CN215986629U - Novel intelligent optical fiber multiplier - Google Patents

Abstract

The utility model discloses a novel intelligent optical fiber multiplier, which belongs to the technical field of intelligent optical fiber multipliers. The utility model discloses a, the multiplier body can the locking device contact at the inside gliding in-process of mounting box, inside until the multiplier body inserts the mounting box completely, locking device can fix the multiplier body on the mounting box this moment, and then accomplish the installation to the multiplier body, when needing to dismantle the maintenance, only need to take out the multiplier body to the locking device unblock, the in-process is very convenient and fast, the efficiency of maintenance is improved, when multiplier body operation process produces the heat after that, start heat abstractor, heat abstractor can dispel the heat to the mounting box is inside, and then guarantee the inside electric normal use of multiplier body, the life of multiplier body is improved.

Description

Novel intelligent optical fiber multiplier

Technical Field

The utility model relates to the technical field of intelligent optical fiber multipliers, in particular to a novel intelligent optical fiber multiplier.

Background

The optical fiber multiplication is mainly used for realizing the rapid expansion of the fiber core, the use efficiency of the fiber core of the optical cable can be greatly improved, and the occupation of the pipe hole resources in the urban area is reduced to the maximum extent.

At present, intelligence optical fiber multiplier needs regularly to overhaul in the use, and current intelligence optical fiber multiplier is usually through bolt and electronic box or wall connection, and it is very troublesome when leading to dismantling the installation, influences maintenance efficiency to intelligence optical fiber multiplier can produce certain heat at the during operation, and the heat can influence its inside electric life if not in time discharge, so needs novel intelligence optical fiber multiplier.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model aims to provide a novel intelligent optical fiber multiplier to solve the problems that the existing intelligent optical fiber multiplier is usually connected with an electric box or a wall body through a bolt, so that the disassembly and the assembly are very troublesome, the maintenance efficiency is influenced, the intelligent optical fiber multiplier can generate certain heat during working, and the service life of the electric inside the intelligent optical fiber multiplier is influenced if the heat is not timely discharged.

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a novel intelligence optical fiber multiplier, includes the multiplier body, the bottom cover of multiplier body is equipped with the mounting box, be provided with locking device on the mounting box, be provided with heat abstractor on the mounting box, locking device includes two drive frames, two the front of drive frame and the back all with the inner wall sliding connection of mounting box, each the drive groove of two rectangular shapes all has been seted up on the drive frame, be provided with the locking structure on the mounting box, two the inner wall in drive groove contacts with the one end of two locking structures respectively.

Compared with the prior art, the novel intelligent optical fiber multiplier disclosed by the utility model can be taken out only by unlocking the locking device when the novel intelligent optical fiber multiplier needs to be disassembled and maintained, so that the process is very convenient and fast, and the maintenance efficiency is improved. To the heat that multiplier body operation process produced, accessible heat abstractor dispels the heat to the mounting box is inside, and then guarantees the inside electric normal use of multiplier body, improves the life of multiplier body.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of a novel intelligent fiber multiplier according to the present invention;

FIG. 2 is a front cross-sectional view of the mounting box of the present invention;

FIG. 3 is a schematic view of the connection between the driving groove and the locking structure according to the present invention;

fig. 4 is a front sectional view of the cover plate of the present invention.

The reference numbers in the figures illustrate:

1. a multiplier body; 2. mounting a box; 201. mounting a plate; 202. mounting holes; 3. a locking device; 301. a drive frame; 302. a drive slot; 303. a locking structure; 31. a cover plate; 32. an L-shaped rod; 33. a first spring; 34. a guide wheel; 35. a limiting structure; 51. a locking lever; 52. a second spring; 4. a heat sink; 401. a fan; 402. a water box; 403. a cooling tube; 5. a rubber pad; 6. and (4) cooling fins.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention;

referring to fig. 1 to 4, a preferred embodiment of the novel intelligent optical fiber multiplier of the present invention includes a multiplier body 1, a mounting box 2 is sleeved at the bottom of the multiplier body 1, a locking device 3 is disposed on the mounting box 2, and a heat dissipation device 4 is disposed on the mounting box 2.

In the utility model, when in use, the mounting box 2 is fixed at a proper position, then the optical fiber is connected with the multiplier body 1, the multiplier body 1 is inserted into the mounting box 2, the locking device 3 is contacted in the process that the multiplier body 1 slides in the mounting box 2 until the multiplier body 1 is completely inserted into the mounting box 2, at the moment, the locking device 3 can fix the multiplier body 1 on the mounting box 2, so that the mounting of the multiplier body 1 is completed, when the multiplier body 1 needs to be disassembled and overhauled, the multiplier body 1 can be taken out only by unlocking the locking device 3, the process is very convenient and quick, the overhauling efficiency is improved, when the multiplier body 1 generates heat in the running process, the heat dissipation device 4 is started, the heat dissipation device 4 can dissipate the heat in the mounting box 2, so that the normal use of the electricity in the multiplier body 1 is ensured, the service life of the multiplier body 1 is improved.

