CN116316352B - Omnibearing rotary wire passing device - Google Patents

Abstract

The invention relates to the technical field of cable support installation equipment, and provides an omnibearing rotary wire passing device which comprises a first installation piece and a rotary wire passing piece; the first mounting piece is provided with a positioning piece which is annularly arranged at the edge of the mounting end part; the rotating wire passing piece is movably arranged at the mounting end part and can rotate around the axis of the rotating wire passing piece; the first installation piece and the rotary wire passing piece are respectively provided with a penetrating wire passage correspondingly; the peripheral wall of the rotary wire passing piece is also provided with an outgoing wire barrel protruding outwards and a poking and pressing part opposite to the outgoing wire barrel at intervals along the axial direction of the rotary wire passing piece; when the pulling and pressing part rotates synchronously with the rotating wire passing part, the positioning parts are pulled and pressed one by one, and the positioning parts are enabled to avoid the wire outlet cylinder. The omnibearing rotary wire passing device has the beneficial effects of simple and ingenious structure, low structural installation limit, capability of omnibearing rotation and supporting the cable to transmit multi-frequency high-speed signals.

Description

Omnibearing rotary wire passing device

Technical Field

The disclosure relates to the technical field of cable support installation equipment, in particular to an omnibearing rotary wire passing device.

Background

The display screen needs 360-degree omnibearing rotary display under certain use scenes, so that when a cable connected with the display screen is connected with the display screen, a related rotary butt joint needs to be arranged, and the cable winding is prevented from being twisted up due to 360-degree omnibearing rotary display of the display screen. However, most of the conventional rotary butt joints are in friction hinge connection, and the scheme has the structural installation limitation requirement, so that the transmission signals are less, and the situation of using more multi-frequency high-speed signals cannot be supported.

In view of this, a new type of omni-directional rotating wire passing device is needed in the market to solve the problems of the display screen in the prior art during omni-directional rotating display.

Disclosure of Invention

The embodiment of the disclosure provides an omnibearing rotary wire passing device, which aims to solve the technical problems that in the prior art, a display screen is required to be installed and limited during omnibearing rotary display and cannot support multi-frequency high-speed signals.

The omnibearing rotary wire passing device provided by the embodiment of the disclosure comprises a first mounting piece and a rotary wire passing piece;

the first mounting piece is provided with a positioning piece which is annularly arranged at the edge of the mounting end part;

the rotary wire passing piece is movably arranged at the mounting end part and can rotate around the axis of the rotary wire passing piece;

the first installation piece and the rotary wire passing piece are respectively provided with a penetrating wire passage correspondingly;

the outer peripheral wall of the rotary wire passing piece is also provided with an outward protruding wire outlet barrel and a poking and pressing part which is opposite to the wire outlet barrel at intervals along the axial direction of the wire outlet barrel;

when the poking part synchronously rotates along with the rotating wire passing piece, the positioning pieces are poked one by one, and the positioning pieces are enabled to avoid the wire outlet barrel.

In one embodiment, the outer peripheral wall of the rotary wire passing member is provided with a poking convex edge in a ring manner;

the poking convex edge comprises the poking part, a resetting part and a connecting part:

the reset part is spaced from the poking part along the axial direction of the rotary wire passing piece and is arranged on the peripheral wall of the rotary wire passing piece in a mutually opposite way;

the connecting parts are used for respectively connecting the poking part and the resetting part in a smooth transition manner to form an annular structure.

In an embodiment, the positioning piece is provided with a pressed part which is abutted under the poking convex edge;

when the poking convex edge rotates along with the rotating wire passing piece, the pressed part can sequentially stick to the reset part, the connecting part and the poking part to move towards the mounting end part relatively, or sequentially stick to the poking part, the connecting part and the reset part to move away from the mounting end part relatively.

In one embodiment, the positioning member further comprises a positioning rod;

one end of the positioning rod is movably inserted into the mounting end part through a compression spring;

the compression part is a compression ring wound on the outer peripheral wall of the positioning rod.

In an implementation manner, a wire-mounting groove is further formed in one side, opposite to the first mounting piece, of the wire outlet barrel;

the slot walls on two sides of the wire-loading slot are provided with mutually staggered protruding teeth.

In one embodiment, the device further comprises a second mounting member;

the second installation piece is arranged at one end of the rotary wire passing piece, which is opposite to the first installation piece, and is relatively fixed with the first installation piece through the positioning piece;

the second mounting piece, the first mounting piece and the positioning piece jointly form a rotating space of the rotating wire passing piece.

