CN116780453A - Rotary wire arranging device - Google Patents

Abstract

The present disclosure relates to the technical field of cable installation devices, and provides a rotary wire arranging device, which comprises a carrier and a wire arranging assembly; the carrier comprises a fixed part and a rotating part which is annularly arranged on the periphery of the fixed part, and a mounting station for mounting devices is arranged in the rotating part; the wire arranging component is arranged in the rotating part and is used for winding the cable connected with the mounting device; the rotating part at least partially rotates around the first direction or the second direction of the fixed part; when the rotating part rotates along the first direction, the wire arranging assembly rotates to unreel the cable in the wire arranging assembly; when the rotating part rotates along the second direction, the wire arranging assembly rotates to wind the cable in the wire arranging assembly. The rotary wire arranging device has the beneficial effects that the cable is prevented from being tightened or pulled to be disconnected when the device is displayed in a rotary mode, the cable is prevented from being intertwined, and the rotating part is occupied by less inner space.

Description

Rotary wire arranging device

Technical Field

The disclosure relates to the technical field of cable installation devices, and in particular relates to a rotary wire arranging device.

Background

In some intelligent conference system devices, in order to meet special functions of the devices, such as omnibearing rotation projection display, the cables of the devices are generally arranged in a rotating shaft in the middle of a bearing table in the traditional solution, but when the rotating shaft drives the devices to rotate in the omnibearing manner, the cables in the rotating shaft can be screwed and tightened to a certain extent, and the problems of mutual winding and disconnection of connectors of a plurality of cables can be caused in severe cases.

In view of this, a new device cable installation apparatus is needed in the market to solve the problem that the device cable in the prior art cannot be well adapted to the omni-directional rotation condition.

Disclosure of Invention

The embodiment of the disclosure provides a rotary wire arranging device, which aims to solve the technical problem that equipment cables in the prior art cannot be suitable for omnibearing rotation.

The rotary wire arranging device provided by the embodiment of the disclosure comprises a carrier and a wire arranging assembly;

the carrier comprises a fixed part and a rotating part which is arranged on the periphery of the fixed part in a surrounding way, and a mounting station for mounting devices is arranged in the rotating part;

the wire arranging assembly is arranged in the rotating part and is used for winding a cable connected with the mounting device;

wherein the rotating part at least partially rotates around the fixed part in a first direction or a second direction;

when the rotating part rotates along a first direction, the wire arranging assembly rotates to unreel the cable in the wire arranging assembly;

when the rotating part rotates along a second direction, the wire arranging assembly rotates to wind the wire in the wire arranging assembly, and the second direction is opposite to the first direction.

In one embodiment, the wire management assembly includes a wire management roller and an elastic energy storage member;

a winding part for winding the cable is arranged on the peripheral wall of the wire arranging roller;

the elastic energy storage piece is arranged in the wire arranging roller along the axial direction of the wire arranging roller;

the wire arranging roller can keep winding of the cable under the elastic action of the elastic energy storage piece;

when the wire arranging roller releases the wire coiling cable, the elastic energy storage piece stores elastic potential energy;

when the wire arranging roller is used for winding the wire, the elastic energy storage piece releases elastic potential energy.

In an embodiment, the wire arranging roller is provided with two winding parts arranged at intervals along the axial direction of the wire arranging roller, and the winding directions of the wires in the two winding parts are opposite.

In an embodiment, the wire management assembly further includes a guide roller;

the guide roller is arranged at the inlet end and/or the outlet end of the winding part, and the wheel surface of the guide roller is provided with an annular groove for guiding the wire.

In an embodiment, a plurality of wire arranging rollers are provided, and one elastic energy storage element is correspondingly arranged in each wire arranging roller;

the wire arranging rollers are sequentially connected in series and used for winding or unwinding the wire cable together.

In an embodiment, the elastic energy storage element is a torsion spring or a spiral spring arranged at the axial center of the wire arranging roller.

In one embodiment, the rotating part comprises a turntable support and a rotating disk;

the turntable support is fixedly arranged on the periphery of the fixing part in a ring manner;

the rotary disc movable cover is arranged on the rotary disc support, and the side of the rotary disc, which is opposite to the rotary disc support, is provided with the mounting station;

wherein the rotating disk can rotate around the fixed part in the forward direction or the reverse direction;

the rotary disk and the rotary disk support are assembled to form a containing cavity, and the wire arranging assembly and the cables used for being connected with the installation devices are respectively arranged in the containing cavity.

