CN107171141B

CN107171141B - Wiring mechanism and display screen with same

Info

Publication number: CN107171141B
Application number: CN201710566047.8A
Authority: CN
Inventors: 李炳锋; 王成
Original assignee: Shenzhen Leyard Optoelectronic Co Ltd
Current assignee: Shenzhen Leyard Optoelectronic Co Ltd
Priority date: 2017-07-12
Filing date: 2017-07-12
Publication date: 2023-04-21
Anticipated expiration: 2037-07-12
Also published as: CN107171141A

Abstract

The invention provides a wiring mechanism and a display screen with the same. Wherein, wiring mechanism includes: the navigation plug female seat; the aviation plug male seat; the aerial plug male seat support is movably arranged on the aerial plug male seat support, the aerial plug male seat is provided with an extending position and a retracting position, when the aerial plug male seat is in the extending position, the aerial plug male seat is in plug fit with the aerial plug female seat, and when the aerial plug male seat is in the retracting position, the aerial plug male seat is separated from the aerial plug female seat; the handle is arranged on the aerial plug male seat support in a pivotable mode, when the handle is matched with the first limiting structure, the aerial plug male seat can be kept at a retraction position, when the handle is matched with the second limiting structure, the aerial plug male seat can be kept at an extension position, and when the handle is not matched with any one of the first limiting structure and the second limiting structure, the aerial plug male seat can move between the extension position and the retraction position. By applying the technical scheme of the invention, the problem of low installation efficiency of the wiring mechanism in the prior art can be effectively solved.

Description

Wiring mechanism and display screen with same

Technical Field

The invention relates to the field of display devices, in particular to a wiring mechanism and a display screen with the same.

Background

The existing large LED display screen is usually assembled by a plurality of display screen modules. Currently, connecting two adjacent display screen module power supplies and signals in series is usually achieved by screwing wires or external aviation plug wires. The wire rods and the aviation sockets are needed to be customized by adopting the scheme for serial connection, so that the material cost is high. In addition, during on-site installation, tools such as screwdrivers and the like are generally needed, and due to the fact that more wires are connected, the scheme is high in labor cost and low in installation efficiency.

Disclosure of Invention

The invention mainly aims to provide a wiring mechanism and a display screen with the same, so as to solve the problem of low installation efficiency of the wiring mechanism in the prior art.

In order to achieve the above object, according to one aspect of the present invention, there is provided a wiring mechanism comprising: the aviation plug female seat is fixedly arranged; the aviation plug male seat can be in plug-in fit with the aviation plug female seat; the device comprises an aerial plug male seat support, an aerial plug female seat and an aerial plug male seat, wherein the aerial plug male seat support is fixedly arranged, the aerial plug male seat is movably arranged on the aerial plug male seat support, the aerial plug male seat support is provided with an avoidance port, the aerial plug male seat is provided with an extension position extending out of the avoidance port and a retraction position not extending out of the avoidance port, when the aerial plug male seat is positioned at the extension position, the aerial plug male seat is in plug fit with the aerial plug female seat, when the aerial plug male seat is positioned at the retraction position, the aerial plug male seat is separated from the aerial plug female seat, and the aerial plug male seat support is provided with a first limit structure and a second limit structure; the handle is arranged on the aerial plug public seat support in a pivotable mode, the pivot axis of the handle is perpendicular to the moving direction of the aerial plug public seat, the handle is matched with the aerial plug public seat to drive the aerial plug public seat to move along the preset direction, when the handle rotates to be matched with the first limiting structure, the aerial plug public seat can be kept at the retraction position, when the handle rotates to be matched with the second limiting structure, the aerial plug public seat can be kept at the extension position, and when the handle is not matched with any one of the first limiting structure and the second limiting structure, the aerial plug public seat can move between the extension position and the retraction position.