In an embodiment, the second mounting member is correspondingly provided with a routing channel;

and one end of the second mounting piece, which is opposite to the rotary wire passing piece, is provided with a second mounting station for fixedly mounting the workpiece.

In an embodiment, the first mounting piece and the second mounting piece are respectively provided with an annular concave groove in the inner cavity wall of each wiring channel;

and two ends of the rotary wire passing piece are respectively provided with an annular protruding edge which is inserted into the annular concave groove in a limiting manner.

In one embodiment, the omnibearing rotary wire passing device further comprises a base which is installed and connected with the first installation piece through a plug-in cylinder;

the cartridge is at least partially inserted into the first mounting piece and is correspondingly communicated with the wiring channel.

In an embodiment, the omnibearing rotary wire passing device further comprises a rotary sleeve movably sleeved on the first mounting piece and the periphery of the rotary wire passing piece;

the peripheral wall of the rotary sleeve is also correspondingly provided with a display screen installation part which is connected with the outlet tube in a conducting way.

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

according to the omnibearing rotary wire passing device provided by the embodiment of the disclosure, the rotary wire passing piece is movably arranged at the mounting end part in the first mounting piece, and the plurality of positioning pieces are sequentially arranged at the edge of the mounting end part in the first mounting piece in a surrounding manner, so that the plurality of positioning pieces can be used for mounting and fixing the omnibearing rotary wire passing device and the mounting station or mounting and positioning other workpieces. In addition, the first installation piece and the rotary wire passing piece are respectively correspondingly provided with a penetrating wire passing channel, the peripheral wall of the rotary wire passing piece is also provided with an outwards protruding wire outlet barrel, so that a cable for transmitting signals and currents can be arranged in the wire passing channel and is stretched out through the wire outlet barrel and electrically connected with the display screen, when the display screen needs 360-degree omnibearing rotary display, the rotary wire passing piece only needs to rotate around the axis line of the display screen, the wire outlet barrel and the shifting and pressing part at the peripheral wall of the rotary wire passing piece can synchronously rotate along with the rotary wire passing piece, and the corresponding positioning pieces can be shifted and pressed one by one through the shifting and pressing part, and the positioning pieces are made to be away from the wire outlet barrel to avoid, so that the positioning pieces and the wire outlet barrel are temporarily and completely not in the same height plane, and the annularly arranged positioning pieces can not prevent the omnibearing rotary wire passing piece and the wire outlet barrel from rotating, namely the display screen from omnibearing rotary display at 360 degrees.

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 a schematic diagram of an omni-directional rotary threading device (without a second mount) provided by embodiments of the present disclosure;

FIG. 2 is a perspective view showing a rotary wire passing member of the omni-directional rotary wire passing device according to the embodiment of the present disclosure;

FIG. 3 illustrates a self-contained view of an all-directional rotary threading device provided by an embodiment of the present disclosure;

FIG. 4 illustrates an exploded view of an omni-directional rotary threading device provided by an embodiment of the present disclosure;

FIG. 5 illustrates a vertical semi-sectional view of an omni-directional rotary threading device provided by an embodiment of the present disclosure;

fig. 6 illustrates a vertical semi-sectional view (including a rotating sleeve) of an omni-directional rotating threading device provided by an embodiment of the present disclosure.

The reference numerals in the figures illustrate: 1. a first mounting member; 11. a positioning piece; 111. a pressure receiving portion; 112. a positioning rod; 113. a compression spring; 2. rotating the wire passing member; 21. a wire outlet barrel; 211. wire-mounting groove; 212. protruding teeth; 22. shifting and pressing the convex edge; 221. a pressing part; 222. a reset section; 223. a connection part; 23. an annular protruding edge; 3. a second mounting member; 31. an annular recessed groove; 4. a base; 41. a cartridge; 5. rotating the sleeve; 51. and a display screen mounting part.

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 conjunction with fig. 1 and 2, embodiments of the present disclosure provide an all-round rotary wire passing device comprising a first mount 1 and a rotary wire passing member 2; the first mounting part 1 is provided with a positioning part 11 which is arranged around the edge of the mounting end part; the rotating wire member 2 is movably arranged at the mounting end part and can rotate around the axis of the rotating wire member.