In an embodiment, the rotating part further comprises a bracket cover plate;

the bracket cover plate is fixedly covered on the turntable bracket, and the turntable movable cover is covered on the bracket cover plate;

the bracket cover plate and the turntable bracket are covered to form the accommodating cavity.

In one embodiment, the turntable support is further provided with a support ball;

an avoidance hole for avoiding the support ball is correspondingly formed in the support cover plate;

the support ball at least partially passes through the escape hole and abuts the rotating disk.

In an embodiment, the wire arranging assembly is at least two opposite to each other along the radial direction of the rotating part;

and cables used for being connected with different installation devices are respectively wound in the wire arranging assembly.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

when the rotary wire arranging device provided by the embodiment of the disclosure is used, firstly, a device is correspondingly arranged at an installation station in a rotary part, a cable of the device is correspondingly paved in the rotary part and is wound by at least a wire arranging component, and when the rotary part rotates along a first direction, the wire arranging component can rotate to unreel the cable in the self, so that the actual length of the cable paved in the rotary part is temporarily increased, and the problem that the cable is tensioned or the cable is tensioned to cause the disconnection of a connector when the device is displayed in a rotary mode is avoided; when the rotating part rotates along the second direction, the wire arranging component can reset the wire which is wound on the wire arranging component, so that the actual length of the wire laid in the rotating part is recovered as before, and the problems of mutual winding and screwing of the wire in the rotating part are avoided.

The rotary wire arranging device provided by the embodiment of the disclosure can adjust the wire arranging assembly to correspondingly rotate and unreel the wire to increase the actual length of the wire or reduce the actual length of the wire in the wire winding self according to forward rotation or reverse rotation of equipment, and has the beneficial effects of avoiding the wire from being tensioned or being pulled to disconnect a joint and avoiding the wire from being intertwined and occupying less inner space of a rotating part when the device is in rotary display.

It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the disclosure, nor is it intended to be used to limit the scope of the disclosure. Other features of the present disclosure will become apparent from the following specification.

Drawings

The above, as well as additional purposes, features, and advantages of exemplary embodiments of the present disclosure will become readily apparent from the following detailed description when read in conjunction with the accompanying drawings. Several embodiments of the present disclosure are illustrated by way of example, and not by way of limitation, in the figures of the accompanying drawings, in which:

in the drawings, the same or corresponding reference numerals indicate the same or corresponding parts.

Fig. 1 illustrates an exploded view of a rotary wire management device provided by an embodiment of the present disclosure;

fig. 2 illustrates a vertical cross-sectional view of a rotary wire management device provided by an embodiment of the present disclosure;

fig. 3 illustrates a top view of a rotor holder in a rotary wire management device provided by an embodiment of the present disclosure;

fig. 4 shows an exploded view of a wire management assembly in a rotary wire management device provided by an embodiment of the present disclosure.

The reference numerals in the figures illustrate: 1. a carrier; 11. a fixing part; 12. a rotating part; 121. a turntable support; 1211. supporting the balls; 122. a rotating disc; 123. a bracket cover plate; 1231. avoidance holes; 124. a track shielding frame; 125. installing a base frame; 2. a wire arranging assembly; 21. a wire arranging roller; 211. a winding part; 22. an elastic energy storage member; 23. a guide roller; 3. a cable.

Detailed Description

In order to make the objects, features and advantages of the present disclosure more comprehensible, the technical solutions in the embodiments of the present disclosure will be clearly described in conjunction with the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are only some embodiments of the present disclosure, but not all embodiments. Based on the embodiments in this disclosure, all other embodiments that a person skilled in the art would obtain without making any inventive effort are within the scope of protection of this disclosure.

Embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, an embodiment of the present disclosure provides a rotary wire arranging device, which includes a carrier 1 and a wire arranging assembly 2; the carrier 1 comprises a fixed part 11 and a rotating part 12 which is annularly arranged on the periphery of the fixed part 11, wherein a mounting station for mounting devices is arranged in the rotating part 12; the wire management assembly 2 is disposed in the rotating portion 12, and the wire management assembly 2 is used for winding up a cable connected with the mounting device.

