CN114336189B - Data jumper connection module of accomodating fast - Google Patents

Abstract

The application relates to the technical field of rapid storage of data lines, in particular to a rapid storage data jumper wire module. Comprises a fixed mounting rack and an automatic telescopic device; the automatic telescopic devices are provided with a plurality of telescopic devices and are uniformly distributed in the fixed mounting frame; the automatic telescopic device further comprises a sliding installation shell, a data line guide post, a telescopic reset device and a winding mechanism; the sliding installation shell is arranged in the fixed installation frame in a sliding manner, the data wire guide post is arranged in the fixed installation frame in a sliding manner, and a thread guide rail is arranged on the outer side of the data wire guide post; the working end of the telescopic reset device is in sliding connection with the threaded guide rail of the data line guide post; the winding mechanism is fixedly arranged at the end part of the telescopic reset device. The application effectively adjusts the length of the data line, avoids mess of the data line caused by overlong data length, can effectively improve the convenience of maintenance and improves the maintenance efficiency.

Description

Data jumper connection module of accomodating fast

Technical Field

The invention relates to the technical field of rapid storage of data lines, in particular to a rapid storage data jumper wire module.

Background

The front end of the existing equipment is required to be connected with a data line, the rear end of the existing equipment is required to comb redundant data lines by using a magic tape or a binding tape, but in daily maintenance, a jumper wire is required to be replaced at a plug position, once the jumper wire is replaced, operation and maintenance become difficult, firstly the magic tape or the binding tape which are bound together are required to be removed, the redundant data lines of the data lines can be messy when the magic tape or the binding tape is removed, the data lines which are required to be replaced are required to be found from the messy data lines, the binding tape or the magic tape is finally bound back again when the data line position is replaced, and the steps are cumbersome, so that later operation and maintenance become particularly troublesome, time and labor are wasted, and work efficiency is affected. There is a need for a fast-housed data patch module that addresses the above-described issues.

Disclosure of Invention

Based on this, it is necessary to provide a fast-housed data patch module for solving the problems in the prior art. The application effectively adjusts the length of the data line, avoids mess of the data line caused by overlong data length, can effectively improve the convenience of maintenance and improves the maintenance efficiency.

In order to solve the problems in the prior art, the invention adopts the following technical scheme:

A fast-accommodating data jumper wire module comprises a fixed mounting rack and an automatic telescopic device; the automatic telescopic devices are provided with a plurality of telescopic devices and are uniformly distributed in the fixed mounting frame; the automatic telescopic device further comprises a sliding installation shell, a data line guide post, a telescopic reset device and a winding mechanism; the sliding installation shell is arranged in the fixed installation frame in a sliding manner, the data wire guide post is arranged in the fixed installation frame in a sliding manner, and a thread guide rail is arranged on the outer side of the data wire guide post; the working end of the telescopic reset device is in sliding connection with the threaded guide rail of the data line guide post; the winding mechanism is fixedly arranged at the end part of the telescopic reset device.

Preferably, the inside of fixed mounting bracket has and is equipped with a plurality of spacing slide rails, and fixed mounting bracket both sides are equipped with the installation buckle.

Preferably, the sliding mounting shell comprises a limiting shell and a locking cover; the limiting shell is slidably arranged in the limiting sliding rail of the fixed mounting frame, a limiting sliding groove is formed in the sliding part of the limiting shell, and a plurality of jacks are formed at two ends of the limiting shell; the locking cover is provided with a plurality of locking covers and is symmetrically arranged at two ends of the limiting shell.

Preferably, the locking cover comprises a fixed cover, a shrinkage chuck and a locking head; the fixed cover is provided with a plurality of inserted bars, and the inserted bars of the fixed cover are matched with the insertion holes of the limiting shell; the shrinkage chuck is fixedly arranged at the axial center of the fixed cover; the locking head is in threaded connection with the shrink chuck.

Preferably, the shrink chuck comprises a thread head, an elastic connecting strip and a clamping block; the screw thread head is fixedly arranged at the axle center position of the fixed cover, and the inside of the screw thread head is provided with a through hole and is communicated with the inside of the fixed cover; the elastic connecting strips are provided with a plurality of elastic connecting strips and are uniformly distributed by taking the thread heads as the axes; one end of the elastic connecting strip is fixedly connected with the thread head; the clamping blocks are provided with a plurality of clamping blocks and are uniformly distributed on the elastic connecting strips, the clamping blocks are made of rubber, and the clamping blocks are fixedly connected with one end, far away from the threaded head, of the elastic connecting strips.