The first installation piece 1 and the rotary wire passing piece 2 are respectively provided with a penetrating wire passage correspondingly; the peripheral wall of the rotary wire passing member 2 is also provided with an outgoing wire barrel 21 protruding outwards and a poking part 221 which is opposite to the outgoing wire barrel 21 along the axial direction of the rotary wire passing member; when the pulling and pressing part 221 rotates synchronously with the rotating wire passing member 2, the positioning members 11 are pulled and pressed one by one, and the positioning members 11 are led to avoid the wire outlet barrel 21.

The omnibearing rotary wire passing device can be particularly applied to a use scene of 360-degree omnibearing rotary display of a display screen, and is particularly illustrated by taking the omnibearing rotary wire passing device as an example.

When the omnibearing rotary wire passing device is specifically assembled and used, firstly, the rotary wire passing piece 2 is movably arranged at the mounting end part in the first mounting piece 1, and then a plurality of positioning pieces 11 are sequentially arranged at the edge of the mounting end part in the first mounting piece 1 in a surrounding manner, and the omnibearing rotary wire passing device and a mounting station can be mounted and fixed or mounted and positioned with other workpieces through the plurality of positioning pieces 11. In addition, since the first installation member 1 and the rotating wire passing member 2 are respectively provided with the through wire passing channels correspondingly, and the peripheral wall of the rotating wire passing member 2 is also provided with the wire outlet barrel 21 protruding outwards, the cables for transmitting signals and currents can be arranged in the wire passing channels and extend out through the wire outlet barrel 21 and are electrically connected with the display screen, when the display screen needs 360-degree omnibearing rotary display, only the rotating wire passing member 2 rotates around the axis of the display screen, the wire outlet barrel 21 and the poking and pressing part 221 at the peripheral wall of the rotating wire passing member 2 can synchronously rotate along with the rotating wire passing member, and the positioning members 11 corresponding to the rotating wire passing member 2 can be poked and pressed one by one through the poking and pressing part 221, and the corresponding positioning members 11 are temporarily and downwards away from the wire outlet barrel 21 until the positioning members 11 and the wire outlet barrel 21 are completely out of the same height plane, so that the annularly arranged positioning members 11 can not block the omnibearing rotary display screen 2 and the wire outlet barrel 21 from rotating in 360 degrees.

To sum up, compared with the mode that the display screen 360-degree omnibearing rotary display adopts the friction hinge rotary butt joint in the prior art, the omnibearing rotary wire passing device provided by the embodiment of the disclosure only needs to rotate the rotary wire passing piece 2 around the axis line of the rotary wire passing piece 2 when the wire pulling and pressing part 221 in the rotary wire passing piece 2 rotates, and can pull and press the positioning pieces 11 corresponding to the rotary wire passing piece one by one, and the rotary wire passing piece is far away from the wire outlet barrel 21 to do avoidance movement, so that the display screen 360-degree omnibearing rotary display screen is realized.

In one embodiment, the outer peripheral wall of the rotary wire passing element 2 is provided with a poking convex edge 22 in a ring manner; the poking convex edge 22 includes a poking portion 221, a resetting portion 222, and a connecting portion 223: the reset portion 222 is spaced from the dial portion 221 along the axial direction of the rotary wire 2 and is disposed opposite to each other on the outer peripheral wall of the rotary wire 2; the connection portions 223 smoothly and transitionally connect the pressing portion 221 and the reset portion 222 to form an annular structure.

Specifically, as will be described in further detail with reference to fig. 1 and 2, the poking portion 221 and the resetting portion 222 in the poking convex edge 22 are respectively spaced along the axial direction of the rotating wire passing member 2 and are opposite to each other, and have a circumferential spacing therebetween, and the poking portion 221 and the resetting portion 222 are respectively connected in a transitional manner by the connecting portion 223 to form a ring structure, so that a dihedral angle is formed between the plane of the poking convex edge 22 and the radial cross section of the rotating wire passing member 2, when the poking convex edge 22 is respectively poked and contacted with the positioning members 11, the positioning member 11 corresponding to the poking portion 221 is in a temporary failure state of avoiding the wire outgoing tube 21, the positioning member 11 corresponding to the resetting portion 222 is in a normal positioning installation state, and the positioning member 11 corresponding to the connecting portion 223 is in a temporary failure state of avoiding the wire outgoing tube 21.