Wherein the rotating part 12 at least partially rotates around the fixed part 11 in the first direction or the second direction; when the rotating part 12 is along the first direction, the wire arranging assembly 2 rotates the wire in the unreeling self; when the rotating part 12 rotates along the second direction, the wire arranging assembly 2 rotates to wind the wire into the wire arranging assembly.

The rotary wire arranging device provided by the embodiment of the disclosure can be suitable for various electrical equipment with a rotary function, and the projection equipment with 360-degree omnibearing rotation in an office conference is taken as an example for illustrative explanation.

When the rotary wire arranging device is specifically used, firstly, devices (such as a projection head, a WIFI antenna and the like) in projection equipment are correspondingly arranged at an installation station in a rotary part 12, cables 3 of the devices are correspondingly paved in the rotary part 12 and are wound by at least a wire arranging component 2, and when the projection equipment rotates in a first 360-degree direction (the first direction can be set according to specific use conditions and can be clockwise rotation or anticlockwise rotation), the wire arranging component 2 can rotate to unreel the cables in the self, so that the actual length of the cables 3 paved in the rotary part 12 is temporarily increased, and the problem that the cables 3 are tensioned or the cables 3 are tensioned to cause the disconnection of joints when the devices are rotationally displayed is avoided; when the projection device rotates along the second direction, that is, the cable arranging component 2 can reset the cable which is wound on the cable arranging component, so that the actual length of the cable 3 laid in the rotating part 12 is recovered as before, and the problems of intertwining and screwing of the cable 3 in the rotating part 12 are avoided.

In summary, the rotary wire arranging device provided in the embodiments of the present disclosure can adjust the wire arranging assembly 2 to correspondingly rotate and unwind the wire to increase the actual length of the wire or reduce the actual length of the wire in the wire winding itself according to the forward rotation or the reverse rotation of the device, and has the beneficial effects of avoiding the cable 3 from being tightened or the cable 3 from being pulled to disconnect the connector when the device is rotated and displayed, avoiding the wire 3 from being intertwined and occupying less internal space of the rotating portion 12.

In addition, it should be noted that the fixing portion 11 in the rotary wire arranging device may also be provided with a mounting station for mounting devices, and some fixing devices may be correspondingly mounted.

In one embodiment, the wire management assembly 2 includes a wire management roller 21 and an elastic energy storage member 22; a winding part 211 for winding the cable is arranged on the peripheral wall of the wire arranging roller 21; the elastic energy storage member 22 is disposed in the wire arranging roller 21 along the axial direction of the wire arranging roller 21; wherein, the wire arranging roller 21 can keep winding the cable under the elastic force of the elastic energy storage piece 22; when the wire arranging roller 21 releases the wire, the elastic energy storage piece 22 stores elastic potential energy; when the wire arranging roller 21 winds the wire, the elastic energy storage member 22 releases elastic potential energy.

Specifically, as described in further detail with reference to fig. 4, the wire management assembly 2 is specifically configured as the wire management roller 21 and the elastic energy storage member 22, and the elastic energy storage member 22 is disposed in the wire management roller 21 along the axial direction of the wire management roller 21, so that the winding portion 211 in the wire management roller 21 can also keep winding the wire under the elastic force of the elastic energy storage member 22 in a normal state.

In addition, the elastic energy storage member 22 can further store elastic potential energy when the wire arranging roller 21 releases the wire, so that when the rotating part 12 rotates reversely, the wire arranging roller 21 can effectively wind the wire 3 under the action of the elastic potential energy released by the elastic energy storage member 22.

The specific setting mode of the wire arranging assembly 2 has the beneficial effects that the structure is simple, the wire arranging roller 21 can keep winding the wire in a normal state by means of the elastic action of the elastic energy storage piece 22, and the wire 3 can be wound efficiently under the action of elastic potential energy released by the elastic energy storage piece 22.

In one embodiment, two winding portions 211 are formed on the peripheral wall of the wire arranging roller 21 along the axial direction thereof, and the winding directions of the wires in the two winding portions 211 are opposite.