Further, the handle includes the handle body, pivot and cooperation axle, the pivot sets up in the same side of handle body with the cooperation axle, the high height that is higher than the cooperation axle of pivot, the mounting hole of installation pivot has on the male seat support of aviation plug, first limit structure is the first spacing hole with cooperation axle complex, the second limit structure is the second spacing hole with cooperation axle complex, when the cooperation axle rotates to opposite to first spacing hole, the cooperation axle stretches into in the first spacing hole, the handle can't continue to rotate, when the cooperation axle rotates to opposite to second spacing hole, the cooperation axle stretches into in the second spacing hole, the handle can't continue to rotate, when the cooperation axle deviate from in first spacing hole or the second spacing hole under the effect of external force, the pivot still is located the mounting hole, the handle can rotate.

Further, the wiring mechanism further includes: the elastic piece is connected with the pivot after extending out of the mounting hole, when the elastic piece receives axial pressure, the elastic piece is compressed, the matching shaft is separated from the first limiting hole or the second limiting hole, and when the matching shaft rotates to a position corresponding to the second limiting hole or the first limiting hole, the matching shaft correspondingly stretches into the second limiting hole or the first limiting hole under the action of elastic restoring force of the elastic piece.

Further, the elastic piece is a dish-shaped elastic piece, the size of the first end of the dish-shaped elastic piece is smaller than the size of the second end of the dish-shaped elastic piece, the dish-shaped elastic piece gradually expands in the direction from the first end of the dish-shaped elastic piece to the second end of the dish-shaped elastic piece, an annular groove is formed in the pivot, the first end of the dish-shaped elastic piece is installed in the annular groove, and when the dish-shaped elastic piece is subjected to axial pressure, the second end of the dish-shaped elastic piece is abutted to the aviation plug support.

Further, the female seat of aviation plug is last to have the grafting recess, and the male seat of aviation plug includes the male seat body of aviation plug and is located the limiting plate of the male seat below of aviation plug, has on the male seat body of aviation plug with grafting recess complex grafting arch, is provided with on the limiting plate and dodges the hole of dodging pivot and cooperation axle.

Further, dodge the hole and dodge the hole including dodging the first hole of dodging of pivot and dodging the second of cooperation axle and dodge the hole, first dodge the hole and be the slot hole, first dodge the direction of extension in hole and the direction of movement of aviation plug public seat the same, the hole is the slot hole, the second dodges the direction of extension in hole and first direction of extension in hole perpendicular, when rotating the handle, the pivot can be in first dodge the hole internal sliding, cooperation axle and second dodge the pore wall cooperation in hole in order to promote aviation plug public seat and remove.

Further, the first avoidance hole is communicated with the second avoidance hole.

Further, the male seat support of aviation plug includes the support body and the mounting panel of being connected with the support body, and the support body includes first plate body, dodges the mouth and form on first plate body, and the mounting panel is connected with first plate body to perpendicular with first plate body, first limit structure and second limit structure all are located the mounting panel, and the handle pivotably sets up on the mounting panel.

Further, guide ribs are arranged at the edges of the two sides of the mounting plate, the guide ribs and the mounting plate form a guide groove together, the aviation plug male seat is located in the guide groove, and the edges of the two sides of the aviation plug male seat are matched with the guide ribs so that the aviation plug male seat can move along a preset direction.

According to another aspect of the present invention, there is provided a display screen including: the display device comprises a first display screen module and a second display screen module, wherein the first display screen module comprises a first display screen body and a first bracket, and the second display screen module comprises a second display screen body and a second bracket; the wiring mechanism is characterized in that the aerial socket female seat of the wiring mechanism is fixedly arranged on the first bracket, and the second bracket forms an aerial socket male seat bracket of the wiring mechanism.

