CN218446101U - Corrosion-resistant outdoor connecting device of optical cable transceiver - Google Patents

Abstract

The utility model discloses an outdoor connecting device of corrosion resistant type of optical cable transceiver relates to optical cable transceiver connection technical field, including optical cable transceiver body, the outside of optical cable transceiver body is provided with the shell, one side of optical cable transceiver body is provided with coupling assembling, coupling assembling is including setting up the slot in optical cable transceiver body one side, one side of slot is provided with first connecting block, the opposite side of slot is provided with the second connecting block, coupling assembling includes the plug, plug and slot phase-match, one side of plug is provided with the third connecting block, the opposite side of plug is provided with the fourth connecting block, the utility model provides a current optical cable transceiver connecting device when connecting the optical cable, be not convenient for with optical cable fixed connection's problem, the utility model discloses an in inserting the slot with the plug, press first cylinder, the inside of draw-in groove is inserted to the long piece, loosen first cylinder, the second cylinder can the gomphosis in the inside of round hole to make plug fixed connection on the slot.

Description

Corrosion-resistant outdoor connecting device of optical cable transceiver

Technical Field

The utility model relates to an optical cable transceiver connects technical field, specifically is an outdoor connecting device of corrosion resistant type of optical cable transceiver.

Background

An optical cable transceiver is an ethernet transmission medium conversion unit for interchanging short-distance twisted pair electrical signals and long-distance optical signals, and is also called as an optical-electrical converter in many places, and the optical cable transceiver is generally applied in a practical network environment where ethernet cables cannot cover and optical fibers are needed to extend transmission distance, and is usually located in an access layer of a broadband metropolitan area network.

Current optical cable transceiver connecting device is when connecting the optical cable, is not convenient for with optical cable fixed connection, receives shaking of external force at the optical cable and makes the optical cable break away from connecting device easily, leads to the communication not smooth, and current optical cable transceiver connecting device is because of installing in the open air, and long-time exposing can receive certain corruption in the external world, meets the strong wind condition and can take place to drop and cause the problem of certain damage.

To address the above problems, a corrosion-resistant outdoor connection device for an optical cable transceiver is proposed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an outdoor connecting device of corrosion resistant type of optical cable transceiver, the cable transceiver connecting device that has now among the background art when connecting the optical cable has been solved, be not convenient for with optical cable fixed connection, it breaks away from connecting device easily to make the optical cable when the optical cable receives rocking of external force, lead to the communication not smooth, and current optical cable transceiver connecting device is because of installing in the open air, long-time exposing can receive certain corruption in the external world, meet the strong wind condition and probably take place to drop and cause the problem of certain damage.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an outdoor connecting device of corrosion resistant type of optical cable transceiver, including the optical cable transceiver body, the outside of optical cable transceiver body is provided with the shell, one side of optical cable transceiver body is provided with coupling assembling, coupling assembling is including setting up the slot in optical cable transceiver body one side, one side of slot is provided with first connecting block, the opposite side of slot is provided with the second connecting block, and first connecting block and second connecting block are the component that the looks isostructure is constituteed, coupling assembling includes the plug, plug and slot phase-match, one side of plug is provided with the third connecting block, the opposite side of plug is provided with the fourth connecting block, and third connecting block and fourth connecting block are the component that the isostructure is constituteed.

Preferably, one side of third connecting block is provided with the rectangular block, and the round hole has been seted up to the upper end of rectangular block, and the draw-in groove has been seted up to one side of first connecting block, and the rectangular block gomphosis has been seted up in the inside of draw-in groove in the upper end of first connecting block, and the inside activity gomphosis of circular groove is provided with first cylinder, and first cylindrical partial position is in the upper end of first connecting block.

Preferably, one side of the first cylinder is provided with a connecting rod, one end of the connecting rod is provided with a second cylinder, the middle of the connecting rod is provided with a connecting column in a rotating embedded mode, and the two ends of the connecting column are connected to the inner wall of the first connecting block.

Preferably, the lower end of the first cylinder is provided with a first spring, one end of the first spring is connected to the bottom of the first connecting block, a square block is arranged inside the first connecting block, the position of the square block corresponds to that of the clamping groove, a second spring is arranged on one side of the square block, and one end of the second spring is connected to the inner wall of the first connecting block.

Preferably, the outside of shell is provided with the anticorrosion protective layer, and the inside of shell is provided with the buffer board, and the upper end and this body coupling of optical cable transceiver of buffer board, the lower extreme of buffer board are provided with the buffering subassembly, and the buffering subassembly is provided with the multiunit.