The specific setting mode of the poking convex edge 22 has the advantages of simple structure, capability of ensuring that the positioning piece 11 corresponding to the wire outlet barrel 21 is poked and pressed by the poking part 221 to be in a temporary failure avoidance state when the rotating wire outlet barrel 2 rotates, and ensuring that the positioning piece 11 corresponding to the resetting part 222 is in a normal positioning and mounting state, namely, the omnibearing rotation of the wire outlet barrel 21 in the rotating wire outlet barrel 2 is ensured, and the normal positioning and mounting function of the positioning piece 11 is not influenced.

In one embodiment, the positioning element 11 has a pressed portion 111 abutting under the poking convex edge 22; when the poking convex edge 22 rotates along with the rotating wire 2, the pressure receiving part 111 can move towards the mounting end part along the reset part 222, the connecting part 223 and the poking part 221 in sequence, or move away from the mounting end part along the poking part 221, the connecting part 223 and the reset part 222 in sequence.

Specifically, as described in further detail with reference to fig. 1 and 3, a pressing portion 111 is disposed in the positioning member 11 and is configured to abut against the lower portion of the poking and embossing edge 22, so that when the poking and embossing edge 22 rotates along with the rotating wire member 2, the pressing portion 111 can move relatively towards the mounting end along the reset portion 222, the connecting portion 223 and the poking and embossing portion 221 in sequence when the pressing portion 111 moves obliquely downwards relative to the poking and embossing edge 22; when the pressure receiving portion 111 moves obliquely upward relative to the poking convex edge 22, the pressure receiving portion 111 can move relatively away from the mounting end portion along the poking portion 221, the connecting portion 223 and the resetting portion 222 in sequence.

The pressure receiving part 111 can be pressed by each part in the poking convex edge 22, so that when the rotary wire 2 rotates, the positioning part 11 can specifically change the state according to the real-time abutting position of the pressure receiving part 111 and the poking convex edge 22, the temporary failure avoidance state when the positioning part 11 is in opposite alignment with the wire outlet barrel 21 is ensured, and the positioning part 11 and the wire outlet barrel 21 are in a positioning installation state when the positioning part 11 and the wire outlet barrel 21 are back.

In one embodiment, the positioning member 11 further comprises a positioning rod 112; one end of the positioning rod 112 is movably inserted into the mounting end part through a compression spring 113; the pressure receiving portion 111 is a pressure receiving ring wound around the outer peripheral wall of the positioning rod 112.

Specifically, as described in further detail with reference to fig. 3 and 4, the positioning member 11 is specifically configured as a positioning rod 112, and one end of the positioning rod 112 is movably inserted into the mounting end portion through a compression spring 113, so that the compression spring 113 can apply a trend of always moving toward the poking convex edge 22 to the positioning rod 112 through self elastic force, and when the pressure receiving portion 111 moves from facing away from the outlet tube 21 to facing the outlet tube 21, the positioning rod 112 moves toward the mounting end portion, and the compression spring 113 is further pressed to store elastic potential energy; when the compression spring 113 is not compressed any more in the process of the compression part 111 from facing the outlet tube 21 to facing away from the outlet tube 21, the elastic potential energy can be released, so that the positioning rod 112 can be moved away from the mounting end more stably to be switched to the positioning mounting state.

The specific setting mode of the positioning piece 11 has the advantages of simple structure and capability of ensuring stable switching of the positioning rod 112 between the failure avoidance state and the positioning installation state by providing elastic potential energy of the compression spring 113.

In an embodiment, the side of the outlet tube 21 facing away from the first mounting member 1 is further provided with a wire-mounting slot 211; the two side slot walls of the wire-loading slot 211 are provided with mutually staggered raised teeth 212.

Specifically, as further detailed in connection with fig. 2, since the wire outlet barrel 21 and the wire routing channel can be conducted to form a 7-shaped wire routing channel, the wire mounting groove 211 is formed on one side of the wire outlet barrel 21 opposite to the first mounting piece 1, and thus, when a cable is mounted and routed, the cable can be pressed into the wire outlet barrel 21 through the wire mounting groove 211, and the cable is further convenient to mount and route. Moreover, the two side slot walls of the wire-holding groove 211 are provided with mutually staggered protruding teeth 212, so that the cables arranged in the wire-holding cylinder 21 can be limited and fixed by the protruding teeth 212, and the cables are placed to fall off or escape from the slot opening of the wire-holding groove 211.

The specific arrangement mode of the wire outlet barrel 21 has the beneficial effects of simple structure, convenience in installing and laying the cables and capability of limiting and fixing the cables in the wire outlet barrel 21.