By applying the technical scheme of the invention, the wiring mechanism comprises the handle which can be pivotally arranged on the aviation plug male seat bracket. The male aerial socket is capable of remaining in a retracted position when the handle is rotated into engagement with a first limit feature on the male aerial socket bracket. At this time, the male socket does not extend out of the avoiding port and is separated from the female socket. The male aviation plug seat can be kept in an extending position when the handle rotates to be matched with the second limiting structure. At this time, the male aviation socket extends out of the avoidance port of the male aviation socket bracket and is in splicing fit with the female aviation socket. When the handle is not matched with any one of the first limiting structure and the second limiting structure, the aviation plug male seat can move between the extending position and the retracting position. The above-mentioned structure can realize the cooperation and the separation of the public seat of aviation plug and the female seat of aviation plug through rotating the handle, avoids using instrument installation wiring such as screwdriver, consequently improves the installation effectiveness greatly, reduces the cost of labor, has solved the problem that wiring mechanism's among the prior art installation effectiveness is low.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

FIG. 1 shows a schematic view of the configuration of the male receptacle mated with the male receptacle bracket when the male receptacle is in a retracted position in accordance with an embodiment of the wiring mechanism of the present invention;

FIG. 2 illustrates a schematic view of the configuration of the male receptacle of FIG. 1 mated with the male receptacle bracket in an extended position of the male receptacle;

FIG. 3 shows a schematic perspective view of the male and female receptacle of FIG. 2 mated in an extended position;

FIG. 4 illustrates a schematic side view of the male aircraft seat of FIG. 3 mated with the female aircraft seat in an extended position;

FIG. 5 shows an exploded view of the male and female receptacle of FIG. 3 mated in an extended position;

FIG. 6 shows a schematic perspective view of the male air socket of the wiring mechanism of FIG. 1;

FIG. 7 is a schematic perspective view of the male air socket bracket of the wiring mechanism of FIG. 1; and

fig. 8 shows a schematic perspective view of the handle of the wiring mechanism of fig. 1.

Wherein the above figures include the following reference numerals:

10. the navigation plug female seat; 11. a plug-in groove; 20. the aviation plug male seat; 21. the aviation plug male seat body; 211. inserting the bulge; 22. a limiting plate; 221. avoidance holes; 2211. a first avoidance hole; 2212. a second avoidance hole; 30. the aviation plug male seat bracket; 31. a bracket body; 311. a first plate body; 3111. an avoidance port; 312. a second plate body; 32. a mounting plate; 321. a first limit structure; 322. a second limit structure; 323. a mounting hole; 324. a guide rib; 40. a handle; 41. a handle body; 42. a pivot; 421. an annular groove; 43. a mating shaft; 50. an elastic member; 51. a first end; 52. a second end.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The invention will be described in detail below with reference to the drawings in connection with embodiments.

As shown in fig. 1 to 8, the wiring mechanism of the present embodiment includes: female cradle 10, male cradle 20, male cradle holder 30, and handle 40. Wherein, the female seat 10 of aviation plug is fixed and sets up. The male aviation socket 20 can be in plug-in fit with the female aviation socket 10; the male seat support 30 of the aerial socket, fixed setting, the male seat 20 of the aerial socket movably sets up on the male seat support 30 of the aerial socket, the male seat support 30 of the aerial socket has dodges mouthful 3111, the male seat 20 of the aerial socket has and stretches out in dodging the position of mouthful 3111 and does not stretch out in dodging the retracted position of mouthful 3111, when the male seat 20 of the aerial socket is located the position of stretching out, the male seat 20 of the aerial socket is pegged graft with the female seat 10 of the aerial socket, when the male seat 20 of the aerial socket is located the retracted position, the male seat 20 of the aerial socket is separated with the female seat 10 of the aerial socket, have first limit structure 321 and second limit structure 322 on the male seat support 30 of the aerial socket. The handle 40 is pivotally disposed on the male socket bracket 30, the pivot axis of the handle 40 is perpendicular to the moving direction of the male socket 20, the handle 40 cooperates with the male socket 20 to drive the male socket 20 to move in a predetermined direction, the male socket 20 can be maintained in a retracted position when the handle 40 is rotated to cooperate with the first limiting structure 321, the male socket 20 can be maintained in an extended position when the handle 40 is rotated to cooperate with the second limiting structure 322, and the male socket 20 can be moved between the extended position and the retracted position when the handle 40 is not engaged with any one of the first limiting structure 321 and the second limiting structure 322.