Specifically, as will be described in further detail with reference to fig. 4, two winding portions 211 are provided at a distance from each other along the axial direction of the wire arranging roller 21 itself, on the peripheral wall of the wire arranging roller 21. The winding portion 211 may be, but not limited to, a winding groove formed in a spiral shape. And the winding directions of the cables in the two winding parts 211 are opposite, so that when the wire arranging roller 21 rotates to unwind the cables, the two winding parts 211 can simultaneously unwind the inlet end and the outlet end of the cables, thereby greatly improving the speed of the wire arranging assembly 2 rotating to unwind the cables and the length of the wire arranging roller 21 to unwind the cables when the rotating part 12 rotates forward; and when the wire arranging roller 21 rotates to collect the wire, the two wire winding parts 211 can also wind the wire at the same time at the inlet end and the outlet end of the wire, so that the speed of the wire arranging assembly 2 rotating to collect the wire when the rotating part 12 reversely rotates and the length of the wire arranging roller 21 to collect the wire are greatly improved.

The specific setting mode of the winding part 211 has the beneficial effects of simple structure, capability of improving the unreeling rate and reeling rate of the cable management assembly 2 and the effective unreeling and reeling length of the cable.

In an embodiment, the wire management assembly 2 further comprises guide rollers 23; the guide roller 23 is disposed at an inlet end and/or an outlet end of the winding portion 211, and an annular groove for guiding the wire is formed on a tread of the guide roller 23.

Specifically, as described in further detail with reference to fig. 4, the guide roller 23 may be hinged to the peripheral wall of the wire arranging roller 21 through a rotating shaft, and the guide roller 23 may be separately disposed at the inlet end of the wire winding portion 211, or separately disposed at the outlet end of the wire winding portion 211, or both the inlet end and the outlet end of the wire winding portion 211, so that the winding and unwinding directions of the guide cable may be adjusted correspondingly by the annular groove formed on the surface of the guide roller 23, and the winding and unwinding friction resistance of the cable may be reduced when the guide roller 23 rotates, thereby improving the winding and unwinding smoothness of the wire arranging assembly 2.

The specific arrangement mode of the guide roller 23 has the beneficial effects of simple structure, capability of guiding the winding and unwinding directions of the cable and reducing the winding and unwinding friction resistance of the cable.

In an embodiment, a plurality of wire arranging rollers 21 are provided, and an elastic energy storage member 22 is correspondingly arranged in each wire arranging roller 21; the plurality of wire arranging rollers 21 are sequentially connected in series for winding or unwinding the wire cable together.

Specifically, as described in further detail with reference to fig. 4, two wire arranging rollers 21 are disposed in each wire arranging assembly 2 in fig. 4, and the wire arranging rollers 21 are connected in series to jointly wind or unwind a cable, so that the effective length of the wire arranging assembly 2 for winding and unwinding the cable can be greatly increased, and in the two wire arranging rollers 21, even if the elastic energy storage element 22 in one wire arranging roller 21 fails and is damaged, the other elastic energy storage element 22 can also rely on the elastic potential energy released by itself to simultaneously drive the two wire arranging rollers 21 to reset and rotate the cable winding, thereby improving the durable fault tolerance of the wire arranging assembly 2.

Of course, a greater number of wire arranging rollers 21 can be arranged in each wire arranging assembly 2, and the wire arranging rollers can be specifically arranged in an adaptive manner according to the size of the turntable support 121 and the actual use length of the cable.

The specific setting mode of the wire arranging roller 21 has the beneficial effects of simple structure, capability of improving the effective length of the wire arranging assembly 2 for winding and unwinding the wire cable and improving the durable fault tolerance of the wire arranging assembly 2.

In one embodiment, the elastic energy storage member 22 is a torsion spring or a spiral spring disposed at the axial center of the wire arranging roller 21.

Specifically, as described in further detail with reference to fig. 4, the elastic energy storage member 22 is specifically configured as a torsion spring or a spiral spring located at the axial center of the wire arranging roller 21, and one end of the torsion spring or the spiral spring may be connected to the inner circumferential wall of the wire arranging roller 21, and the other end thereof may be connected to the corresponding turntable support 121 at the axial center of the wire arranging roller 21. When the rotating part 12 rotates in the forward direction, the wire arranging roller 21 correspondingly rotates to discharge the wire, the torsion spring or the spiral spring can be subjected to torsion action, and the elastic potential energy of the wire arranging roller is increased; when the rotating part 12 rotates to reset, the torsion spring or the spiral spring releases the elastic potential energy of the torsion spring or the spiral spring, so that the wire arranging roller 21 is driven to rotate to timely collect the wire, and the wire is prevented from being wound and accumulated in the rotating part 12.