In one embodiment, the omnidirectional rotating wire passing device further comprises a second mounting member 3; the second mounting piece 3 is arranged at one end of the rotating wire piece 2 opposite to the first mounting piece 1 and is relatively fixed with the first mounting piece 1 through a positioning piece 11; the second mounting member 3, the first mounting member 1 and the positioning member 11 together form a rotation space for rotating the wire member 2.

Specifically, as described in further detail with reference to fig. 4 and 5, the second mounting member 3 is disposed at an end of the rotating wire member 2 opposite to the first mounting member 1, and is relatively fixed to the first mounting member 1 by the positioning member 11, so that the relative positioning between the first mounting member 1 and the second mounting member 3 is achieved by the positioning member 11; and the second mounting piece 3, the first mounting piece 1 and the positioning piece 11 form a rotating space for rotating the wire passing piece 2 together, so that the wire passing piece 2 is protected along three-position limiting, and the wire passing piece 2 is more stably mounted.

The specific setting mode of the second mounting piece 3 can be relatively fixed with the first mounting piece 1 through the positioning piece 11, and can also form a rotating space for rotating the wire passing piece 2 together with the first mounting piece 1 and the positioning piece 11, so that the mounting stability of the wire passing piece 2 is improved.

In an embodiment, the second mounting member 3 is correspondingly provided with a routing channel; the end of the second mounting part 3 facing away from the rotating wire passing part 2 is provided with a second mounting station for fixedly mounting the workpiece.

Specifically, as described in further detail with reference to fig. 4 and 5, a second mounting station for fixedly mounting a workpiece is disposed at one end of the second mounting member 3 opposite to the rotating wire passing member 2, specifically, but not limited to, a workpiece such as a camera may be fixedly mounted, and a wire passage is correspondingly disposed in the second mounting member 3, so that the cable may be electrically connected with the workpiece fixedly disposed at the second mounting station through the wire passage in the second mounting member 3, thereby further improving the general performance of the omnibearing rotating wire passing device.

In one embodiment, the first mounting piece 1 and the second mounting piece 3 are respectively provided with annular concave grooves 31 in the inner cavity walls of the wiring channels; the two ends of the rotating wire passing piece 2 are respectively provided with an annular convex edge 23 which is inserted in the annular concave groove 31 in a limiting way.

Specifically, as described in further detail with reference to fig. 4 and 5, the annular recess 31 formed in the inner cavity wall of the wiring channel in the first mounting member 1 and the second mounting member 3 may be used to respectively limit the installation of the annular protruding edges 23 at two ends of the rotating wire member 2, so that the axial movement of the rotating wire member 2 may be limited, the installation stability of the rotating wire member 2 may be improved, and the rotating wire member 2 may not be affected to rotate around its own axis.

Of course, in order to facilitate the installation and matching of the annular protruding edge 23 and the annular recessed groove 31, the first installation piece 1 and the second installation piece 3 may be both set into a structure of a body and a cover plate, and the through cover plate covers and installs at one end of the body to form the annular recessed groove 31.

In an embodiment, the omnibearing rotary wire passing device further comprises a base 4 which is in mounting connection with the first mounting member 1 through a cartridge 41; the cartridge 41 is at least partially inserted into the first mounting member 1 and is correspondingly connected to the routing channel.

Specifically, as described in further detail with reference to fig. 5, the base 4 may be used for installing and setting power supply and other elements, the base 4 is installed and connected with the first mounting member 1 through the cartridge 41, and the cartridge 41 is at least partially inserted into the first mounting member 1 and is correspondingly conducted with the routing channel, so that the cable in the base 4 may enter the routing channel through the cartridge 41 and finally pass out of the wire outlet barrel 21 to be electrically connected with the display screen.

The specific connection setting mode of the base 4 has the beneficial effects of simple structure and good installation and connection stability with the first installation piece 1.

In one embodiment, the omnibearing rotary wire passing device further comprises a rotary sleeve 5 movably sleeved on the outer periphery of the first mounting piece 1 and the rotary wire passing piece 2; the peripheral wall of the rotary sleeve 5 is also provided with a display screen mounting portion 51 connected to the outlet tube 21 in a conductive manner.