With the technical solution of the present embodiment, the wiring mechanism comprises a handle 40 pivotably arranged on the male socket bracket 30. The male socket 20 can be held in the retracted position when the handle 40 is rotated into engagement with the first stop feature 321 on the male socket holder 30. At this time, the female receptacle 20 does not extend out of the relief port 3111 and is separated from the female receptacle 10. The male aviation plug 20 can be kept in the extended position when the handle 40 is turned to engage with the second limit structure 322. At this time, the male receptacle 20 extends out of the avoidance port 3111 of the male receptacle holder 30 and is in plug-in engagement with the female receptacle 10. When the handle 40 is not engaged with either of the first stop structure 321 and the second stop structure 322, the male navigation socket 20 is movable between the extended position and the retracted position. The above structure can realize the cooperation and separation of the male socket 20 and the female socket 10 by rotating the handle 40, and avoid using tools such as screwdrivers to install wires, thereby greatly improving the installation efficiency, reducing the labor cost and solving the problem of low installation efficiency of the wiring mechanism in the prior art.

Specifically, when the male socket 20 is required to be mated with the female socket 10, the handle 40 is first separated from the first limiting structure 321, and then the handle 40 is turned, and the handle 40 drives the male socket 20 to move along the first predetermined direction, that is, drives the male socket 20 to move from the retracted position to the extended position. When the male socket 20 moves to the extended position, the male socket 20 is engaged with the female socket 10, and the handle 40 is engaged with the second limiting structure 322 to enable the male socket 20 to be kept at the engaged position with the female socket 10, so as to complete the engaged connection between the male socket 20 and the female socket 10. Similarly, when it is desired to separate the male receptacle 20 from the female receptacle 10, the handle 40 is first separated from the second limiting structure 322, and then the handle 40 is rotated, so that the handle 40 drives the male receptacle 20 to move along the second predetermined direction (opposite to the first predetermined direction), i.e. drives the male receptacle 20 to move from the extended position to the retracted position. When the male socket 20 moves to the retracted position, the male socket 20 is separated from the female socket 10, and the handle 40 cooperates with the first limiting structure 321 to enable the male socket 20 to be kept at the retracted position, thereby completing the separation of the male socket 20 and the female socket 10.

As shown in fig. 1, 2, 7 and 8, in the present embodiment, the handle 40 includes a handle body 41, a pivot 42 and a mating shaft 43, the pivot 42 and the mating shaft 43 are disposed on the same side of the handle body 41, the height of the pivot 42 is higher than that of the mating shaft 43, the avionics male stand 30 is provided with a mounting hole 323 for mounting the pivot 42, the first limiting structure 321 is a first limiting hole matched with the mating shaft 43, the second limiting structure 322 is a second limiting hole matched with the mating shaft 43, when the mating shaft 43 rotates to be opposite to the first limiting hole, the mating shaft 43 stretches into the first limiting hole, the handle 40 cannot continue to rotate, when the mating shaft 43 rotates to be opposite to the second limiting hole, the mating shaft 43 stretches into the second limiting hole, the handle 40 cannot continue to rotate, and when the mating shaft 43 is separated from the first limiting hole or the second limiting hole under the action of external force, the pivot 42 is still located in the mounting hole 323, and the handle 40 can rotate.

Specifically, when it is desired to mate the female socket 20 with the male socket 10, an external force is first applied to the handle 40 to disengage the mating shaft 43 from the first limiting aperture. At this time, the pivot shaft 42 is still located in the mounting hole 323. The handle 40 is then rotated about the pivot 42, and the handle 40 moves the male socket 20 from the retracted position to the extended position. When the male socket 20 moves to the extended position, the male socket 20 is engaged with the female socket 10, and the engaging shaft 43 extends into the second limiting hole. Because the male socket 20 is retained on the male socket bracket 30 by the pivot 42 and the mating shaft 43, the male socket 20 will be able to remain in the extended position. Similarly, when it is desired to separate the female receptacle 20 from the male receptacle 10, an external force is first applied to the handle 40 to disengage the mating shaft 43 from the second limiting aperture. At this time, the pivot shaft 42 is still located in the mounting hole 323. The handle 40 is then rotated about the pivot 42, and the handle 40 moves the male socket 20 from the extended position to the retracted position. When the male socket 20 moves to the retracted position, the male socket 20 is separated from the female socket 10, and the mating shaft 43 extends into the first limiting hole. Because the male socket 20 is retained on the male socket bracket 30 by the pivot 42 and the mating shaft 43, the male socket 20 will be able to remain in the retracted position. The positioning of the male aviation plug socket 20 is achieved through the cooperation of the shaft and the hole, so that the structure is simple and convenient to process and assemble.