Preferably, the inner wall of the locking head is provided with an internal thread, one end of the locking head is provided with a threading hole, and the inside of the locking head is also provided with an extrusion guiding angle.

Preferably, the inside of the data line guide post is provided with an installation through hole, the outer side of the data line guide post is provided with a threaded guide rail, the inside of the threaded guide rail is also provided with a sliding clamping groove, and the outer side of the data line guide post is also provided with a sliding clamping block.

Preferably, the telescopic reset device comprises a data wire clamping head, a spring and a mounting plate; the data wire clamping head is slidably arranged in the mounting through hole of the data wire guide post, and the mounting plate is fixedly arranged at one end of the data wire guide post; the spring is arranged in the data line guide post, one end of the spring is fixedly connected with the data line clamping head, and one end of the spring, which is far away from the data line clamping head, is fixedly connected with the mounting plate.

Preferably, the data line clamping head comprises a mounting sliding block, a rotating frame and a clamping sleeve; the installation sliding block is slidably installed in the installation through hole of the data line guide post; one end of the rotating frame is rotatably arranged on the installation sliding block, and one end of the rotating frame, which is far away from the installation sliding block, is in sliding connection with a sliding clamping groove in the threaded guide rail; the clamping sleeve is fixedly connected with one end, far away from the installation sliding block, of the rotating frame, and the side part of the clamping sleeve is in sliding connection with the threaded guide rail of the data line guide post.

Preferably, the winding mechanism comprises a fixed mounting shaft, a winding wheel and a spring roll; the fixed mounting shaft is fixedly mounted at the axial center of the mounting plate; the winding wheel is rotationally arranged on the fixed mounting shaft; the clockwork spring is coiled inside the winding wheel, and clockwork spring coil one end and fixed mounting axle fixed connection are coiled, and clockwork spring coil keeps away from fixed mounting axle's one end and winding wheel fixed connection.

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

1. According to the application, the automatic telescopic device is intensively placed through the fixed mounting frame, the sliding mounting shell is used for mounting the data wire guide post, the winding mechanism is used for winding the data wire to store the data wire in the sliding mounting shell, one end of the data wire passes through the sliding mounting shell to be connected with the cabinet equipment, the other end of the data wire passes through the movable end of the telescopic resetting device, the data wire extends along the threaded guide rail of the data wire guide post, and the data wire passes through the threaded guide rail and then passes out of the mounting shell. The staff has the length pull data line that the data line needs to use more, adjusts data line length, drives the data line when the data line pull and slides in the screw guide of data line guide pillar, and the data line drives flexible resetting means's expansion end simultaneously and removes, and the data line drives winding mechanism simultaneously and rotates the release winding data line, and the staff of data line overlength loosens the data line, and flexible resetting means cooperates winding mechanism to adjust the data line with the data line internal contraction. The application effectively adjusts the length of the data line, avoids mess of the data line caused by overlong data length, can effectively improve the convenience of maintenance and improves the maintenance efficiency.

2. According to the application, the fixing device is stably fixed through the mounting buckles at two sides of the fixing mounting frame, and the fixing mounting frame barrel passes through the limiting slide rail to sequentially and orderly arrange and fix the plurality of automatic telescopic devices. The data arrangement uniformity is effectively guaranteed.

3. According to the application, the limiting shell is inserted into the limiting sliding rail of the fixed mounting frame, the limiting sliding groove of the limiting shell is used for mounting the data wire guide post, the telescopic reset device and the winding mechanism, the insertion holes at two ends of the limiting shell are used for positioning and mounting the locking cover, and the locking cover is used for locking the penetrated data wire. The spacing shell is convenient for spacing installation or dismantlement, effectively improves the convenience of maintenance.

4. According to the application, the data wire is pulled out from the interior of the sliding installation shell by a worker, the data wire passes through the fixed cover, and is pulled out from the axis of the shrinkage chuck, and after the data wire with a proper length is pulled out, the pulled data wire is fixedly locked by rotating the locking head to match with the shrinkage chuck. The length of the stretched data line is effectively fixed by the locking cover.

