CN219799860U - Optical fiber channel convenient to dock - Google Patents

Abstract

The utility model relates to the technical field of optical fiber channels, in particular to an optical fiber channel convenient to butt, which comprises a butt joint block and a connecting piece, wherein the butt joint block and the connecting piece are arranged at the butt joint part of the optical fiber channel. Butt joint blocks at butt joint positions of different optical fiber channels are corresponding to each other in pairs, connecting holes are formed in the butt joint blocks, the connecting pieces are connected through the connecting holes to realize butt joint of the different optical fiber channels, limiting holes are formed in the outer sides of the connecting holes, corresponding limiting buttons are arranged on the connecting pieces, the limiting buttons can elastically lift and fall, the limiting buttons are fit in the limiting holes, and stability of the butt joint parts after butt joint through the connecting pieces is guaranteed. The utility model can be adapted to the butt joint and the switching of the optical fiber channel without specification and shape, so that the installation of the optical fiber channel is more convenient, and on the other hand, the butt joint and the dismounting processes of the optical fiber channel are simple and convenient, the traditional nuts and the like are not needed, the operation can be realized by a single person in a button mode, the working intensity is effectively reduced, and the working efficiency is improved.

Description

Optical fiber channel convenient to dock

Technical Field

The utility model relates to the technical field of optical fiber channels, in particular to an optical fiber channel convenient to butt joint.

Background

The optical fiber channel refers to a channel for fixing an optical fiber on a rack or a wall-mounted rack in an optical fiber transmission system, and is generally used in environments such as a data center and a server room; the optical fibers are transported through these channels while also being effectively protected and managed.

The optical fiber channels are required to be mutually subjected to operations such as butt joint and switching according to the field requirement in the process of use and installation, a butt joint assembly special for butt joint is often required to be used in the butt joint process of the existing optical fiber channels, the optical fiber channels to be butt-jointed are respectively inserted into two sides of the butt joint assembly, and then the optical fiber channels are fastened through screws, so that the installation effect is ensured; the butt joint operation of the optical fiber channel in the process has the great defect that a large number of connecting components are needed to be consumed in the whole process, the cost of the connecting components is high, the installation cost is increased, meanwhile, the screws are adopted for fastening, the installation is quite complicated due to the fact that the screws are numerous, the working efficiency is reduced, the condition that the leakage or the fastening is not in place easily occurs in the process, and certain potential safety hazards are provided.

Therefore, the optical fiber channel can be more quickly subjected to butt joint installation while the installation effect of the optical fiber channel is ensured, and the working efficiency is effectively improved, so that the problem to be solved in the prior art is solved.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides the optical fiber channel convenient to dock, so that the purposes of ensuring the docking installation effect of the optical fiber channel and simultaneously realizing quick docking of different optical fiber channels and effectively improving the working efficiency are achieved.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a fiber channel convenient to butt joint, includes the butt joint piece of evenly arranging in different fiber channel butt joints department, the butt joint piece pairwise correspond, be provided with the butt joint hole in the butt joint piece, the spacing hole has been seted up to the outside one side of butt joint hole, is connected with the connecting piece through the butt joint piece of both sides, the connecting piece includes main part, main part agrees with mutually with the butt joint hole, the mounting groove has been seted up at main part both ends, spacing button is installed in the mounting groove in the elasticity lift, spacing button agrees with mutually with spacing hole.

Further, the optical fiber channel comprises a straight channel and a curved channel, the curved channel comprises a curved part and a connecting part, and the butt joint block is arranged at the periphery of the opening of the straight channel and the periphery of the connecting part of the curved channel.

Further, the mounting groove comprises a limit button mounting groove and an elastic mechanism mounting groove, wherein the limit button mounting groove is communicated with the elastic mechanism mounting groove through a communication hole, an elastic mechanism is mounted in the elastic mechanism mounting groove, and the elastic mechanism is connected with a limit button in the limit button mounting groove.

Further, the elastic mechanism mounting groove inboard periphery arrange spacing protruding edge, elastic mechanism is including the base plate, fixedly connected with spring on the base plate, peg graft at the other end of spring and have rotating assembly, rotating assembly periphery is provided with spacing, spacing and spacing protruding edge cooperate, spacing front end is provided with the engaging portion, rotating assembly other end is connected with propulsion subassembly, is provided with the meshing tooth in propulsion subassembly, the meshing tooth meshes with the engaging portion, is provided with spacing arch at propulsion subassembly's periphery, spacing protruding and spacing protruding edge cooperate, propulsion subassembly's top and spacing button detachable connection.