As shown in fig. 4 to 8, in the present embodiment, the wiring mechanism further includes an elastic member 50. The pivot 42 is connected with the elastic member 50 after extending out of the mounting hole 323, when the elastic member 50 receives axial pressure, the elastic member 50 compresses, the matching shaft 43 is separated from the first limiting hole or the second limiting hole, and when the matching shaft 43 rotates to a position corresponding to the second limiting hole or the first limiting hole, the matching shaft 43 correspondingly extends into the second limiting hole or the first limiting hole under the action of elastic restoring force of the elastic member 50.

Specifically, when it is desired to mate the female socket 20 with the male socket 10, an external force is first applied to the handle 40 to disengage the mating shaft 43 from the first limiting aperture. At this time, the elastic member 50 is compressed. The handle 40 is turned, and during the turning, the elastic member 50 will remain in a compressed state all the time, since the free end of the mating shaft 43 is always in abutment with the male socket bracket 30. When the handle 40 rotates to the position where the mating shaft 43 corresponds to the second limiting hole, the free end of the mating shaft 43 loses the pushing force of the male socket bracket 30, so that the mating shaft 43 automatically stretches into the second limiting hole under the elastic restoring force of the elastic member 50, and the male socket 20 is kept in the stretched position. Similarly, when it is desired to separate the female receptacle 20 from the male receptacle 10, an external force is first applied to the handle 40 to disengage the mating shaft 43 from the second limiting aperture. At this time, the elastic member 50 is compressed. The handle 40 is turned, and during the turning, the elastic member 50 will remain in a compressed state all the time, since the free end of the mating shaft 43 is always in abutment with the male socket bracket 30. When the handle 40 rotates to the position where the mating shaft 43 corresponds to the first limiting hole, the free end of the mating shaft 43 loses the pushing force of the male socket bracket 30, so that the mating shaft 43 automatically stretches into the first limiting hole under the elastic restoring force of the elastic member 50, and the male socket 20 is kept at the retracted position. The above structure enables the handle 40 to be automatically in a position locking state after moving in place, thereby making the operation simpler and more convenient, improving the efficiency of installation and disassembly, and greatly reducing the labor cost.

It should be noted that, the "corresponding" of the engaging shaft 43 extending into the second limiting hole or the first limiting hole under the elastic restoring force of the elastic member 50 "means that when the engaging shaft 43 rotates to the second limiting hole, the engaging shaft 43 extends into the second limiting hole under the elastic restoring force of the elastic member 50, and when the engaging shaft 43 rotates to the first limiting hole, the engaging shaft 43 extends into the first limiting hole under the elastic restoring force of the elastic member 50.

As shown in fig. 4, 5 and 8, in the present embodiment, the elastic member 50 is a dish-shaped elastic piece, the size of the first end 51 of the dish-shaped elastic piece is smaller than the size of the second end 52 of the dish-shaped elastic piece, and in the direction from the first end 51 of the dish-shaped elastic piece to the second end 52 of the dish-shaped elastic piece, the dish-shaped elastic piece gradually expands, the pivot 42 is provided with an annular groove 421, the first end 51 of the dish-shaped elastic piece is installed in the annular groove 421, and when the dish-shaped elastic piece is subjected to axial pressure, the second end 52 of the dish-shaped elastic piece abuts against the socket bracket 30. In the above structure, the elastic member 50 is a disc-shaped elastic piece, and since the disc-shaped elastic piece can provide a larger elastic force with a smaller displacement, the mating shaft 43 can better and faster extend into the first limiting hole or the second limiting hole when corresponding to the first limiting hole or the second limiting hole. In addition, the structure is simple, the assembly is convenient, and the cost is low.