The specific arrangement of the elastic energy storage member 22 has the advantages of simple structure, low production cost and capability of effectively and stably storing or releasing elastic potential energy.

In one embodiment, the rotating portion 12 includes a turntable support 121 and a rotating disk 122; the turntable support 121 is fixedly arranged on the periphery of the fixed part 11 in a ring manner; the rotary disc 122 is movably covered on the rotary disc support 121, and a mounting station is arranged on one side of the rotary disc 122, which is opposite to the rotary disc support 121; wherein the rotating disk 122 can rotate around the fixed part 11 in the forward direction or the reverse direction; the rotary disk 122 and the rotary disk support 121 are assembled to form a housing cavity, and the wire arranging assembly 2 and the cables for connection with the mounting devices are respectively arranged in the housing cavity.

Specifically, as described in further detail with reference to fig. 1, the rotating part 12 is specifically configured to be a turntable support 121 and a rotating disk 122 that are mutually covered, the turntable support 121 and the rotating disk 122 can be manufactured separately, so that the processing production cost is saved, and a mounting station is formed on one side of the rotating disk 122 facing away from the turntable support 121, so that some devices in the projection device that need to rotate in all directions can be mounted at the mounting station in a one-to-one correspondence manner; moreover, as the rotary disc 122 and the rotary disc support 121 are assembled to form the accommodating cavity for installing the wire arranging assembly 2, the wire arranging assembly 2 can be wound only by penetrating through the rotary disc 122, so that the length of the wire 3 fixedly paved in the accommodating cavity can be greatly reduced, and the occupation of the inner space of the accommodating cavity is reduced.

In one embodiment, the rotating portion 12 further includes a bracket cover 123; the bracket cover plate 123 is fixedly covered on the turntable bracket 121, and the turntable 122 is movably covered on the bracket cover plate 123; the bracket cover 123 and the turntable bracket 121 are covered to form a containing cavity.

Specifically, as described in further detail with reference to fig. 1, a support cover 123 is directly disposed between the rotating disc 122 and the rotating disc support 121, and the support cover 123 and the rotating disc support 121 are covered to form a containing cavity, and the rotating disc 122 is movably covered on the support cover 123, so that a guiding sliding rail, a drag reducing structure, a limiting structure, a fastening structure, etc. can be correspondingly disposed in the support cover 123, so that the rotating disc 122 is stably mounted above the rotating disc support 121 and can rotate more smoothly and accurately relative to the rotating disc support 121.

In one embodiment, the turntable support 121 also has support balls 1211 disposed therein; the bracket cover 123 is correspondingly provided with an avoidance hole 1231 for avoiding the support ball 1211; the support ball 1211 at least partially passes through the escape hole 1231 and abuts against the rotary disk 122.

Specifically, as will be described in further detail with reference to fig. 1 and 3, the support balls 1211 are disposed in the turntable support 121, and the avoidance holes 1231 for avoiding the support balls 1211 are correspondingly formed in the support cover 123, so that the support balls 1211 can partially penetrate the avoidance holes 1231 and slidably abut against the turntable 122, thereby greatly reducing the friction force when the turntable 122 rotates relative to the turntable support 121.

Of course, the supporting balls 1211 may be provided as columnar supporting rollers or universal rollers, and may be configured to generate rolling friction when the rotating disk 122 rotates relative to the turntable support 121.

In one embodiment, at least two wire arranging assemblies 2 are oppositely arranged along the radial direction of the rotating part 12; and the wire arranging component 2 is respectively winded with cables for connecting with different mounting devices.

Specifically, as described in further detail with reference to fig. 3, in fig. 3, two wire arranging assemblies 2 are disposed opposite to each other along the radial direction of the rotating portion 12, so that when a plurality of devices are mounted on the rotating disc 122 of the rotating portion 12 at intervals along the circumferential direction thereof, the wires connected to the plurality of devices can be wound by adopting the principle of proximity and selecting one of the two wire arranging assemblies 2, so that the length of the wires 3 fixedly laid in the accommodating cavity of the rotating portion 12 can be greatly reduced.

Of course, more, for example, four, six, etc. wire arranging assemblies 2 may be disposed opposite to each other along the radial direction of the rotating portion 12, and may be specifically adapted according to the size of the rotating disc 122 in the rotating portion 12.