Preferably, the temples of the shell are provided with long plates, the long plates are provided with two groups, two groups of long plates are provided with telescopic rods on one sides respectively, the telescopic rods are provided with two groups respectively, one side of each telescopic rod is provided with a fourth spring, and one ends of the four groups of telescopic rods are connected with the outer side of the optical cable transceiver body respectively.

Preferably, the buffer component comprises a first buffer block arranged at the lower end of the buffer plate, and a second buffer block is arranged at the lower end of the first buffer block.

Preferably, a connecting shaft is arranged between the first buffer block and the second buffer block, the first buffer block and the second buffer block are movably connected through the connecting shaft, a third spring is arranged between the first buffer block and the second buffer block, and the third springs are arranged in two groups.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a pair of outdoor connecting device of corrosion resistant type of optical cable transceiver, insert the plug in the slot, press first cylinder, the connecting rod can push down, first spring receives the extrusion, because the connecting rod passes through the spliced pole and has rotated and connected the second cylinder, so when first cylinder pushes down, the second cylinder can upwards rotate the lifting, the inside that the draw-in groove was inserted to the rectangular block this moment, loosen first cylinder, first spring-back, the second cylinder can rotate to initial position, the second cylinder can the gomphosis in the inside of round hole, thereby make plug fixed connection on the slot, the plug can break away from with the slot when having avoided rocking, make signal stability more, when needs break away from plug and slot, because the third connecting block can contact the square when inserting the draw-in groove, the second spring can be compressed, so when pressing first cylinder once more the second cylinder can separate with the round hole, the second spring-back, the square can pop out, make plug and slot separate.

2. The utility model provides a pair of outdoor connecting device of corrosion resistant type of optical cable transceiver, the shell exposes in the external world for a long time, the anticorrosion protective layer can play an anticorrosive effect, when the shell receives external factor to lead to dropping, the shell can receive the collision, the optical cable transceiver body can swing this moment, the buffer board can extrude first buffer block, because first buffer block passes through connecting axle swing joint with the second buffer block, so first buffer block can take place the slope, a set of third spring can receive the extrusion this moment, the third spring of another group can be stretched, the fourth spring of one side can be compressed, the fourth spring of opposite side can be stretched, the third spring of multiunit and the fourth spring of four groups can produce the power of a resilience, make the shell when bumping, the optical cable transceiver body can receive certain buffering, thereby the damage of optical cable transceiver body has been reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the connection assembly structure of the present invention;

fig. 3 is a schematic structural view of the first connecting block of the present invention;

fig. 4 is a schematic structural diagram of a first connecting block of the present invention;

FIG. 5 is a schematic structural view of the corrosion protection layer and the buffer assembly of the present invention;

fig. 6 is a schematic view of the structure of the buffer assembly of the present invention.

In the figure: 1. a housing; 11. an anti-corrosion protective layer; 12. a buffer plate; 13. a buffer assembly; 131. a first buffer block; 132. a second buffer block; 133. a connecting shaft; 134. a third spring; 14. a long plate; 15. a telescopic rod; 151. a fourth spring; 2. an optical cable transceiver body; 3. a connecting assembly; 31. inserting slots; 32. a first connection block; 321. a card slot; 322. a circular groove; 323. a first cylinder; 324. a second cylinder; 325. a connecting rod; 326. connecting columns; 327. a first spring; 328. a square block; 329. a second spring; 33. a second connecting block; 34. a plug; 35. a third connecting block; 351. a long block; 352. a circular hole; 36. and a fourth connecting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

Combine fig. 1 and fig. 2, the utility model discloses an outdoor connecting device of corrosion resistant type of optical cable transceiver, including optical cable transceiver body 2, optical cable transceiver body 2's the outside is provided with shell 1, one side of optical cable transceiver body 2 is provided with coupling assembling 3, coupling assembling 3 is including setting up slot 31 in optical cable transceiver body 2 one side, one side of slot 31 is provided with first connecting block 32, slot 31's opposite side is provided with second connecting block 33, and first connecting block 32 and second connecting block 33 are the component that the looks isostructure constitutes, coupling assembling 3 includes plug 34, plug 34 and slot 31 phase-match, one side of plug 34 is provided with third connecting block 35, plug 34's opposite side is provided with fourth connecting block 36, and third connecting block 35 and fourth connecting block 36 are the component that the isostructure constitutes.