As shown in fig. 5 and 6, in the present embodiment, the female receptacle 10 has a socket recess 11, the male receptacle 20 includes a male receptacle body 21 and a limiting plate 22 located below the male receptacle 20, the male receptacle body 21 has a socket protrusion 211 matched with the socket recess 11, and the limiting plate 22 is provided with a socket hole 221 for receiving the pivot 42 and the mating shaft 43. Specifically, when the male aviation plug 20 is in the extended position, the plug protrusion 211 extends into the plug recess 11. When the male navigation socket 20 is in the retracted position, the insertion protrusion 211 is disengaged from the insertion groove 11. In addition, since the limiting plate 22 is provided with the escape hole 221, the pivot shaft 42 can pass through the escape hole 221 and then be engaged with the mounting hole 323, and the engagement shaft 43 can pass through the escape hole 221 and then be engaged with the first limiting hole or the second limiting hole.

As shown in fig. 5 and 6, in this embodiment, the avoidance hole 221 includes a first avoidance hole 2211 that avoids the pivot 42 and a second avoidance hole 2212 that avoids the mating shaft 43, where the first avoidance hole 2211 is a long hole, the extending direction of the first avoidance hole 2211 is the same as the moving direction of the socket 20, the second avoidance hole 2212 is a long hole, the extending direction of the second avoidance hole 2212 is perpendicular to the extending direction of the first avoidance hole 2211, and when the handle 40 is turned, the pivot 42 can slide in the first avoidance hole 2211, and the mating shaft 43 cooperates with the hole wall of the second avoidance hole 2212 to push the socket 20 to move.

Specifically, when it is desired to mate the female socket 20 with the male socket 10, an external force is first applied to the handle 40 to disengage the mating shaft 43 from the first limiting aperture. At this time, the pivot shaft 42 is still located in the mounting hole 323. Then, the handle 40 is rotated by taking the pivot 42 as an axis, and during the rotation process of the handle 40, one side, close to the female socket 10, of the matching shaft 43 is matched with the hole wall, close to the female socket 10, of the second avoidance hole 2212, and a force towards the female socket 10 is applied to the hole wall of the second avoidance hole 2212. Under the above force, the male socket 20 gradually moves toward the female socket 10. When the male socket 20 moves to the extended position, the male socket 20 is engaged with the female socket 10, and the engaging shaft 43 extends into the second limiting hole. Because the male socket 20 is retained on the male socket bracket 30 by the pivot 42 and the mating shaft 43, the male socket 20 will be able to remain in the extended position. Similarly, when it is desired to separate the female receptacle 20 from the male receptacle 10, an external force is first applied to the handle 40 to disengage the mating shaft 43 from the second limiting aperture. At this time, the pivot shaft 42 is still located in the mounting hole 323. Then, the handle 40 is rotated by taking the pivot 42 as an axis, and in the process of rotating the handle 40, one side of the matching shaft 43 away from the female socket 10 is matched with the hole wall of the second avoidance hole 2212 away from the female socket 10, and a force deviating from the female socket 10 is applied to the hole wall of the second avoidance hole 2212. Under the above force, the female receptacle 20 gradually moves away from the female receptacle 10. When the male socket 20 moves to the retracted position, the male socket 20 is separated from the female socket 10, and the mating shaft 43 extends into the first limiting hole. Because the male socket 20 is retained on the male socket bracket 30 by the pivot 42 and the mating shaft 43, the male socket 20 will be able to remain in the retracted position. It should be noted that, during the movement of the socket 20, since the position of the pivot 42 is not changed, the socket 20 needs to have a hole for avoiding the pivot 42, i.e. the first avoiding hole 2211. The pivot 42 slides relatively within the first escape aperture 2211 as the male receptacle 20 moves between the extended and retracted positions. The hole walls on two sides of the first avoidance hole 2211 play a role in limiting and guiding, so that the aerial plug male seat 20 can move along a preset direction.