Please refer to fig. 1, in which: the equal fixedly connected with mounting panel 201 in the left and right sides of mounting box 2 has all seted up mounting hole 202 on four mounting panels 201.

In the utility model, the mounting box 2 can be conveniently fixed at a proper position by a user through the mounting holes 202 on the mounting plates 201 fixedly connected with the left side and the right side of the mounting box 2, thereby improving the practicability of the device.

Specifically, please refer to fig. 2 in detail, wherein: locking device 3 includes two drive frames 301, two drive frames 301 the front and the back all with the inner wall sliding connection of mounting box 2, all seted up two drive grooves 302 on two drive frames 301, be provided with locking structure 303 on the mounting box 2, the inner wall of two drive grooves 302 contacts with two locking structure 303 respectively.

In the utility model, when the multiplier body 1 is installed, the multiplier body 1 is firstly inserted into the installation box 2, the multiplier body 1 is contacted with the driving frame 301 in the process, the driving frame 301 is driven to descend by the multiplier body 1 along with the descending of the multiplier body 1, the locking structure 303 is driven by the driving groove 302 after the driving frame 301 descends until the multiplier body 1 is completely inserted into the installation box 2, and at the moment, the locking structure 303 fixes the multiplier body 1 on the installation box 2, thereby completing the installation of the multiplier body 1.

Please refer to fig. 2 and fig. 3, wherein: the inside of mounting box 2 is provided with two rubber pads 5, and the bottom of two rubber pads 5 respectively with two drive frame 301 fixed connection.

In the utility model, the arrangement of the rubber pad 5 can reduce the abrasion between the multiplier body 1 and the driving frame 301, thereby prolonging the service life of the device.

Please refer to fig. 1-4, wherein: locking structure 303 includes apron 31, the bottom and the mounting box 2 sliding connection of apron 31, the bottom sliding connection of apron 31 has two L shape poles 32, two equal fixedly connected with springs 33 in L shape pole 32's the top, the other end of two springs 33 all with apron 31 fixed connection, the other end of two L shape poles 32 all runs through and extends to the inside of mounting box 2, two equal fixedly connected with guide pulleys 34 in one side relatively of L shape pole 32, the outside of two guide pulleys 34 respectively with the inner wall contact of two drive grooves 302, be provided with limit structure 35 on the apron 31.

According to the utility model, as the multiplier body 1 descends, the multiplier body 1 can drive the driving frame 301 to descend, the driving frame 301 can extrude the two guide wheels 34 through the driving groove 302 after descending, the two guide wheels 34 can move along the inner wall of the driving groove 302 after being extruded, the guide wheels 34 can drive the L-shaped rod 32 to move in the process, the L-shaped rod 32 can extrude the first spring 33, the elastic force of the first spring 33 can drive the cover plate 31 to move towards the multiplier body 1 until the multiplier body 1 is completely inserted into the mounting box 2, the elastic force of the first spring 33 can drive the cover plate 31 to move to the top of the multiplier body 1 so as to limit the multiplier body 1, then the limiting structure 35 can be ejected into the multiplier body 1 so as to limit the multiplier body, the multiplier body 1 is fixed, and the multiplier body 1 is prevented from shaking.

Please refer to fig. 1-4, wherein: the limiting structure 35 includes a locking rod 51, the bottom end of the locking rod 51 is inserted into the cover plate 31, a second spring 52 is sleeved on the locking rod 51, and two ends of the second spring 52 are respectively fixedly connected with the locking rod 51 and the cover plate 31.

In the utility model, after the multiplier body 1 is completely inserted into the mounting box 2, the elastic force of the first spring 33 can drive the cover plate 31 to move to the top of the multiplier body 1, so that the multiplier body 1 is limited, then the elastic force of the second spring 52 can drive the locking rod 51 to be inserted into the top of the multiplier body 1, so that the locking rod is limited, the multiplier body 1 is fixed, the situation that the multiplier body 1 shakes is avoided, when the multiplier body 1 needs to be disassembled for maintenance, the limitation on the multiplier body 1 can be lost by pulling the locking rod 51, and the multiplier body 1 can be taken out for maintenance.

Please refer to fig. 1 and fig. 2, wherein: heat abstractor 4 includes fan 401, and on fan 401 inlayed and located mounting box 2, the bottom fixedly connected with water box 402 of mounting box 2, two cooling tubes 403 had been alternate on the water box 402, and the top of two cooling tubes 403 all is linked together with the inner wall of mounting box 2.

In the utility model, when the multiplier body 1 generates heat in the running process, the fan 401 is started, the fan 401 can extract the heat generated by the multiplier body 1, then the pressure difference is generated between the inside of the mounting box 2 and the outside, at the moment, the outside air can enter the inside of the mounting box 2 through the cooling pipe 403, the cooling liquid in the water box 402 can exchange heat with the sucked air through the cooling pipe 403 in the process, the air temperature is further reduced, when the air with the reduced temperature enters the inside of the mounting box 2, the heat dissipation effect on the multiplier body 1 can be improved, and the service life of the device is prolonged.