In addition, it should be noted that the rotating portion 12 may further be provided with an additional track shielding frame 124 between the rotating disc 122 and the bracket cover 123 for guiding and connecting the WIFI antenna installed in the rotating disc 122, and a mounting base frame 125 may be further provided on a side of the rotating disc bracket 121 opposite to the rotating disc 122 for mounting and fixing the rotating wire arrangement device.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present disclosure, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The foregoing is merely specific embodiments of the disclosure, but the protection scope of the disclosure is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the disclosure, and it is intended to cover the scope of the disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (10)

1. A rotary wire management device, comprising:

the carrier (1) comprises a fixed part (11) and a rotating part (12) which is arranged around the periphery of the fixed part (11), wherein a mounting station for mounting devices is arranged in the rotating part (12);

the wire arranging component (2) is arranged in the rotating part (12), and the wire arranging component (2) is used for winding a cable connected with the mounting device;

wherein the rotating part (12) rotates at least partially around the fixed part (11) in a first direction or a second direction;

when the rotating part (12) rotates along a first direction, the wire arranging assembly (2) rotates to unreel the cables in the wire arranging assembly;

when the rotating part (12) rotates along a second direction, the wire arranging assembly (2) rotates to wind the wire in the wire arranging assembly, and the second direction is opposite to the first direction.

2. The rotary wire management device according to claim 1, wherein the wire management assembly (2) comprises:

a wire arranging roller (21), wherein a winding part (211) for winding a cable is arranged on the peripheral wall of the wire arranging roller (21);

an elastic energy storage member (22) provided in the wire arranging roller (21) along the axial direction of the wire arranging roller (21);

the wire arranging roller (21) can keep winding of the cable under the elastic action of the elastic energy storage piece (22);

when the wire arranging roller (21) releases the wire, the elastic energy storage piece (22) stores elastic potential energy;

when the wire arranging roller (21) is used for winding the wire, the elastic energy storage piece (22) releases elastic potential energy.

3. The rotary wire arranging device according to claim 2, wherein two winding portions (211) are provided at intervals along the peripheral wall of the wire arranging roller (21) in the axial direction thereof, and the winding directions of the wires in the two winding portions (211) are opposite.

4. The rotary wire management device according to claim 2, characterized in that the wire management assembly (2) further comprises a guide roller (23);

the guide roller (23) is arranged at the inlet end and/or the outlet end of the winding part (211), and an annular groove for guiding the cable is formed on the wheel surface of the guide roller (23).

5. The rotary wire sorting device according to claim 2, characterized in that a plurality of wire sorting rollers (21) are provided, and that one elastic energy storage member (22) is provided inside each wire sorting roller (21);

the wire arranging rollers (21) are sequentially connected in series and used for winding or unwinding the wire cable together.

6. The rotary wire management device according to claim 2, characterized in that the elastic energy storage member (22) is a torsion spring or a spiral spring arranged in the axial center of the wire management roller (21).

7. The rotary wire management device according to claim 1, wherein the rotary part (12) comprises:

a turntable bracket (121) which is fixedly arranged on the periphery of the fixed part (11);

the rotary disc (122) is movably covered on the rotary disc support (121), and one side of the rotary disc (122) opposite to the rotary disc support (121) is provided with the mounting station;

wherein the rotating disk (122) can rotate around the fixed part (11) in the forward direction or the reverse direction;

the rotary disc (122) and the rotary disc support (121) are assembled to form a containing cavity, and the wire arranging assembly (2) and the cables used for being connected with the mounting devices are respectively arranged in the containing cavity.

8. The rotary wire management device according to claim 7, wherein the rotary part (12) further comprises a bracket cover plate (123);

the bracket cover plate (123) is fixedly covered on the turntable bracket (121), and the turntable (122) is movably covered on the bracket cover plate (123);

the bracket cover plate (123) and the turntable bracket (121) are covered to form the accommodating cavity.

9. The rotary wire management device according to claim 8, characterized in that the turntable support (121) is further provided with support balls (1211);

an avoidance hole (1231) for avoiding the support ball (1211) is correspondingly formed in the bracket cover plate (123);

the support ball (1211) at least partially passes through the relief hole (1231) and abuts the rotating disk (122).

10. The rotary wire arrangement according to any one of claims 1 to 9, characterized in that the wire arrangement assembly (2) is provided with at least two opposite pairs in the radial direction of the rotary part (12); and cables used for being connected with different installation devices are respectively wound in the wire arranging assembly (2).