CN113740985A

CN113740985A - Branching device for laying communication optical cables

Info

Publication number: CN113740985A
Application number: CN202111038699.7A
Authority: CN
Inventors: 殷智浩; 于本成; 杨勇; 藏博
Original assignee: Xuzhou College of Industrial Technology
Current assignee: Xuzhou College of Industrial Technology
Priority date: 2021-09-06
Filing date: 2021-09-06
Publication date: 2021-12-03
Anticipated expiration: 2041-09-06
Also published as: CN113740985B

Abstract

The invention is suitable for the technical field of communication optical cable laying, and provides a branching device for laying communication optical cables, which comprises a device base and also comprises: the wire distributing mechanism comprises a bracket assembly, a moving assembly, a clamping piece and a connecting rod assembly, wherein the moving assembly is used for controlling the clamping piece to move oppositely; the ring cutting mechanism comprises a displacement assembly, a ring cutting seat, a ring cutting assembly and a kit, wherein the ring cutting assembly comprises a moving part, an electric element, a connecting rod, a roller and a ring cutting knife. The branching device for laying the communication optical cable can facilitate the clamping of the optical cable and the optical fiber by the clamping piece through the arrangement of the branching mechanism, can perform circular cutting treatment on the outer protective layer of the optical cable through the circular cutting mechanism, so that the optical fiber is exposed out of the outer protective layer of the optical cable, and is convenient for the branching mechanism to perform branching clamping on the optical fiber.

Description

Branching device for laying communication optical cables

Technical Field

The invention belongs to the technical field of communication optical cable laying, and particularly relates to a branching device for laying communication optical cables.

Background

The communication optical cable is composed of a core and an outer sheath, wherein the core is composed of a plurality of (core) optical fibers (generally from a few cores to a few thousands of cores). Compared with the traditional symmetrical copper loop and coaxial copper loop, the transmission capacity of the optical fiber is much larger; the attenuation is less; the transmission distance is long; the volume is small; the weight is light; no electromagnetic interference exists; low cost and is currently the most promising communication transmission medium. It is being widely used for signal transmission of various departments of telecommunication, power, broadcasting and the like, and will gradually become a main body of future communication networks. The main difference between the optical cable and the electric cable is that the optical cable must have a strength member to withstand external mechanical loads in order to protect the optical fiber from various external mechanical forces.

The existing branching device for laying the communication optical cable can only singly perform branching processing on optical fibers in an optical cable main body or the optical cable, and when the optical fibers need to be branched, the existing branching device also adopts manpower to peel off an optical cable outer protective layer, so that the working efficiency is greatly reduced, and manpower and material resources are wasted.

Therefore, in view of the above situation, there is a need to develop a branching device for laying a communication optical cable to overcome the shortcomings in the current practical application.

Disclosure of Invention

In view of the defects in the prior art, an embodiment of the present invention provides a branching device for laying a communication optical cable, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a communication optical cable lays and uses separated time device, includes the device base, set up the installation cavity in the device base, still include:

the branching mechanism comprises a support assembly, a moving assembly, a clamping piece and a connecting rod assembly, wherein the support assembly is fixedly arranged on a device base, the moving assembly is movably arranged in the support assembly, two ends of the clamping piece are movably connected with the moving assembly, the connecting rod assembly is rotatably connected with the clamping piece, the moving assembly is used for controlling the clamping piece to move oppositely, and the clamping piece is used for branching and clamping the optical cable and the optical fiber in the optical cable; and

the ring cutting mechanism comprises a displacement component, a ring cutting seat, a ring cutting component and a kit, wherein the displacement component is fixedly installed in an installation cavity, the displacement component is fixedly connected with one end of the ring cutting seat, the displacement component is used for controlling the ring cutting position of the ring cutting seat, the kit is movably sleeved on the ring cutting seat, the ring cutting seat is movably installed on a device base, the ring cutting component comprises a moving part, an electric element, a connecting rod, a roller and a ring cutting knife, the moving part is respectively and movably installed on the ring cutting seat and the kit, the electric element is in threaded connection with the moving part, two ends of the connecting rod are respectively and rotatably connected with the ring cutting seat and the kit, the roller and the ring cutting knife are respectively installed at one end of the ring cutting seat, the electric element simultaneously drives the moving block to rotate and the kit to rotate on the ring cutting seat, and the kit realizes ring cutting treatment on the optical cable by driving the connecting rod to rotate and further form centripetal movement of the roller and the ring cutting knife .