Please refer to fig. 2, in which: two cooling fins 6 are installed on the inner bottom wall of the water box 402, and the bottom ends of the two cooling fins 6 penetrate and extend to the bottom of the water box 402.

In the utility model, the two cooling fins 6 arranged on the inner bottom wall of the water box 402 can be started to cool the cooling liquid, so that the effect of cooling sucked air is improved, the heat dissipation capacity of the multiplier body 1 is enhanced, and the service life of the device is prolonged.

The working principle is as follows: when the optical fiber multiplier is used, firstly, the mounting box 2 is fixed at a proper position, then, after the optical fiber is connected with the multiplier body 1, the multiplier body 1 is inserted into the mounting box 2, the multiplier body 1 is contacted with the driving frame 301 in the process, the multiplier body 1 can drive the driving frame 301 to descend along with the descending of the multiplier body 1, the driving frame 301 can extrude the two guide wheels 34 through the driving groove 302 after descending, the two guide wheels 34 can move along the inner wall of the driving groove 302 after being extruded, the guide wheels 34 can drive the L-shaped rod 32 to move in the process, the L-shaped rod 32 can extrude the first spring 33, the elastic force of the first spring 33 can drive the cover plate 31 to move towards the multiplier body 1, and after the multiplier body 1 is completely inserted into the mounting box 2, the elastic force of the first spring 33 can drive the cover plate 31 to move to the top of the multiplier body 1 so as to limit the multiplier body 1, then the elastic force of the second spring 52 drives the locking rod 51 to be inserted into the top of the multiplier body 1 to limit the position of the locking rod, so that the multiplier body 1 is fixed, the situation that the multiplier body 1 shakes is avoided, when the multiplier body 1 needs to be disassembled and overhauled, the locking rod 51 is pulled to lose the position of the multiplier body 1, the multiplier body 1 can be taken out for overhauling, when the multiplier body 1 generates heat in the operation process, the fan 401 is started, the fan 401 can extract the heat generated by the multiplier body 1, then the pressure difference is generated between the inside of the mounting box 2 and the outside, at the moment, the outside air enters the mounting box 2 through the cooling pipe 403, in the process, the cooling liquid in the water box 402 can exchange heat with the sucked air through the cooling pipe 403, the temperature of the air is reduced, and when the air with reduced temperature enters the mounting box 2, the heat dissipation effect on the multiplier body 1 can be improved, and the service life of the device is prolonged.

The above are merely preferred embodiments of the present invention; the scope of the utility model is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (7)

1. A novel intelligent optical fiber multiplier comprises a multiplier body (1) and is characterized in that: the bottom of the multiplier body (1) is sleeved with a mounting box (2), a locking device (3) is arranged on the mounting box (2), and a heat dissipation device (4) is arranged on the mounting box (2); locking device (3) include two drive frame (301), two the front of drive frame (301) all with the back inner wall sliding connection of mounting box (2), each drive groove (302) of two rectangular shapes have all been seted up on drive frame (301), be provided with locking structure (303) on mounting box (2), two the inner wall of drive groove (302) contacts with the one end of two locking structure (303) respectively.

2. The novel intelligent fiber multiplier of claim 1, wherein: the equal fixedly connected with mounting panel (201), four in both sides about mounting box (2) mounting hole (202) have all been seted up on mounting panel (201).

3. The novel intelligent fiber multiplier of claim 1, wherein: two rubber pads (5) are arranged inside the mounting box (2), and the bottoms of the two rubber pads (5) are fixedly connected with the two driving frames (301) respectively.

4. The novel intelligent fiber multiplier of claim 1, wherein: locking structure (303) is including apron (31), the bottom and mounting box (2) sliding connection of apron (31), the bottom sliding connection of apron (31) has two L shape poles (32), two the equal fixedly connected with spring (33) in top of L shape pole (32), two the other end of spring (33) all with apron (31) fixed connection, two the other end of L shape pole (32) all runs through and extends to the inside of mounting box (2), two the equal fixedly connected with guide pulley (34) in relative one side of L shape pole (32), two the outside of guide pulley (34) respectively with the inner wall contact of two drive grooves (302), be provided with limit structure (35) on apron (31).

5. The novel intelligent fiber multiplier of claim 4, wherein: the limiting structure (35) comprises a locking rod (51), the bottom end of the locking rod (51) penetrates through the cover plate (31), a second spring (52) is sleeved on the locking rod (51), and two ends of the second spring (52) are fixedly connected with the locking rod (51) and the cover plate (31) respectively.

6. The novel intelligent fiber multiplier of claim 1, wherein: the heat dissipation device (4) comprises a fan (401), the fan (401) is embedded in the mounting box (2), the bottom of the mounting box (2) is fixedly connected with a water box (402), two cooling pipes (403) are inserted into the water box (402), and the top ends of the cooling pipes (403) are communicated with the inner wall of the mounting box (2).

7. The novel intelligent fiber multiplier of claim 6, wherein: two cooling fins (6) are installed on the inner bottom wall of the water box (402), and the bottom ends of the two cooling fins (6) penetrate through and extend to the bottom of the water box (402).

Images