The present invention will be further described with reference to the following examples.

The first embodiment is as follows:

with reference to fig. 2 to 4, one side of the third connecting block 35 is provided with a long block 351, a circular hole 352 is formed in the upper end of the long block 351, a clamping groove 321 is formed in one side of the first connecting block 32, the long block 351 is embedded in the clamping groove 321, a circular groove 322 is formed in the upper end of the first connecting block 32, a first cylinder 323 is movably embedded in the circular groove 322, a part of the first cylinder 323 is located at the upper end of the first connecting block 32, one side of the first cylinder 323 is provided with a connecting rod 325, one end of the connecting rod 325 is provided with a second cylinder 324, a connecting column 326 is arranged in the middle of the connecting rod 325 in a rotating and embedding manner, two ends of the connecting column 326 are connected to the inner wall of the first connecting block 32, a first spring 327 is arranged at the lower end of the first cylinder 323, one end of the first spring 327 is connected to the bottom of the first connecting block 32, a block 328 is arranged in the first connecting block 32, the block 328 corresponds to the position of the clamping groove 321, a second spring 329 is arranged at one side of the block 329, one end of the second spring 327 is connected to the inner wall of the first connecting block 32 by pressing the first cylinder 323, the first cylinder 327, the first cylinder 324, and the first cylinder is pressed and the first cylinder 327 and the first cylinder 324, and the first cylinder may be inserted into the first clamping groove 352, and may be lifted up, and be pushed, and the first cylinder 352.

Example two:

referring to fig. 5 and 6, an anti-corrosion protection layer 11 is disposed on the outer side of a housing 1, a buffer plate 12 is disposed inside the housing 1, the upper end of the buffer plate 12 is connected to an optical cable transceiver body 2, a buffer assembly 13 is disposed on the lower end of the buffer plate 12, and a plurality of sets of buffer assemblies 13 are disposed, a long plate 14 is disposed on the temporal portion of the housing 1, and two sets of long plates 14 are disposed, a telescopic rod 15 is disposed on each of two sets of long plates 14, and two sets of telescopic rods 15 are disposed, a fourth spring 151 is disposed on one side of each telescopic rod 15, one end of each of the four sets of telescopic rods 15 is connected to the outer side of the optical cable transceiver body 2, the buffer assembly 13 includes a first buffer block 131 disposed on the lower end of the buffer plate 12, and a second buffer block 132 is disposed on the lower end of the first buffer block 131, be provided with connecting axle 133 between first buffer block 131 and the second buffer block 132, first buffer block 131 passes through connecting axle 133 swing joint with second buffer block 132, be provided with third spring 134 between first buffer block 131 and the second buffer block 132, and third spring 134 is provided with two sets ofly, can play an anticorrosive effect through anticorrosion protection layer 11, first buffer block 131 receives the extrusion and can take place to rotate, a set of third spring 134 can be extrudeed, another set of third spring 134 can be stretched, two sets of third spring 134 can produce the power of kick-backing, when telescopic link 15 receives the extrusion, fourth spring 151 can receive the extrusion, fourth spring 151 can produce the power of kick-backing.