As a further technical scheme, the support assembly comprises a support and support rods, the support is fixedly connected with the device base, the support rods are distributed and installed in the support, grooves are formed in the end face of the clamping piece, and the grooves are used for branching and clamping optical fibers in the optical cable after circular cutting.

As a further technical solution of the present invention, the moving assembly includes an elastic member and a first slider, two ends of the first slider are movably connected to the rod, respectively, the first slider is movably connected to the clamping member, and two ends of the elastic member are fixedly connected to the bracket and the first slider, respectively.

As a further technical scheme of the present invention, the displacement assembly includes a driving element, a first gear, a second gear, a threaded shaft and a second slider, the driving element is fixedly installed in the installation cavity, the first gear and the second gear are respectively and fixedly sleeved on an output end of the driving element and one end of the threaded shaft, the first gear and the second gear are engaged and connected, the second slider is in threaded connection with the threaded shaft, one end of the second slider is fixedly connected with the circular cutting seat, and two ends of the threaded shaft are fixedly connected with two side walls of the installation cavity.

As a further technical scheme of the invention, the ring cutting seat and the sleeve are respectively provided with an installation opening and a fixing groove, and the installation opening is used for installing the fixing groove.

As a further technical scheme of the invention, a plurality of sliding pieces are movably arranged on one end face of the circular cutting seat, and the sliding pieces are used for the circular cutting seat to stably slide on the device base.

According to a further technical scheme of the invention, a sliding groove is formed in the device base and used for sliding the second slider, and a winding mechanism is mounted at one end of the device base and used for winding the optical cable.

As a further technical scheme of the present invention, the winding mechanism includes a winding support, a hinge and a placing seat, the winding support is respectively and fixedly installed at two ends of the device base, the placing seat includes a fixed seat and a movable seat, the fixed seat is fixedly installed on the winding support, and the fixed seat and the movable seat are rotatably connected through the hinge.

As a further technical scheme of the invention, a plurality of universal wheels are arranged on one end surface of the device base far away from the wire coiling mechanism, and the universal wheels are used for controlling the device base to move and transport.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, through the structural arrangement of the branching mechanism, the first sliding piece is driven to slide oppositely between the two supporting rods through the self elastic force of the elastic piece in the moving assembly, so that the clamping pieces are driven to move oppositely, and the optical cable is subjected to branching clamping; the clamping piece can conveniently carry out branching clamping on the optical fiber in the optical cable through the groove formed in the clamping piece, so that the branching clamping on the optical cable and the optical fiber is improved, the practicability of the branching device is improved, and the working efficiency of branching is improved;

through the structural arrangement of the circular cutting mechanism, the circular cutting seat and the circular cutting assembly can be moved by the arrangement of the displacement assembly, so that the circular cutting treatment of the optical cable is facilitated; the second slider and the external member are driven to rotate on the circular cutting seat through the rotation of the electric element, the second slider and the external member are connected with the circular cutting seat and the external member through the connecting rod in a rotating mode, the roller and the circular cutting knife which are installed at one end of the connecting rod move in a centripetal mode, the roller clamps and rolls the optical cable under the rotation of the external member, the circular cutting knife performs circular cutting processing on the outer protective layer of the optical cable, the optical fiber is made to come out of the outer protective layer of the optical cable, the branching mechanism is made to conduct branching clamping on the optical fiber conveniently, the practicability of the branching device is improved, and the work efficiency of branching is improved.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic overall structural diagram of a branching device for laying a communication optical cable according to an embodiment of the present invention.