5. According to the application, the data wire is pulled out from the interior of the sliding installation shell, the data wire penetrates through the through hole of the threaded head, after the data wire with a proper length is pulled out, the locking head is matched with the threaded head to press downwards when rotating, and the locking head drives the clamping blocks to synchronously shrink when pressing downwards, so that the data wire is clamped and fixed while the clamping blocks shrink. The clamping blocks made of rubber can be contracted synchronously, so that the data line can be clamped effectively.

6. According to the application, the internal thread on the inner wall of the locking head is matched with the threaded head of the shrink chuck to rotate, so that the locking head is pressed downwards, and the extrusion guide angle inside the locking head is in synchronous interference with the clamping block of the threaded head. The clamping blocks can be effectively contracted and extruded to the data line synchronously by pressing the guide angles and the clamping blocks.

7. According to the application, the sliding clamping blocks of the data line guide posts are matched with the limiting sliding grooves of the sliding installation shell to be installed in a sliding manner, the installation through holes of the data line guide posts are used for installing the telescopic resetting device, the threaded guide rails of the data line guide posts are used for limiting and guiding the telescopic movement of the data line, and the sliding clamping grooves in the threaded guide rails are used for guiding the working ends of the telescopic resetting device to slide. When the data line is pulled by a worker, the data line on the winding mechanism can extend outwards along the threaded guide rail, the data line drives the working end of the telescopic resetting device to move along the sliding clamping groove inside the threaded guide rail, the data line is guided to move in a telescopic manner through the threaded guide rail, the distance of telescopic resetting of the data line can be effectively increased, and the stretching length of the data line is improved.

8. According to the application, the data wire is clamped and fixed through the data wire clamping head, the mounting plate is used for fixing the position of the spring, when the data wire is pulled outwards, the data wire stretches along the sliding of the threaded guide rail of the data wire guide post, the data wire drives the data wire clamping head to slide in the sliding clamping groove of the threaded guide rail, the data wire clamping head drives the spring to stretch when moving, the spring generates rebound tension when stretching, and the worker stops stretching the spring to drive the data wire clamping head to shrink back to the original position, so that the rebound data wire is effectively and conveniently automatically shrunk.

9. The clamping sleeve is connected with the spring through the mounting sliding block, the clamping sleeve is fixed on the outer side of the data wire, when the data wire is pulled outwards, the data wire stretches and contracts along the sliding of the threaded guide rail of the guide post of the data wire, the data wire drives the clamping sleeve to move at the same time, and the rotating frame guides the clamping sleeve to slide along the threaded guide rail of the guide post. The clamping sleeve and the data line move together in a telescopic manner, and the data line can be driven to return to the original position by effectively matching with the shrinkage of the spring.

10. According to the application, the winding wheel is used for winding the winding data line, the fixed mounting shaft is used for mounting the winding wheel, and the spring roll is used for recovering the rotation of the winding wheel. When a worker pulls the data line, the data line on the winding wheel can extend outwards along the threaded guide rail, the spring coil simultaneously contracts to generate rebound tension, and the spring coil is matched with the telescopic reset device to wind the data line rapidly when the tension is stopped.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a perspective view of the mounting bracket of the present application;

FIG. 3 is a side view of the automatic retracting device of the present application;

FIG. 4 is a cross-sectional view taken at section A-A of FIG. 3;

FIG. 5 is a perspective view of the slide mounting housing of the present application;

FIG. 6 is a perspective view of the spacing housing of the present application;

FIG. 7 is a front view of the locking cap of the present application;

FIG. 8 is a cross-sectional view taken at section B-B of FIG. 7;

FIG. 9 is a perspective view of a shrink chuck according to the present application;

FIG. 10 is a perspective view of the locking head of the present application;

FIG. 11 is a perspective view of a data line guide post of the present application;

FIG. 12 is a perspective view of the telescopic reset device of the present application;

FIG. 13 is an enlarged view of a portion of FIG. 12 at C;

Fig. 14 is a perspective view of the winding mechanism of the present application.