As shown in fig. 6, in the present embodiment, the first avoidance hole 2211 communicates with the second avoidance hole 2212. The structure is simple and easy to process.

As shown in fig. 1 and 2, in the present embodiment, the male socket bracket 30 includes a bracket body 31 and a mounting plate 32 connected to the bracket body 31, the bracket body 31 includes a first plate body 311, a relief opening 3111 is formed on the first plate body 311, the mounting plate 32 is connected to the first plate body 311 and perpendicular to the first plate body 311, both the first limiting structure 321 and the second limiting structure 322 are located on the mounting plate 32, and the handle 40 is pivotally disposed on the mounting plate 32. Preferably, in the present embodiment, the bracket body 31 further includes a second plate 312, the first plate 311 is perpendicular to the second plate 312, and the second plate 312 is parallel to or in the same plane as the mounting plate 32.

As shown in fig. 7, in the present embodiment, guide ribs 324 are disposed at two side edges of the mounting plate 32, the guide ribs 324 and the mounting plate 32 together form a guide groove, the male socket 20 is located in the guide groove, and the two side edges of the male socket 20 cooperate with the guide ribs 324 to enable the male socket 20 to move along a predetermined direction. The above structure enables the male socket 20 to be better moved in a predetermined direction.

The present application also provides a display screen, an embodiment (not shown in the figures) of the display screen according to the present application includes: the first display screen module, the second display screen module and the wiring mechanism. The first display screen module comprises a first display screen body and a first support, and the second display screen module comprises a second display screen body and a second support. The wiring mechanism is the wiring mechanism, the female seat 10 of the wiring mechanism is fixedly arranged on the first bracket, and the second bracket forms the male seat bracket 30 of the wiring mechanism. The wiring mechanism has the advantages of high installation efficiency and low labor cost, so that the display screen with the wiring mechanism also has the advantages. The structure not only enables the power supply and signals of the adjacent first display screen module and the second display screen module to be connected in series, but also is simple to operate, free of tools and wiring, high in efficiency, neat in appearance, material-saving and low in labor cost.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A wiring mechanism, comprising:

the aviation plug female seat (10) is fixedly arranged;

the aviation plug male seat (20) can be in plug-in fit with the aviation plug female seat (10);

the device comprises an aerial plug male seat support (30) which is fixedly arranged, wherein the aerial plug male seat (20) is movably arranged on the aerial plug male seat support (30), the aerial plug male seat support (30) is provided with an avoidance opening (3111), the aerial plug male seat (20) is provided with an extending position extending out of the avoidance opening (3111) and a retracting position not extending out of the avoidance opening (3111), when the aerial plug male seat (20) is positioned at the extending position, the aerial plug male seat (20) is in plug fit with the aerial plug female seat (10), when the aerial plug male seat (20) is positioned at the retracting position, the aerial plug male seat (20) is separated from the aerial plug female seat (10), and the aerial plug male seat support (30) is provided with a first limiting structure (321) and a second limiting structure (322);

the handle (40) is pivotably arranged on the male socket bracket (30), the pivot axis of the handle (40) is perpendicular to the moving direction of the male socket (20), the handle (40) is matched with the male socket (20) to drive the male socket (20) to move along a preset direction, when the handle (40) rotates to be matched with the first limiting structure (321), the male socket (20) can be kept at the retracted position, when the handle (40) rotates to be matched with the second limiting structure (322), the male socket (20) can be kept at the extended position, and when the handle (40) is not matched with any one of the first limiting structure (321) and the second limiting structure (322), the male socket (20) can move between the extended position and the retracted position.

2. The wiring mechanism as in claim 1, wherein the handle (40) comprises a handle body (41), a pivot (42) and a mating shaft (43), the pivot (42) and the mating shaft (43) are disposed on the same side of the handle body (41), the height of the pivot (42) is higher than that of the mating shaft (43), the socket bracket (30) is provided with a mounting hole (323) for mounting the pivot (42), the first limiting structure (321) is a first limiting hole matched with the mating shaft (43), the second limiting structure (322) is a second limiting hole matched with the mating shaft (43), when the mating shaft (43) rotates to be opposite to the first limiting hole, the mating shaft (43) stretches into the first limiting hole, when the mating shaft (43) rotates to be opposite to the second limiting hole, the mating shaft (43) stretches into the second limiting hole, and when the second shaft (43) still rotates to be opposite to the second limiting hole, the second limiting structure (322) can still rotate from the second limiting hole (40).