Fig. 2 is a structural sectional view of a ring-cutting mechanism in the branching device for laying an optical communication cable according to the embodiment of the present invention.

Fig. 3 is a structural side view of a branching mechanism in a branching device for routing an optical communication cable according to an embodiment of the present invention.

Fig. 4 is a front view of a cable distribution mechanism in a cable distribution device for routing optical communication cables according to an embodiment of the present invention.

Fig. 5 is a partial structural side view of a branching mechanism in a branching device for routing an optical communication cable according to an embodiment of the present invention.

FIG. 6 is a schematic diagram of the structure of the sleeve in the ring cutting mechanism.

Reference numerals: 1-device base, 11-mounting cavity, 12-chute, 2-wire-separating mechanism, 21-bracket assembly, 211-bracket, 212-strut, 22-moving assembly, 221-elastic element, 222-first slider, 23-clamping element, 231-groove, 24-connecting rod assembly, 25-supporting shaft, 3-ring-cutting mechanism, 31-displacement assembly, 311-driving element, 312-first gear, 313-second gear, 314-threaded shaft, 315-second slider, 316-shaft sleeve, 32-ring-cutting seat, 321-mounting port, 33-ring-cutting assembly, 331-moving element, 332-electric element, 333-connecting rod, 334-roller, 335-ring-cutting blade, 34-external member, 341-fixing groove, 35-slider, 4-optical cable, 5-wire-winding mechanism, 51-wire-winding bracket, 52-hinge, 53-placing seat, 531-fixing seat, 532-moving seat, 6-bolt, 7-universal wheel.

Detailed Description

In the description of the present invention, it is to be understood that the terms "longitudinal," "lateral," "upper," "lower," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and thus are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 5, a branching device for laying a communication optical cable according to an embodiment of the present invention includes a device base 1, where a mounting cavity 11 is formed in the device base 1, and the branching device further includes:

the optical fiber branching device comprises a branching mechanism 2, wherein the branching mechanism 2 comprises a support assembly 21, a moving assembly 22, a clamping piece 23 and a connecting rod assembly 24, the support assembly 21 is fixedly installed on a device base 1, the moving assembly 22 is movably installed in the support assembly 21, two ends of the clamping piece 23 are movably connected with the moving assembly 22 through a support shaft 26, the connecting rod assembly 24 is rotatably connected with the clamping piece 23, the moving assembly 22 is used for controlling the clamping piece 23 to move oppositely, and the clamping piece 23 is used for branching and clamping the optical fiber 4 and the optical fiber in the optical fiber 4; and

the ring cutting mechanism 3, the ring cutting mechanism 3 includes a displacement component 31, a ring cutting seat 32, a ring cutting component 33 and a sleeve member 34, the displacement component 31 is fixedly installed in the installation cavity 11, the displacement component 31 is fixedly connected with one end of the ring cutting seat 32, the displacement component 31 is used for controlling the ring cutting position of the ring cutting seat 32, the sleeve member 34 is movably sleeved on the ring cutting seat 32, the ring cutting seat 32 is movably installed on the device base 1, the ring cutting component 33 includes a moving member 331, an electric element 332, a connecting rod 333, a roller 334 and a ring cutting knife 335, the moving member 331 is respectively movably installed on the ring cutting seat 32 and the sleeve member 34, the electric element 332 is in threaded connection with the moving member 331, two ends of the connecting rod 333 are respectively rotatably connected with the ring cutting seat 32 and the sleeve member 34, one end of the ring cutting seat 32 is respectively installed with the roller 334 and the ring cutting knife 335, the electric element 332 simultaneously drives the moving member 331 to rotate and the sleeve member 34 to rotate on the ring cutting seat 32, the sleeve member 34 clamps the optical cable 4 and performs circular cutting processing on the optical cable 4 by driving the connecting rod 333 to rotate so as to form centripetal movement of the roller 334 and the circular cutting knife 335.

