggering magnetic block 42 at the moment, the triggering pull rope 37 is in a loosening state, the switching slider 61 loses the pulling force of the triggering pull rope 37, the switching slider 61 moves upwards under the pushing force of the switching slider spring 62, and the switching slider 61 drives the driving gear 59 to move upwards through the switching main shaft 60 to be in a meshing state with the pressing gear 55 again, thereby reverse starter motor 31 this moment to motor 31 drives integral key shaft 32 reversal this moment, thereby will drive and compress tightly slider 29 rebound, and when compressing tightly slider 29 rebound to be in the butt state with contact switch 27, motor 31 closed this moment, thereby initial condition is got back to the device, thereby has realized the automatic re-setting of device, can take out optical cable 17 to the external world afterwards.
The invention has the beneficial effects that: this device can carry out the self-defining to the cable of different specifications through pressure adjustment knob and set up its suitable pressure value, and cooperate hold-down spring simultaneously through the last friction roller that can move down to make the device realize compressing tightly the automation of optical cable with the pressure value that sets up in advance, saved artifical frequent adjusting pressure's trouble on the one hand, on the other hand has guaranteed that the optical cable receives the certain of pressure, has avoided the undersize of pressure to lead to skidding, perhaps the condition emergence of the too big damage optical cable of pressure.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an optical cable tractor suitable for different specification optical cables and can compress tightly automatically, includes the main part case, its characterized in that: the main body box is internally provided with a main traction cavity which is communicated with the front and the back, the left end wall of the main traction cavity is communicated with an optical cable inlet cavity with a left opening and a front and back opening, the upper end wall of the main traction cavity is communicated with a main pressing block cavity, the lower end wall of the main traction cavity is communicated with a lower friction roller cavity, the upper end of the right end wall of the main pressing block cavity is communicated with a pressing slider cavity, the main pressing block cavity is connected with a main pressing block in a sliding fit manner, the main pressing block is internally provided with an auxiliary pressing block cavity with a downward opening, the auxiliary pressing block is internally provided with an upper friction roller cavity with a downward opening, the left end wall of the upper friction roller cavity is connected with an upper friction roller shaft which extends through the upper friction roller cavity to the right end wall of the upper friction roller cavity in a rotating fit manner, and the upper friction roller cavity is fixedly connected with the upper friction roller shaft, the utility model discloses a magnetic baffle, including vice compact piece, main magnetism leads to chamber upper end wall intercommunication and is equipped with the opening main magnetism logical chamber left, the vice compact piece upper end of chamber upper end wall intercommunication is equipped with the vice chamber of magnetic baffle, the main magnetism leads to chamber upper end wall intercommunication and is equipped with the vice chamber of magnetic baffle, main magnetism leads to chamber lower end wall intercommunication be equipped with the vice chamber of magnetic baffle corresponds hinders magnetic baffle main chamber, it is equipped with regulation bevel gear chamber to hinder magnetic baffle main chamber downside, it upwards extends to adjust bevel gear chamber upper end wall internal rotation cooperation be connected with hinder magnetic baffle main intracavity and downwardly extending to adjust the baffle regulating spindle in the bevel gear chamber.
2. An optical cable traction machine which is suitable for optical cables with different specifications and can be automatically compressed according to claim 1, is characterized in that: the left end wall of the main pressing block cavity is communicated with an auxiliary triggering magnetic block cavity which can correspond to the main magnetic through cavity, the main magnetic baffle cavity is connected with a baffle adjusting slide block which is in threaded fit connection with the baffle adjusting shaft in a sliding fit manner, the right end face of the baffle adjusting slide block is fixedly connected with a magnetic baffle which extends upwards to penetrate through the main magnetic through cavity into the auxiliary magnetic baffle cavity and is in sliding fit connection with the auxiliary magnetic baffle cavity, the magnetic baffle is internally provided with an auxiliary magnetic through cavity which penetrates through the main magnetic through cavity from left to right and is positioned in the main magnetic through cavity, the adjusting bevel gear cavity is internally provided with an auxiliary bevel gear which is fixedly connected with the baffle adjusting shaft, the left end wall of the adjusting bevel gear cavity is in rotating fit connection with a main bevel gear shaft which extends leftwards to the main pressing block cavity and rightwards to the adjusting bevel gear cavity, and the left side of the auxiliary bevel gear is meshed with a main bevel gear which is fixedly connected with the, and an auxiliary adjusting friction wheel fixedly connected with the main bevel gear shaft is arranged in the main compaction block cavity, and a pressure adjusting main shaft which extends to the outside leftwards and extends to the main compaction block cavity rightwards is connected to the left end wall of the main compaction block cavity in a rotating fit manner.