Further, a channel is formed between every two of the limiting protruding edges, the limiting protruding edges are arranged at the middle position above the meshing teeth in space, and the limiting protruding edges are always located in the channel and can move freely in the channel.

Further, the channels are divided into a limiting channel and a straight-through channel, the limiting channels and the straight-through channels are arranged in a staggered mode, the limiting strips are sequentially switched between the straight-through channels and the limiting channels under the action of the propulsion component, the limiting strips freely move in the straight-through channels, and the limiting channels limit the moving distance of the limiting strips.

The utility model has the beneficial effects that:

1. the butt joint of different light channels can be realized through the connecting piece, so that the production of the optical fiber channel connecting piece is standardized, and the industrial production is facilitated;

2. the quick installation and the dismantlement of connecting piece can be realized through the spacing button in the connecting piece, and other instruments are unnecessary to the in-process, but single person's operation and the efficiency of promotion installation and dismantlement that can be great, the while is connected stably, has guaranteed the installation effect.

Drawings

FIG. 1 is a schematic illustration of the configuration of the present utility model with different types of channels engaged;

FIG. 2 is a schematic view of the structure of the butt joint block according to the present utility model;

FIG. 3 is a schematic view of the structure of the connector of the present utility model;

FIG. 4 is a schematic view of the spring mechanism of the present utility model with components assembled;

fig. 5 is a schematic view (exploded view) of the elastic mechanism of the present utility model with its components broken away.

Name corresponding to each label in the figure:

1. a straight channel; 2. a curved channel; 21. a curved portion; 22. a connection portion; 3. a butt joint block; 31. a butt joint hole; 32. a limiting hole; 4. a connecting piece; 41. a mounting groove; 411. a limit button mounting groove; 4111. a communication hole; 412. an elastic mechanism mounting groove; 4121. limiting convex edges; 4122. a restricted passage; 4123. a straight-through channel; 4124. a substrate groove; 4125. a threaded hole A; 42. a limit button; 421. a threaded hole B; 43. a main body portion; 5. an elastic mechanism; 51. a substrate; 511. a fixing hole; 512. a spring; 52. a rotating assembly; 521. a plug-in part A; 522. a limit bar; 5221. an engagement portion; 523. a plug-in part B; 53. a propulsion assembly; 531. meshing teeth; 532. a limit protrusion; 533. a plug hole; 534. a threaded connection.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art based on the embodiments of the present utility model are within the scope of protection of the present utility model.

Embodiments of the utility model:

as shown in fig. 1 to 3, in the present embodiment, a straight channel 1 and a curved channel 2 are provided, a curved portion 21 and a connecting portion 22 are provided in the curved channel 2, wherein the connecting portion 22 is in a linear shape, a butt joint block 3 is arranged at the periphery of the butt joint of the straight channel 1 and the connecting portion 22, the butt joint 3 on the straight channel 1 and the curved channel 2 is connected by a connecting member 4, wherein a square butt joint hole 31 is provided on the butt joint 3, a square limit hole 32 is provided on the side outside the butt joint hole 31, a main body portion 43 of the connecting member 4 is engaged with the connecting hole 31, a mounting groove 41 is provided on the main body portion 43, limit buttons 42 are elastically mounted in the mounting groove 41, and the limit buttons 42 are engaged with the limit holes 32 on the butt joint block 3 of the straight channel 1 and the curved channel 2, respectively.