In this embodiment, the movable member 331 is driven to move by the rotation of the electric rotating shaft 332 installed on the circular cutting base 32, the external member 34 is rotated on the circular cutting base 32 by the movable connection of the movable member 331 and the external member 34, the external member 34 rotates to drive the roller 334 and the circular cutting knife 335 installed on the connecting rod 333 to move centripetally by the arrangement of the connecting rod 333, the roller 334 clamps and rolls the optical cable 4, and the circular cutting knife 335 performs circular cutting processing on the outer protection layer of the optical cable 4, so that the optical fiber is exposed from the outer protection layer of the optical cable 4, thereby facilitating the branching clamping of the optical fiber by the branching mechanism 2;

in a preferred embodiment, the electric screw spindle is adopted by the electric element 332, the circular cutting assembly 33 is configured to clamp the optical cable 4 and perform circular cutting processing on the outer sheath of the optical cable 4, the connecting rod 333 of the connecting roller 334 and the circular cutting knife 335 is configured to have the same specification and size and the same installation position, when the external member 34 rotates, the connecting rod 333 is driven to rotate, the roller 334 and the circular cutting knife 335 move simultaneously, the self-centering function of the roller 334 and the circular cutting knife 335 is realized, the stability of the optical cable 4 during circular cutting is ensured, and the optical fiber is prevented from being damaged when the circular cutting knife 335 performs circular cutting on the outer sheath.

As shown in fig. 1 to 5, as a preferred embodiment of the present invention, the bracket assembly 21 includes a bracket 211 and struts 212, the bracket 211 is fixedly connected to the apparatus base 1 by bolts 6, the struts 212 are distributed and installed in the bracket 211, a groove 231 is opened on an end surface of the clamping member 23, and the groove 231 is used for branching and clamping optical fibers in the optical cable 4 after being annularly cut.

In this embodiment, the supporting rods 212 are uniformly distributed and installed in the bracket 211, the connecting portions of the supporting rods 212 and the first slider 222 are provided with matching sliding grooves, the clamping member 23 is a clamping member 23 with a roller structure, the circular surface of the optical cable 4 is subjected to branching clamping through the circular arc surface of the roller, and the groove 231 is also an arc groove, the size of which is smaller than the radius size of the optical fiber, so that the arrangement can better perform branching clamping on the optical cable 4 and the optical fiber.

In a preferred embodiment, the clamping member 23 may also be a square or any other clamping member 23 that can achieve the purpose of splitting and clamping the optical cable 4 and the optical fiber.

As shown in fig. 1 to 5, as a preferred embodiment of the present invention, the moving assembly 22 includes an elastic member 221 and a first slider 222, two ends of the first slider 222 are movably connected to the rod 212, respectively, the first slider 222 is movably connected to the clamping member 23 through a supporting shaft 25, and two ends of the elastic member 221 are fixedly connected to the bracket 211 and the first slider 222, respectively.

In this embodiment, the two first sliders 222 can be driven by the elastic force of the elastic member 221 to slide oppositely between the supporting rods 212, so as to drive the clamping member 23 to move up and down, and the optical cable 4 and the optical fiber can be clamped in a branching manner through the groove 23 formed in the clamping member 23; because of the dead weight of optical cable 4 can produce phenomenons such as drunkenness, when optical cable 4 drunkenness, the holder 23 of centre gripping rolls about driving, rotation through link assembly 24 and holder 23 is connected and the turned angle who prescribes a limit to, can rotate two holders 23 spacingly to reach the limit function to optical cable 4 in the clamping process, realize link assembly 24 to the auto-lock of optical cable in the clamping process, improved the practicality of separated time device, improved the efficiency of separated time.

In a preferred embodiment, the moving assembly 22 uses the self elastic force of the elastic member 221 as the power source, the elastic member 221 of the present invention uses a spring with elastic force, and can also use an elastic sheet with equal elastic force; the moving assembly 22 may also be a hydraulic telescopic assembly, hydraulic cylinders are respectively fixed at two ends of the supporting rod 212, a hydraulic rod is fixedly connected to the first slider 222, the hydraulic cylinders at the two ends simultaneously drive the hydraulic rods to perform telescopic motion, so that the two first sliders 212 simultaneously slide between the supporting rods 212 in opposite directions, the first slider 222 is a sliding block, and other sliders capable of satisfying sliding conditions may also be used.