3. The wiring mechanism of claim 2, wherein the wiring mechanism further comprises:

the elastic piece (50), pivot (42) follow after stretching out from mounting hole (323) with elastic piece (50) is connected, when elastic piece (50) received axial pressure, elastic piece (50) compression, cooperation axle (43) follow first spacing hole or in the second spacing hole deviate from, when cooperation axle (43) rotate to with second spacing hole or first spacing hole corresponds the position, cooperation axle (43) are under elastic restoring force of elastic piece (50) is corresponding stretches into in second spacing hole or the first spacing hole.

4. A wiring mechanism according to claim 3, characterized in that the elastic member (50) is a disc-shaped elastic piece, the first end (51) of the disc-shaped elastic piece is smaller than the second end (52) of the disc-shaped elastic piece in size, and in the direction from the first end (51) of the disc-shaped elastic piece to the second end (52) of the disc-shaped elastic piece, the disc-shaped elastic piece gradually expands, an annular groove (421) is arranged on the pivot (42), the first end (51) of the disc-shaped elastic piece is arranged in the annular groove (421), and when the disc-shaped elastic piece is subjected to axial pressure, the second end (52) of the disc-shaped elastic piece is abutted against the aerial socket bracket (30).

5. Wiring mechanism according to claim 2, characterized in that the female socket (10) has a socket recess (11), the male socket (20) comprises a male socket body (21) and a limiting plate (22) located below the male socket (20), the male socket body (21) has a socket protrusion (211) matching with the socket recess (11), and the limiting plate (22) is provided with a socket hole (221) avoiding the pivot (42) and the matching shaft (43).

6. The wiring mechanism as in claim 5, wherein the avoidance hole (221) comprises a first avoidance hole (2211) for avoiding the pivot (42) and a second avoidance hole (2212) for avoiding the mating shaft (43), the first avoidance hole (2211) is a long hole, the extending direction of the first avoidance hole (2211) is the same as the moving direction of the socket (20), the second avoidance hole (2212) is a long hole, the extending direction of the second avoidance hole (2212) is perpendicular to the extending direction of the first avoidance hole (2211), and when the handle (40) is rotated, the pivot (42) can slide in the first avoidance hole (2211), and the mating shaft (43) cooperates with the hole wall of the second avoidance hole (2212) to push the socket (20) to move.

7. The wire connection mechanism of claim 6, wherein the first relief hole (2211) communicates with the second relief hole (2212).

8. The wiring mechanism according to claim 1, wherein the male socket bracket (30) comprises a bracket body (31) and a mounting plate (32) connected with the bracket body (31), the bracket body (31) comprises a first plate body (311), the avoidance opening (3111) is formed on the first plate body (311), the mounting plate (32) is connected with the first plate body (311) and is perpendicular to the first plate body (311), the first limiting structure (321) and the second limiting structure (322) are both located on the mounting plate (32), and the handle (40) is pivotably arranged on the mounting plate (32).

9. The wiring mechanism as in claim 8, wherein guide ribs (324) are provided at both side edges of the mounting plate (32), the guide ribs (324) and the mounting plate (32) together form a guide groove, the male socket (20) is located in the guide groove, and both side edges of the male socket (20) cooperate with the guide ribs (324) to enable the male socket (20) to move in a predetermined direction.

10. A display screen, comprising:

the display device comprises a first display screen module and a second display screen module, wherein the first display screen module comprises a first display screen body and a first bracket, and the second display screen module comprises a second display screen body and a second bracket;

wiring mechanism, which is a wiring mechanism according to any one of claims 1 to 9, wherein the female socket (10) of the wiring mechanism is fixedly arranged on the first bracket, and the second bracket forms the male socket bracket (30) of the wiring mechanism.