The reference numerals in the figures are:

A1-a data line;

1-fixing a mounting frame; 1 c-mounting a buckle; 1 b-a limiting slide rail;

2-a sliding mounting shell; 2 a-a limiting shell; 2a 1-limit sliding grooves; 2a 2-jacks; 2 b-locking the cover; 2b 1-a fixed cover; 2b 2-shrink chuck; 2b 3-thread starts; 2b 4-elastic connecting strips; 2b 5-clamping blocks; 2b 6-locking head; 2b 7-internal threads; 2b 8-extrusion lead angle;

3-a data line guide post; 3 a-mounting through holes; 3 b-a threaded guide rail; 3 c-a sliding clamping groove; 3 d-sliding a clamping block;

4-a telescopic reset device; 4 a-a data line clamping head; 4a 1-mounting a slider; 4a 2-rotating rack; 4a 3-clamping sleeve; 4 b-a spring; 4 c-mounting plate;

5-a winding mechanism;

5 a-fixedly mounting the shaft; 5 b-a winding wheel; 5 c-winding the spring.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

As shown in fig. 1 to 4, the present application provides:

A fast-accommodating data jumper wire module comprises a fixed mounting frame 1 and an automatic telescopic device; the automatic telescopic devices are provided with a plurality of telescopic devices and are uniformly distributed in the fixed mounting frame 1; the automatic telescopic device also comprises a sliding installation shell 2, a data line guide post 3, a telescopic reset device 4 and a winding mechanism 5; the sliding installation shell 2 is arranged in the fixed installation frame 1 in a sliding way, the data wire guide post 3 is arranged in the fixed installation frame 1 in a sliding way, and a thread guide rail 3b is arranged on the outer side of the data wire guide post 3; the telescopic reset device 4 is fixedly arranged in the data line guide post 3, and the working end of the telescopic reset device 4 is in sliding connection with the threaded guide rail 3b of the data line guide post 3; the winding mechanism 5 is fixedly arranged at the end part of the telescopic reset device 4.

Based on the above embodiments, the technical problem to be solved by the present application is to facilitate maintenance and improve working efficiency. Therefore, the automatic telescopic device is intensively placed through the fixed mounting frame 1, the sliding mounting shell 2 is used for mounting the data wire guide post 3, the winding mechanism 5 is used for winding a data wire to store the data wire in the sliding mounting shell 2, one end of the data wire passes through the sliding mounting shell 2 and is connected with the cabinet equipment, the other end of the data wire passes through the movable end of the telescopic reset device 4, the data wire extends along the threaded guide rail 3b of the data wire guide post 3, and the data wire passes through the threaded guide rail 3b and passes out of the mounting shell. The staff has the length pull data line that the data line needs to use more, adjusts data line length, drives the data line when the data line pull and slides in the screw guide 3b of data line guide pillar 3, and the data line drives the expansion end of flexible resetting means 4 simultaneously and removes, and the data line drives the winding mechanism 5 simultaneously and rotates the release winding data line, and the staff of data line overlength loosens the data line, and flexible resetting means 4 cooperates winding mechanism 5 to adjust the data line internal contraction. The application effectively adjusts the length of the data line, avoids mess of the data line caused by overlong data length, can effectively improve the convenience of maintenance and improves the maintenance efficiency.

Further, as shown in fig. 2:

The inside of fixed mounting bracket 1 has a plurality of spacing slide rails 1b, and fixed mounting bracket 1 both sides are equipped with installation buckle 1c.

Based on the above embodiments, the technical problem to be solved by the present application is to orderly arrange the positions of the automatic telescopic devices to ensure the uniformity of the connection of the data lines. Therefore, the application is stably fixed on equipment through the mounting buckles 1c at two sides of the fixed mounting frame 1, and the fixed mounting frame 1 orderly arranges and fixes a plurality of automatic telescopic devices through the limiting slide rail 1 b. The data arrangement uniformity is effectively guaranteed.

Further, as shown in fig. 5 and 6:

The sliding mounting shell 2 comprises a limiting shell 2a and a locking cover 2b; the limiting shell 2a is slidably arranged in the limiting slide rail 1b of the fixed mounting frame 1, a limiting slide groove 2a1 is arranged in the limiting shell 2a in a sliding manner, and a plurality of insertion holes 2a2 are formed in two ends of the limiting shell 2 a; the locking covers 2b are provided with a plurality of locking covers and are symmetrically arranged at two ends of the limiting shell 2 a.