As shown in fig. 3 to 5, the mounting groove 41 of the main body portion 43 is composed of two parts of a limit button mounting groove 411 and an elastic mechanism mounting groove 412, the limit button mounting groove 411 is communicated with the elastic mechanism mounting groove 412 through a communication hole 4111, the elastic mechanism mounting groove 412 is cylindrical, the inner diameter of the elastic mechanism mounting groove is larger than the diameter of the communication hole 4111, limit ribs 4121 are uniformly distributed on the periphery inside the elastic mechanism mounting groove 412, the number of the limit ribs 4121 is eight, a substrate groove 4124 is arranged below the elastic mechanism mounting groove 412, the substrate groove 4124 is matched with the substrate 51, wherein a fixing hole 511 is arranged on the substrate 51, a threaded hole a4125 is arranged on the substrate groove 4124, the fixing and fixing of the substrate 51 can be realized by connecting a fastening bolt in the fixing hole 511 and the threaded hole a4125, a spring 512 is fixedly connected on the substrate 51, the rotating assembly 52 is spliced in the spring 512, wherein a plug-in part A521 is arranged below the rotating component 52, the plug-in part A521 is plugged in the spring 512, limit bars 522 are arranged at the periphery of the rotating component 52, the number of the limit bars 522 is four, the limit bars 522 are matched with limit convex edges 4121, an engaging part 5221 is arranged above the limit bars 522, a plug-in part B523 is arranged on the rotating component 52, the plug-in part B523 is connected with the propelling component 53, a plug-in hole 533 is arranged in the propelling component 53, the plug-in hole 533 is matched with the plug-in part B523, engaging teeth 531 are arranged at the periphery below the propelling component 53, the engaging teeth 531 are engaged with the engaging parts 5221, the number of the engaging teeth 531 is eight, limit protrusions 532 are arranged at the periphery of the propelling component 53, the limit protrusions 532 are matched with the limit convex edges 4121, a threaded connecting part 534 is arranged above the propelling component 53, the upper end of the pushing component 53 extends out of the communication hole 4111 and is connected with the limit knob 42 through the threaded connection portion 534, a threaded hole B421 matched with the threaded connection portion 534 is arranged below the limit knob 42, and meanwhile, the depth of the limit knob mounting groove 411 needs to be larger than the thickness of the limit knob 42.

The principle of the utility model is as follows:

the utility model is simple and convenient in use, is very convenient for butt joint and switching in the installation process of the optical fiber channel, presses the limiting button 42 on the connecting piece 4 in the process, enables the limiting button 42 to be positioned in the limiting button installation groove 411, then respectively inserts two ends of the connecting piece 4 into the butt joint holes 31 needing to be butted with the optical fiber channel, aligns the limiting button 42 with the limiting holes 32 after the splicing is finished, presses the limiting button 42 again at the moment, and then ejects the limiting button 42 upwards and is fit in the limiting holes 32, so that the connecting piece 4 cannot fall off, the butt joint and the installation of the optical fiber channel are completed, presses the limiting button 42 when the disassembly is needed, and descends into the limiting button installation groove 411 again, and pulls the butted optical fiber channels to be separated.

When the elastic mechanism 5 of the utility model can realize that the limit button 42 is pressed down, the limit button 42 descends into the limit button mounting groove 411, at the moment, the limit button 42 does not spring upwards, and when the limit button 42 is pressed down again, the limit button 42 springs upwards, and then the limit button 42 is clamped in the limit hole 32, so that the connecting piece 4 plays a role in connection and fixation, and the principle in the whole process is as follows:

when the limiting button 42 is pressed down, the limiting button 42 drives the pushing component 42 to move, the pushing component 42 can only move linearly under the action of the limiting protrusion 532 and the limiting protruding edge 4121, and is meshed with the meshing teeth 531 at the front end of the pushing component 42 and the meshing part 5221 of the rotating component 52, so that the movement of the pushing component 42 drives the rotating component 52 to move forward, the rotating component 52 does not rotate initially due to the action of the limiting bar 522 on the rotating component 52 and the limiting protruding edge 4121, and the rotating component 52 rotates when the limiting bar 533 moves forward to be separated from the limiting protruding edge 4121, the rotating component 52 rotates during the process due to the shape and the spatial arrangement of the limiting protruding edge 4121 and the action of the spring 512, the limiting protrusion 532 corresponds to the limiting protruding edge 4121, each of the spacing protrusions 532 is located in a channel formed between the two spacing ribs 4121 (note that, no matter the spacing protrusion 532 is limited by the limiting channel 4122 or the through channel 4123, that is, the thickness of the spacing protrusion 532 is smaller), so that the propulsion assembly 42 can move linearly under the action of the spacing ribs 4121, and at the same time, there is a certain requirement for the control arrangement of the spacing protrusions 532 and the engagement teeth 531, as shown in fig. 5, the spacing protrusions 532 are located at the middle part of the engagement teeth 531, so that when the engagement teeth 531 engage with the engagement portions 5221, only half of the engagement teeth 531 are engaged, and the other half are blocked by the spacing ribs 4121, so that when the spacing bar 522 is separated from the spacing ribs 4121, the engagement teeth 531 engage with the engagement portions 5221 further under the action of the spring 512, thereby rotating, such classical linear motion becomes a rotary mechanical structure, the present utility model is applicable to various types of automatic ball point pens, and the structural principles thereof will be understood by those skilled in the art after the above description.