As shown in fig. 2, as a preferred embodiment of the present invention, the displacement assembly 31 includes a driving element 311, a first gear 312, a second gear 313, a threaded shaft 314 and a second slider 315, the driving element 311 is fixedly installed in the installation cavity 11, the first gear 312 and the second gear 313 are respectively fixedly installed at an output end of the driving element 311 and one end of the threaded shaft 314, the first gear 312 and the second gear 313 are engaged and connected, the second slider 315 is in threaded connection with the threaded shaft 314, one end of the second slider 315 is fixedly connected with the circular cutting seat 32, and two ends of the threaded shaft 314 are fixedly connected with two side walls of the installation cavity 11 through a bushing 36.

In this embodiment, the driving element 311 is a motor that can satisfy driving conditions, and by opening the driving element 311 in the displacement assembly 31, the first gear 312 is driven to rotate, and through the meshing connection between the first gear 312 and the second gear 313, the rotation of the first gear 312 drives the second gear 313 to rotate, so as to drive the threaded shaft 314 to rotate, so that the second slider 315 moves on the threaded shaft 314, and the circular cutting seat 32 moves laterally.

In a preferred embodiment, the second slider 315 is a slider, and a slide rail or other slider that satisfies both the installation condition and the sliding condition can be used.

As shown in fig. 2 and 6, as a preferred embodiment of the present invention, the ring cutting base 32 and the sleeve 34 are respectively provided with an installation opening 321 and a fixing groove 341, and the installation opening 321 is used for installing the fixing groove 341.

In a preferred embodiment, the sleeve 34 is preferably a collar, and the fixing groove 341 on the sleeve 34 is fixedly inserted into the mounting hole 321 on the ring-cutting seat 32, so as to not only ensure the mounting stability of the sleeve 34, but also facilitate the rotation of the sleeve 34 on the ring-cutting seat 32.

As shown in fig. 2, as a preferred embodiment of the present invention, a plurality of sliding members 35 are movably mounted on an end surface of the circular cutting base 32, and the sliding members 35 are used for stably sliding the circular cutting base 32 on the device base 1.

In a preferred embodiment, the sliding member 35 is a circular sliding member, and the sliding member 35 may be a ball or a roller, so that the installation stability of the circular cutting seat 32 can be ensured while the circular cutting seat 32 can slide on the device base 1.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, a sliding groove 12 is formed in the device base 1, the sliding groove 12 is used for sliding the second slider 315, a winding mechanism 5 is mounted at one end of the device base 1, and the winding mechanism 5 is used for winding the optical cable 4.

As shown in fig. 1, as a preferred embodiment of the present invention, the wire winding mechanism 5 includes a wire winding support 51, a hinge 52 and a placement seat 53, the wire winding support 51 is fixedly mounted at two ends of the device base 1 through bolts 6, the placement seat 53 includes a fixed seat 531 and a movable seat 532, the fixed seat 531 is fixedly mounted on the wire winding support 51, and the fixed seat 531 and the movable seat 532 are rotatably connected through the hinge 52.

In this embodiment, through the hinge 52, the movable seat 532 can be rotated on the fixed seat 531, so as to facilitate the optical cable 4 to be placed on the cable winding support 51.

In a preferred embodiment, the wire winding support 51 is connected to the fixed seat 531 in a rotatable manner through the hinge 52, and a form of providing a motor-driven shaft is also adopted, and the rotation of the motor-driven shaft causes the movable seat 532 to rotate on the fixed seat 531.