Based on the above embodiment, the technical problem to be solved by the application is that the automatic telescopic device is driven by limiting and fixing to be stably arranged on the fixed mounting frame 1, so that the automatic telescopic device is convenient to detach or maintain. For this reason, the application inserts into the spacing slide rail 1b of the fixed mounting rack 1 through the spacing shell 2a, the spacing chute 2a1 of spacing shell 2a is used for installing data line guide pillar 3, flexible resetting means 4 and winding mechanism 5, jack 2a2 at both ends of spacing shell 2a is used for positioning and installing locking lid 2b, locking lid 2b is used for locking the data line that passes. The spacing shell is convenient for spacing installation or dismantlement, effectively improves the convenience of maintenance.

Further, as shown in fig. 7 and 8:

the locking cover 2b comprises a fixed cover 2b1, a shrinkage chuck 2b2 and a locking head 2b6; a plurality of inserting rods are arranged on the fixed cover 2b1, and the inserting rods of the fixed cover 2b1 are matched with the inserting holes 2a2 of the limiting shell 2 a; the shrinkage chuck 2b2 is fixedly arranged at the axial center position of the fixed cover 2b 1; the locking head 2b6 is in threaded connection with the shrink chuck 2b 2.

Based on the above-described embodiment, the technical problem to be solved by the present application is to guide the data line through the sliding-mount case 2, locking the data line through the locking cover 2 b. Therefore, the data wire is drawn out from the sliding installation shell 2 by a worker, passes through the fixed cover 2b1, and is drawn out from the axis of the shrinkage chuck 2b2, and after the data wire with proper length is drawn out, the locking head 2b6 is rotated to be matched with the shrinkage chuck 2b2 to fixedly lock the drawn data wire. The stretched data line length is effectively fixed by the locking cap 2 b.

Further, as shown in fig. 9:

The shrink chuck 2b2 comprises a thread head 2b3, an elastic connecting strip 2b4 and a clamping block 2b5; the screw thread head 2b3 is fixedly arranged at the axle center position of the fixed cover 2b1, and a through hole is arranged in the screw thread head 2b3 and is communicated with the inside of the fixed cover 2b 1; the elastic connecting strips 2b4 are provided with a plurality of elastic connecting strips and are uniformly distributed by taking the thread heads 2b3 as the axes; one end of the elastic connecting strip 2b4 is fixedly connected with the thread head 2b 3; the clamping blocks 2b5 are provided with a plurality of clamping blocks and are uniformly distributed on the elastic connecting strip 2b4, the clamping blocks 2b5 are made of rubber, and the clamping blocks 2b5 and the elastic connecting strip 2b4 are fixedly connected with one end far away from the thread head 2b 3.

Based on the above embodiments, the technical problem to be solved by the present application is to stably clamp the data line. Therefore, the data wire is pulled out from the interior of the sliding installation shell 2, the data wire is penetrated out from the through hole of the thread head 2b3, after the data wire with proper length is pulled out, the locking head 2b6 is matched with the thread head 2b3 to press downwards when rotating, and the locking head 2b6 drives the clamping blocks 2b5 to shrink synchronously when pressing downwards, and the clamping blocks 2b5 clamp and fix the data wire while shrinking. The clamping blocks 2b5 made of rubber material can be synchronously contracted, so that the data line can be effectively fixed and clamped.

Further, as shown in fig. 10:

The inner wall of the locking head 2b6 is provided with an internal thread 2b7, one end of the locking head 2b6 is provided with a threading hole, and the inside of the locking head 2b6 is also provided with an extrusion guiding angle 2b8.

Based on the above embodiment, the technical problem to be solved by the present application is to synchronously drive the clamping blocks 2b5 to shrink. Therefore, the internal thread 2b7 on the inner wall of the locking head 2b6 is matched with the thread head 2b3 of the shrink chuck 2b2 to rotate, so that the locking head 2b6 is pressed down, and the extrusion guiding angle 2b8 inside the locking head 2b6 is synchronously abutted against the clamping block 2b5 of the thread head 2b 3. The clamping block 2b5 is effectively contracted and extruded to the data line synchronously by pressing the extrusion guide angle 2b8 and the clamping block 2b 5.