Specifically, in connection with the further detailed description of fig. 6, a rotating sleeve 5 is disposed at the outer peripheral portions of the first mounting member 1 and the rotating wire passing member 2, the dustproof and waterproof sealing performance of the omnibearing rotating wire passing device can be improved through the rotating sleeve 5, and the peripheral wall of the rotating sleeve 5 is correspondingly provided with a display screen mounting portion 51 which is in conductive connection with the wire outlet barrel 21, so that the display screen can be mounted in a butt joint manner, and the rotating sleeve 5 is synchronously driven to rotate by the rotating wire passing member 2 to realize the 360-degree omnibearing rotating display function of the display screen.

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 (9)

1. An all-round rotatory line device, characterized by comprising:

a first mounting member (1) having a positioning member (11) looped around a mounting end edge;

the rotary wire passing piece (2) is movably arranged at the mounting end part and can rotate around the axis of the rotary wire passing piece;

the first installation piece (1) and the rotary wire passing piece (2) are respectively provided with a penetrating wire passage correspondingly;

the outer peripheral wall of the rotary wire passing piece (2) is also provided with an outgoing wire barrel (21) protruding outwards and a poking part (221) opposite to the outgoing wire barrel (21) at intervals along the axial direction of the rotary wire passing piece;

when the poking part (221) synchronously rotates along with the rotary wire passing piece (2), the positioning pieces (11) are poked one by one, and the positioning pieces (11) are led to avoid the wire outlet barrel (21);

the outer peripheral wall of the rotary wire passing piece (2) is annularly provided with a poking convex edge (22);

the positioning piece (11) is provided with a pressure receiving part (111) which is abutted under the poking convex edge (22);

the positioning piece (11) further comprises a positioning rod (112);

one end of the positioning rod (112) is movably inserted into the mounting end part through a compression spring (113);

the pressure receiving portion (111) is a pressure receiving ring wound around the outer peripheral wall of the positioning rod (112).

2. The all-round rotating threading device according to claim 1, wherein,

the poking convex edge (22) comprises the poking part (221), a resetting part (222) and a connecting part (223):

the reset part (222) is spaced from the poking part (221) along the axial direction of the rotary wire passing member (2) and is arranged on the peripheral wall of the rotary wire passing member (2) in a way of facing away from each other;

the connecting part (223) is used for smoothly and transitionally connecting the poking part (221) and the resetting part (222) to form an annular structure.

3. The all-round rotating threading device according to claim 2, wherein,

when the poking convex edge (22) rotates along with the rotating wire passing piece (2), the pressure receiving part (111) can move towards the mounting end part relative to the resetting part (222) or move away from the mounting end part relative to the connecting part (223) and the resetting part (222) relative to each other.

4. The omnibearing rotary wire passing device according to claim 1, wherein a wire-mounting groove (211) is further formed on one side of the wire outlet barrel (21) facing away from the first mounting piece (1);

the two side notch walls of the wire-filling groove (211) are provided with mutually staggered raised teeth (212).

5. The omnidirectional rotating threading device according to claim 1, characterized by further comprising a second mounting (3);

the second mounting piece (3) is arranged at one end of the rotary wire passing piece (2) opposite to the first mounting piece (1) and is fixed relative to the first mounting piece (1) through the positioning piece (11);

the second mounting piece (3), the first mounting piece (1) and the positioning piece (11) jointly form a rotating space for the rotating wire passing piece (2).

6. The omnidirectional rotating wire passing device according to claim 5, wherein the second mounting member (3) is also provided with a wire passage correspondingly;

and a second installation station for fixedly installing a workpiece is arranged at one end of the second installation piece (3) opposite to the rotary wire passing piece (2).

7. The omnibearing rotary wire passing device according to claim 6, wherein the first and second mounting members (1, 3) are further provided with annular recessed grooves (31) in inner cavity walls of the wire channels, respectively;

the two ends of the rotary wire passing piece (2) are respectively provided with an annular protruding edge (23) which is inserted into the annular concave groove (31) in a limiting mode.

8. The omnibearing rotary wire passing apparatus according to any one of claims 1 to 7, further comprising a base (4) mounted and connected to the first mount (1) by a cartridge (41);

the cartridge (41) is at least partially inserted into the first mounting piece (1) and is correspondingly communicated with the wiring channel.

9. The omnibearing rotary wire passing device according to claim 8, further comprising a rotary sleeve (5) movably sleeved on the outer peripheral parts of the first mounting member (1) and the rotary wire passing member (2);

the peripheral wall of the rotary sleeve (5) is correspondingly provided with a display screen mounting part (51) which is in conductive connection with the wire outlet barrel (21).