The rotation of the rotating assembly 52 described above, the limiting bar 522 can be circularly switched in the channel formed by the mutually limiting ribs 4121 during the process, the limiting bar 522 is limited by the limiting channel 4122 during the process, when the limiting bar 522 is located in the channel, the limiting button 42 is at a low level, and the through channel 4123 does not limit the limiting bar 522, and the limiting bar 522 can be lifted to the highest position under the action of the spring 512, at this time, the limiting button 42 is at a low level, so that the connecting piece 4 is circularly reciprocated, and the convenient dismounting process of the connecting piece 4 is realized.

Claims (6)

1. An optical fiber channel convenient to dock, its characterized in that: including butt joint piece (3) of evenly arranging in different optic fibre channel butt joints department, butt joint piece (3) pairwise correspond, be provided with butt joint hole (31) in butt joint piece (3), spacing hole (32) have been seted up to one side outside butt joint hole (31), be connected with connecting piece (4) through butt joint piece (3) of both sides, connecting piece (4) include main part (43), main part (43) agree with butt joint hole (31), mounting groove (41) have been seted up at main part (43) both ends, elastic lifting installs spacing button (42) in mounting groove (41), spacing button (42) agree with spacing hole (32) mutually.

2. A fiber channel for facilitating docking according to claim 1, wherein: the optical fiber channel comprises a straight channel (1) and a bent channel (2), wherein the bent channel (2) comprises a bent part (21) and a connecting part (22), and the butt joint block (3) is arranged on the periphery of the opening of the straight channel (1) and the periphery of the connecting part (22) of the bent channel (2).

3. A fiber channel for facilitating docking according to claim 1, wherein: the mounting groove (41) comprises a limit button mounting groove (411) and an elastic mechanism mounting groove (412), wherein the limit button mounting groove (411) is communicated with the elastic mechanism mounting groove (412) through a communication hole (4111), an elastic mechanism (5) is mounted in the elastic mechanism mounting groove (412), and the elastic mechanism (5) is connected with a limit button (42) in the limit button mounting groove (411).

4. A fiber channel for facilitating docking according to claim 3, wherein: the elastic mechanism mounting groove (412) inside periphery arrange spacing protruding rib (4121), elastic mechanism (5) are including base plate (51), fixedly connected with spring (512) on base plate (51), peg graft at the other end of spring (512) and have rotating assembly (52), rotating assembly (52) periphery is provided with spacing strip (522), spacing strip (522) cooperatees with spacing protruding rib (4121), the front end of spacing strip (522) is provided with engaging part (5221), rotating assembly (52) other end is connected with propulsion subassembly (53), be provided with meshing tooth (531) in propulsion subassembly (53), meshing tooth (531) meshes with engaging part (5221), be provided with spacing protruding (532) in the periphery of propulsion subassembly (53), spacing protruding (532) cooperatees with spacing protruding rib (4121), the top of propulsion subassembly (53) is dismantled with spacing button (42).

5. A fiber channel for facilitating docking according to claim 4, wherein: the limiting ribs (4121) form channels between every two, the limiting protrusions (532) are arranged at the middle position above the meshing teeth (531) in space, and the limiting protrusions (532) are always located in the channels and can move freely in the channels.

6. A fiber channel for facilitating docking according to claim 5, wherein: the channels are divided into a limiting channel (4122) and a straight-through channel (4123), the limiting channel (4122) and the straight-through channel (4123) are arranged in a staggered mode, the limiting strips (522) are sequentially switched between the straight-through channel (4123) and the limiting channel (4122) under the action of the pushing assembly (53), the limiting strips (522) move freely in the straight-through channel (4123), and the limiting channels (4122) limit the moving distance of the limiting strips (522).