Further, as shown in fig. 11:

the inside of the data line guide post 3 is provided with a mounting through hole 3a, the outer side of the data line guide post 3 is provided with a thread guide rail 3b, the inside of the thread guide rail 3b is also provided with a sliding clamping groove 3c, and the outer side of the data line guide post 3 is also provided with a sliding clamping block 3d.

Based on the above embodiments, the technical problem to be solved by the present application is to guide the data line to move in a telescopic manner. For this reason, the sliding fixture block 3d of the data line guide post 3 is matched with the limit chute 2a1 of the sliding installation shell 2 for sliding installation, the installation through hole 3a of the data line guide post 3 is used for installing the telescopic resetting device 4, the thread guide rail 3b of the data line guide post 3 is used for limiting and guiding the telescopic movement of the data line, and the sliding fixture groove 3c in the thread guide rail 3b is used for guiding the sliding movement of the working end of the telescopic resetting device 4. When a worker pulls the data line, the data line on the winding mechanism 5 can extend outwards along the extending thread guide rail 3b, the data line drives the working end of the telescopic resetting device 4 to move along the sliding clamping groove 3c inside the thread guide rail 3b, the data line is guided to move in a telescopic manner through the thread guide rail 3b, the telescopic resetting distance of the data line can be effectively increased, and the stretching length of the data line is improved.

Further, as shown in fig. 12:

The telescopic resetting device 4 comprises a data wire clamping head 4a, a spring 4b and a mounting plate 4c; the data wire clamping head 4a is slidably arranged in the mounting through hole 3a of the data wire guide post 3, and the mounting plate 4c is fixedly arranged at one end of the data wire guide post 3; the spring 4b is arranged inside the data wire guide post 3, one end of the spring 4b is fixedly connected with the data wire clamping head 4a, and one end of the spring 4b, which is far away from the data wire clamping head 4a, is fixedly connected with the mounting plate 4 c.

Based on the above embodiments, the technical problem to be solved by the present application is to implement data line telescoping reset. Therefore, the data wire clamping head 4a clamps and fixes the data wire, the mounting plate 4c is used for fixing the position of the spring 4b, when the data wire is pulled outwards, the data wire stretches and contracts along the sliding of the threaded guide rail 3b of the data wire guide post 3, the data wire drives the data wire clamping head 4a to slide and move in the sliding clamping groove 3c of the threaded guide rail 3b, the data wire clamping head 4a drives the spring 4b to stretch when moving, the spring 4b generates rebound tension when stretching, and a worker stops stretching the spring 4b to drive the data wire clamping head 4a to shrink back to the original position, so that the rebound data wire is effectively and conveniently automatically shrunk.

Further, as shown in fig. 13:

The data line clamping head 4a comprises a mounting sliding block 4a1, a rotating frame 4a2 and a clamping sleeve 4a3; the installation sliding block 4a1 is slidably installed in the installation through hole 3a of the data line guide post 3; one end of a rotating frame 4a2 is rotatably arranged on the installation sliding block 4a1, and one end of the rotating frame 4a2 far away from the installation sliding block 4a1 is in sliding connection with a sliding clamping groove 3c in the threaded guide rail 3 b; the clamping sleeve 4a3 is fixedly connected with one end, far away from the installation sliding block 4a1, of the rotating frame 4a2, and the side part of the clamping sleeve 4a3 is in sliding connection with the threaded guide rail 3b of the data line guide post 3.

Based on the above embodiments, the technical problem to be solved by the present application is to fixedly clamp the data line and slide with the sliding clamping groove 3c of the data line guide post 3. Therefore, the application is connected with the spring 4b through the installation sliding block 4a1, the clamping sleeve 4a3 is used for being fixed on the outer side of the data line, when the data line is pulled outwards, the data line stretches and contracts along the sliding of the threaded guide rail 3b of the guide post 3 of the data line, the data line drives the clamping sleeve 4a3 to move at the same time, and the rotating frame 4a2 guides the clamping sleeve 4a3 to slide along the threaded guide rail 3b of the guide post. The clamping sleeve 4a3 and the data line can move in a telescopic way, and the data line can be effectively driven to return to the original position by being matched with the shrinkage of the spring 4 b.