In summary, the following steps: when the plug 34 is inserted into the slot 31, the first cylinder 323 is pressed, the connecting rod 325 is pressed downwards, the first spring 327 is pressed, the connecting rod 325 is rotatably connected with the second cylinder 324 through the connecting rod 326, when the first cylinder 323 is pressed downwards, the second cylinder 324 rotates upwards and rises, the long block 351 is inserted into the slot 321, the first cylinder 323 is released, the first spring 327 rebounds, the second cylinder 324 rotates to the initial position, the second cylinder 324 is embedded into the round hole 352, so that the plug 34 is fixedly connected onto the slot 31, the situation that the plug 34 is separated from the slot 31 when swinging is avoided, a signal is more stable, when the plug 34 and the slot 31 need to be separated, because the third connecting block 35 contacts the block 328 when being inserted into the slot 321, the second spring 329 is compressed, and the second cylinder 324 is separated from the round hole 352 when the first cylinder 323 is pressed again, the second spring 329 rebounds, the round hole 352 is popped out by the block 328, so that the plug 34 is separated from the slot 31, the outer shell 1 is exposed to the outside for a long time, the anti-corrosion protection layer 11 plays a role of anti-corrosion, when the outer shell 1 falls due to external factors, the outer shell 1 is collided, the optical cable transceiver body 2 swings at the moment, the buffer plate 12 extrudes the first buffer block 131, the first buffer block 131 is movably connected with the second buffer block 132 through the connecting shaft 133, the first buffer block 131 inclines, the third springs 134 of one group are extruded at the moment, the third springs 134 of the other group are stretched, the fourth springs 151 of one side are compressed, the fourth springs 151 of the other side are stretched, and a rebounding force is generated by the third springs 134 of the plurality of groups and the fourth springs 151 of the four groups, so that the optical cable transceiver body 2 is buffered when the outer shell 1 collides, thereby reducing damage to the optical cable transceiver body 2.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an outdoor connecting device of corrosion resistant type of optical cable transceiver, includes optical cable transceiver body (2), its characterized in that: the outside of optical cable transceiver body (2) is provided with shell (1), one side of optical cable transceiver body (2) is provided with coupling assembling (3), coupling assembling (3) are including setting up slot (31) in optical cable transceiver body (2) one side, one side of slot (31) is provided with first connecting block (32), the opposite side of slot (31) is provided with second connecting block (33), and first connecting block (32) and second connecting block (33) are the component that the looks isostructure constitutes, coupling assembling (3) are including plug (34), plug (34) and slot (31) phase-match, one side of plug (34) is provided with third connecting block (35), the opposite side of plug (34) is provided with fourth connecting block (36), and third connecting block (35) and fourth connecting block (36) are the component that the isostructure constitutes.

2. The corrosion-resistant outdoor connection device for optical cable transceivers of claim 1, wherein: one side of third connecting block (35) is provided with long piece (351), and round hole (352) have been seted up to the upper end of long piece (351), and draw-in groove (321) have been seted up to one side of first connecting block (32), and long piece (351) gomphosis is in the inside of draw-in groove (321), and circular slot (322) have been seted up to the upper end of first connecting block (32), and the inside activity gomphosis of circular slot (322) is provided with first cylinder (323), and the part position of first cylinder (323) is in the upper end of first connecting block (32).

3. The corrosion-resistant outdoor connection device for optical cable transceivers of claim 2, characterized in that: one side of the first cylinder (323) is provided with a connecting rod (325), one end of the connecting rod (325) is provided with a second cylinder (324), the middle of the connecting rod (325) is provided with a connecting column (326) in a rotating and embedding manner, and two ends of the connecting column (326) are connected to the inner wall of the first connecting block (32).

4. The corrosion-resistant outdoor connection device for optical cable transceivers of claim 2, wherein: the lower end of the first cylinder (323) is provided with a first spring (327), one end of the first spring (327) is connected to the bottom of the first connecting block (32), a square block (328) is arranged inside the first connecting block (32), the square block (328) corresponds to the position of the clamping groove (321), one side of the square block (328) is provided with a second spring (329), and one end of the second spring (329) is connected to the inner wall of the first connecting block (32).

5. The corrosion-resistant outdoor connection device for optical cable transceivers of claim 1, wherein: the cable transceiver is characterized in that an anti-corrosion protective layer (11) is arranged on the outer side of the shell (1), a buffer plate (12) is arranged inside the shell (1), the upper end of the buffer plate (12) is connected with the cable transceiver body (2), a buffer assembly (13) is arranged at the lower end of the buffer plate (12), and multiple groups of buffer assemblies (13) are arranged.

6. The corrosion-resistant outdoor connection device for optical cable transceivers of claim 1, wherein: the temples of shell (1) are provided with long board (14), and long board (14) are provided with two sets ofly, two sets ofly one side of long board (14) be provided with telescopic link (15) respectively, and telescopic link (15) are provided with two sets ofly respectively, and one side of telescopic link (15) is provided with fourth spring (151), four sets ofly the one end of telescopic link (15) be connected with the optical cable transceiver body (2) outside respectively.

7. The corrosion-resistant outdoor connection device for optical cable transceivers of claim 5, wherein: the buffer component (13) comprises a first buffer block (131) arranged at the lower end of the buffer plate (12), and a second buffer block (132) is arranged at the lower end of the first buffer block (131).

8. The corrosion-resistant outdoor connection device for optical cable transceivers of claim 7, wherein: a connecting shaft (133) is arranged between the first buffer block (131) and the second buffer block (132), the first buffer block (131) and the second buffer block (132) are movably connected through the connecting shaft (133), a third spring (134) is arranged between the first buffer block (131) and the second buffer block (132), and the third spring (134) is provided with two groups.

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