3. The optical cable traction machine applicable to optical cables with different specifications and capable of automatically compressing as claimed in claim 2, is characterized in that: the right end face of the pressure adjusting main shaft is fixedly connected with a main adjusting friction wheel which is positioned on the upper side of the auxiliary adjusting friction wheel and can be abutted against the auxiliary adjusting friction wheel, the left end face of the pressure adjusting main shaft is fixedly connected with a pressure adjusting knob which is positioned outside, an auxiliary triggering magnetic block is connected in a sliding fit manner in the auxiliary triggering magnetic block, a main triggering magnetic block which can correspond to the auxiliary triggering magnetic block is fixedly connected in the auxiliary pressing block, the right side of the pressing slider cavity is provided with a motor which is fixedly connected with the main body box, the lower side of the pressing slider cavity is provided with a switching gear cavity which is positioned on the right side of the main pressing block cavity, the lower end wall of the switching gear cavity is communicated with a switching slider cavity, the lower side of the switching slider cavity is provided with a transmission bevel gear cavity which is positioned on the right side of the main traction cavity, the upper end wall of the pressing slider cavity is connected with a pressing shaft, the terminal fixedly connected with of main compact heap right-hand member face upside extends to right compress tightly the slider intracavity and with compress tightly slider chamber sliding fit connection and with compress tightly the slider that compresses tightly that axle screw-thread fit connects.
4. An optical cable traction machine which is suitable for optical cables with different specifications and can be automatically compressed according to claim 3, is characterized in that: compress tightly slider chamber upper end wall fixedly connected with can with compress tightly the slider butt and be located the left contact switch of hold-down shaft, hold-down shaft up end fixedly connected with is located external manual knob, switch over the gear intracavity be equipped with hold-down shaft fixed connection's gland gear, terminal surface fixedly connected with down extend to under the motor switch over the gear intracavity and with the integral key shaft that main part case normal running fit is connected, switch over slider intracavity sliding fit and be connected with and switch over the slider, switch over slider under the terminal surface with fixedly connected with switch over the slider spring between the lower extreme wall of switch over the slider chamber, integral key shaft internal spline fit is connected with downwardly extending and runs through switch over the gear chamber extremely switch over the slider intracavity and with switch over the main shaft that slider normal running fit is connected, switch over gear chamber lower end wall normal running fit is connected with downwardly extending to drive bevel gear intracavity and upwardly extend to switch over the gear intracavity And the switching gear cavity is internally provided with a traction gear which is positioned at the lower side of the compression gear and is fixedly connected with the traction shaft.
5. An optical cable pulling machine applicable to optical cables of different specifications and capable of automatically compressing as claimed in claim 4, wherein: a driving gear fixedly connected with the switching main shaft and capable of being meshed with the pressing gear and the traction gear is arranged in the switching gear cavity, a lower friction roller shaft which extends leftwards to penetrate through the lower friction roller cavity into the left end wall of the lower friction roller cavity and rightwards to extend into the transmission bevel gear cavity is connected with the left end wall of the transmission bevel gear cavity in a rotating fit manner, an auxiliary transmission bevel gear fixedly connected with the traction shaft is arranged in the transmission bevel gear cavity, a main transmission bevel gear fixedly connected with the lower friction roller shaft is meshed at the left side of the auxiliary transmission bevel gear, a lower friction roller fixedly connected with the lower friction roller shaft is arranged in the lower friction roller cavity, an optical cable which is positioned between the upper friction roller and the lower friction roller and capable of being abutted against the upper friction roller and the lower friction roller is arranged in the main traction cavity, and a trigger pull rope is fixedly connected between the left end face of the auxiliary trigger magnetic block and the lower end face of, the attraction force between the main triggering magnetic block and the auxiliary triggering magnetic block is greater than the thrust force of the switching slider spring.
CN202110077507.7A 2021-01-20 2021-01-20 Optical cable tractor applicable to optical cables of different specifications and capable of automatically compressing Withdrawn CN112596185A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202110077507.7A CN112596185A (en) 2021-01-20 2021-01-20 Optical cable tractor applicable to optical cables of different specifications and capable of automatically compressing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202110077507.7A CN112596185A (en) 2021-01-20 2021-01-20 Optical cable tractor applicable to optical cables of different specifications and capable of automatically compressing

Publications (1)

Publication Number Publication Date
CN112596185A true CN112596185A (en) 2021-04-02

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202110077507.7A Withdrawn CN112596185A (en) 2021-01-20 2021-01-20 Optical cable tractor applicable to optical cables of different specifications and capable of automatically compressing

Country Status (1)

Country Link
CN (1) CN112596185A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113448038A (en) * 2021-07-17 2021-09-28 陶丽 Optical cable is laid with tractor of adaptable different specifications

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113448038A (en) * 2021-07-17 2021-09-28 陶丽 Optical cable is laid with tractor of adaptable different specifications

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