As shown in fig. 1, as a preferred embodiment of the present invention, a plurality of universal wheels 7 are installed on an end surface of the device base 1 far away from the winding mechanism 5, and the universal wheels 7 are used for controlling the device base 1 to move and transport

The working principle of the invention is as follows:

when the optical cable 4 or the optical fiber needs to be subjected to branching clamping, the two first sliding pieces 221 can be driven to slide oppositely between the supporting rods 212 through the self elastic force of the elastic pieces 221, so that the clamping piece 23 is driven to move up and down, the branching clamping of the optical cable 4 and the optical fiber can be realized through the groove 23 formed in the clamping piece 23, and the self-locking function of the optical cable and the optical fiber in the clamping process can be realized through the connecting rod assembly 24;

when the optical fiber needs to be taken out of the optical cable and separately subjected to branching clamping, the driving element 311 in the displacement assembly 31 is opened, so that the first gear 312 is driven to rotate, and the first gear 312 is meshed with the second gear 313 to be connected, so that the second gear 313 is driven to rotate by the rotation of the first gear 312, the threaded shaft 314 is driven to rotate, the second slider 315 moves on the threaded shaft 314, and the transverse movement of the circular cutting seat 32 is realized;

the rotating of the electric rotating shaft 332 arranged on the circular cutting base 32 drives the moving part 331 to move, the moving part 331 is movably connected with the external member 34 through the moving part 331, so that the external member 34 rotates on the circular cutting base 32, the external member 34 rotates to drive the roller 334 arranged on the connecting rod 333 and the circular cutting knife 335 to move centripetally, the roller 334 clamps and rolls the optical cable 4, and the circular cutting knife 335 performs circular cutting treatment on the outer protective layer of the optical cable 4, so that the optical fiber is exposed from the outer protective layer of the optical cable 4, and the optical fiber is conveniently subjected to branching clamping by the branching mechanism 2;

the working principle of the branching device for laying the communication optical cable is described above.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a communication optical cable lays and uses separated time device, includes the device base, set up installation cavity in the device base, its characterized in that still includes:

2. The branching device for laying communication optical cables as claimed in claim 1, wherein the support assembly includes a support and a support rod, the support is fixedly connected with the device base, the support rods are distributed and installed in the support, and the end face of the clamping member is provided with a groove for branching and clamping optical fibers in the optical cables after being annularly cut.

3. The distribution device for distributing the communication optical cables as claimed in claim 1, wherein the moving assembly comprises an elastic member and a first slider, two ends of the first slider are movably connected with the supporting rod respectively, the first slider is movably connected with the clamping member, and two ends of the elastic member are fixedly connected with the bracket and the first slider respectively.

4. The distribution device for distributing the communication optical cables as claimed in claim 1, wherein the displacement assembly comprises a driving element, a first gear, a second gear, a threaded shaft and a second slider, the driving element is fixedly installed in the installation cavity, the first gear and the second gear are respectively and fixedly sleeved on the output end of the driving element and one end of the threaded shaft, the first gear and the second gear are in meshed connection, the second slider is in threaded connection with the threaded shaft, one end of the second slider is fixedly connected with the annular cutting seat, and two ends of the threaded shaft are fixedly connected with two side walls of the installation cavity.

5. The branching device for routing a communication optical cable according to claim 1, wherein the ring-cutting base and the sleeve member are respectively provided with an installation opening and a fixing groove, and the installation opening is used for installing the fixing groove.

6. The branching device for routing a communication cable as claimed in claim 1, wherein a plurality of sliding members are movably mounted on an end face of the annular cutting base, and the sliding members are used for stably sliding the annular cutting base on the device base.

7. The branching device for routing a communication optical cable according to claim 4, wherein a sliding groove is formed in the device base, the sliding groove is used for sliding the second slider, and a winding mechanism is mounted at one end of the device base and used for winding the optical cable.

8. The branching device for routing a communication optical cable according to claim 7, wherein the winding mechanism includes a winding support, a hinge, and a placing base, the winding support is fixedly mounted at two ends of the device base, the placing base includes a fixed base and a movable base, the fixed base is fixedly mounted on the winding support, and the fixed base and the movable base are rotatably connected by the hinge.

9. The distribution device for laying the communication optical cables as claimed in claim 7, wherein a plurality of universal wheels are mounted on an end surface of the device base away from the winding mechanism, and the universal wheels are used for controlling the device base to move and transport.