Further, as shown in fig. 14:

The winding mechanism 5 comprises a fixed mounting shaft 5a, a winding wheel 5b and a spring roll 5c; the fixed mounting shaft 5a is fixedly mounted at the axial center position of the mounting plate 4 c; the winding wheel 5b is rotatably arranged on the fixed mounting shaft 5 a; the spiral spring coil 5c is arranged inside the winding wheel 5b, one end of the spiral spring coil 5c is fixedly connected with the fixed mounting shaft 5a, and one end of the spiral spring coil 5c, which is far away from the fixed mounting shaft 5a, is fixedly connected with the winding wheel 5 b.

Based on the above embodiments, the technical problem to be solved by the present application is to wind up and hold the data line. For this purpose, the application uses the winding wheel 5b to wind the data line, the fixed installation shaft 5a is used for installing the winding wheel 5b, and the spiral spring 5c is used for recovering the rotation of the winding wheel 5 b. When a worker pulls the data line, the data line on the winding wheel 5b can extend outwards along the threaded guide rail 3b, the spring coil 5c simultaneously contracts to generate rebound tension, and the spring coil 5c is matched with the telescopic reset device 4 when the tension is stopped, so that the data line can be wound rapidly.

According to the application, an automatic telescopic device is intensively placed through a fixed mounting frame 1, a sliding mounting shell 2 is used for mounting a data wire guide post 3, a winding mechanism 5 is used for winding a data wire to store the data wire in the sliding mounting shell 2, one end of the data wire passes through the sliding mounting shell 2 and is connected with cabinet equipment, the other end of the data wire passes through the movable end of a telescopic reset device 4, the data wire extends along a threaded guide rail 3b of the data wire guide post 3, and the data wire passes through the threaded guide rail 3b and passes out of the mounting shell. The staff has the length pull data line that the data line needs to use more, adjusts data line length, drives the data line when the data line pull and slides in the screw guide 3b of data line guide pillar 3, and the data line drives the expansion end of flexible resetting means 4 simultaneously and removes, and the data line drives the winding mechanism 5 simultaneously and rotates the release winding data line, and the staff of data line overlength loosens the data line, and flexible resetting means 4 cooperates winding mechanism 5 to adjust the data line internal contraction. The application effectively adjusts the length of the data line, avoids mess of the data line caused by overlong data length, can effectively improve the convenience of maintenance and improves the maintenance efficiency.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (7)

1. A fast-accommodating data jumper wire module comprises a fixed mounting rack (1) and an automatic telescopic device; the automatic telescopic devices are provided with a plurality of telescopic devices and are uniformly distributed in the fixed mounting frame (1); the automatic telescopic device is characterized by further comprising a sliding mounting shell (2), a data line guide post (3), a telescopic reset device (4) and a winding mechanism (5); the sliding installation shell (2) is arranged inside the fixed installation frame (1) in a sliding way, the data wire guide post (3) is arranged inside the fixed installation frame (1) in a sliding way, and a thread guide rail (3 b) is arranged on the outer side of the data wire guide post (3); the telescopic reset device (4) is fixedly arranged in the data line guide post (3), and the working end of the telescopic reset device (4) is in sliding connection with the threaded guide rail (3 b) of the data line guide post (3); the winding mechanism (5) is fixedly arranged at the end part of the telescopic reset device (4);

the inside of the data line guide post (3) is provided with a mounting through hole (3 a), the outer side of the data line guide post (3) is provided with a threaded guide rail (3 b), the inside of the threaded guide rail (3 b) is also provided with a sliding clamping groove (3 c), and the outer side of the data line guide post (3) is also provided with a sliding clamping block (3 d);

The telescopic reset device (4) comprises a data line clamping head (4 a), a spring (4 b) and a mounting plate (4 c); the data wire clamping head (4 a) is slidably arranged in the mounting through hole (3 a) of the data wire guide post (3), and the mounting plate (4 c) is fixedly arranged at one end of the data wire guide post (3); the spring (4 b) is arranged in the data wire guide post (3), one end of the spring (4 b) is fixedly connected with the data wire clamping head (4 a), and one end of the spring (4 b) away from the data wire clamping head (4 a) is fixedly connected with the mounting plate (4 c);

The data line clamping head (4 a) comprises a mounting sliding block (4 a 1), a rotating frame (4 a 2) and a clamping sleeve (4 a 3); the installation sliding block (4 a 1) is slidably installed in the installation through hole (3 a) of the data line guide post (3); one end of the rotating frame (4 a 2) is rotatably arranged on the installation sliding block (4 a 1), and one end of the rotating frame (4 a 2) far away from the installation sliding block (4 a 1) is in sliding connection with a sliding clamping groove (3 c) in the threaded guide rail (3 b); the clamping sleeve (4 a 3) is fixedly connected with one end, far away from the installation sliding block (4 a 1), of the rotating frame (4 a 2), and the side part of the clamping sleeve (4 a 3) is in sliding connection with the threaded guide rail (3 b) of the data line guide post (3).

2. The fast-accommodating data jumper wire module according to claim 1, wherein a plurality of limiting slide rails (1 b) are arranged in the fixed mounting frame (1), and mounting buckles (1 c) are arranged on two sides of the fixed mounting frame (1).

3. A quick-stowable data patch module according to claim 1, wherein the slide-mount housing (2) comprises a limit housing (2 a) and a locking cover (2 b); the limiting shell (2 a) is slidably arranged in the limiting sliding rail (1 b) of the fixed mounting frame (1), a limiting sliding groove (2 a 1) is formed in the limiting shell (2 a), and a plurality of jacks (2 a 2) are formed at two ends of the limiting shell (2 a); the locking covers (2 b) are provided with a plurality of locking covers and are symmetrically arranged at two ends of the limiting shell (2 a).

4. A quick-stowable data patch module according to claim 3, wherein the locking cap (2 b) comprises a fixed cap (2 b 1), a shrink chuck (2 b 2) and a locking head (2 b 6); a plurality of inserting rods are arranged on the fixed cover (2 b 1), and the inserting rods of the fixed cover (2 b 1) are matched with the inserting holes (2 a 2) of the limiting shell (2 a); the shrinkage chuck (2 b 2) is fixedly arranged at the axle center position of the fixed cover (2 b 1); the locking head (2 b 6) is in threaded connection with the shrinkage chuck (2 b 2).

5. A quick-stowable data jumper module according to claim 4, characterized in that the shrink chuck (2 b 2) comprises a screw head (2 b 3), an elastic connecting bar (2 b 4) and a clamping block (2 b 5); the screw thread head (2 b 3) is fixedly arranged at the axle center position of the fixed cover (2 b 1), a through hole is arranged in the screw thread head (2 b 3), and the screw thread head is communicated with the inside of the fixed cover (2 b 1); the elastic connecting strips (2 b 4) are provided with a plurality of elastic connecting strips, and the elastic connecting strips are uniformly distributed by taking the screw thread heads (2 b 3) as the axes; one end of the elastic connecting strip (2 b 4) is fixedly connected with the thread head (2 b 3); the clamping blocks (2 b 5) are provided with a plurality of clamping blocks and are uniformly distributed on the elastic connecting strip (2 b 4), the clamping blocks (2 b 5) are made of rubber, and the clamping blocks (2 b 5) are fixedly connected with one end, far away from the threaded head (2 b 3), of the elastic connecting strip (2 b 4).

6. The quick-accommodating data jumper module according to claim 4, wherein an inner wall of the locking head (2 b 6) is provided with an inner thread (2 b 7), one end of the locking head (2 b 6) is provided with a threading hole, and an extrusion guide angle (2 b 8) is further arranged in the locking head (2 b 6).

7. A fast-accommodating data jumper module according to claim 1, characterized in that the winding mechanism (5) comprises a fixed mounting shaft (5 a), a winding wheel (5 b) and a wind spring (5 c); the fixed mounting shaft (5 a) is fixedly mounted at the axle center position of the mounting plate (4 c); the winding wheel (5 b) is rotatably arranged on the fixed mounting shaft (5 a); the spiral spring coil (5 c) is arranged inside the winding wheel (5 b), one end of the spiral spring coil (5 c) is fixedly connected with the fixed mounting shaft (5 a), and one end of the spiral spring coil (5 c) away from the fixed mounting shaft (5 a) is fixedly connected with the winding wheel (5 b).