CN114779416A - Optical cable connector box and installation method thereof - Google Patents

Abstract

The application discloses optical cable joint box, it includes the joint box body, set up in the lid at joint box body top, set up on the joint box body and the connecting plate on the lid, set up coupling assembling between two adjacent connecting plates, set up in the buffer unit at joint box body bottom and lid top, set up and be used for carrying out radiating radiator unit to the optical cable between joint box body inside and lid inside.

Description

Optical cable connector box and installation method thereof

Technical Field

The invention relates to the technical field of optical cable joint boxes, in particular to an optical cable joint box and an installation method thereof.

Background

The cable closure is a splicing part for connecting two or more optical cables together and having a protective member, which is necessary for the construction of cable lines and is one of very important equipments. The cover body on the existing optical cable joint box is not convenient to fix and easy to loosen, and the optical cable joint box is easy to be damaged by extrusion. Accordingly, there is a need for a cable closure and method of installing the same.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an optical cable joint box which has the effects of strong heat retention, good heat dissipation and stable cover body installation.

In order to achieve the purpose, the invention provides the following technical scheme:

an optical cable joint box comprises a joint box body, a cover body arranged at the top of the joint box body, connecting plates arranged on the joint box body and on the cover body, a connecting assembly arranged between two adjacent connecting plates, a buffer assembly arranged at the bottom of the joint box body and at the top of the cover body, and a heat dissipation assembly arranged between the interior of the joint box body and the interior of the cover body and used for dissipating heat of an optical cable.

Furthermore, the heat dissipation assembly comprises a positioning plate arranged in the joint box body, a sliding opening formed in the positioning plate, an I-shaped sliding body connected to the sliding opening in a sliding manner, and a heat dissipation fan arranged at the bottom of the I-shaped sliding body, and the cover body is further internally provided with a reciprocating transmission assembly used for driving the I-shaped sliding body to reciprocate.

Further, the reciprocating transmission assembly comprises a micro motor arranged at the right end of the cover body, a rotating rod which is arranged on the outer side wall of the box body in a penetrating mode and is fixedly connected with the output end of the micro motor in a coaxial rotating mode, a roller which is fixedly sleeved on the rotating rod, an annular groove which is obliquely arranged on the outer side wall of the roller, a transmission rod which is rotatably connected between the inner front side wall and the inner rear side wall of the cover body, a sector gear arranged at the bottom of the transmission rod, a rack which is arranged at the top of the I-shaped sliding body and is meshed with the sector gear, and a sliding rod which is vertically arranged at the top of the transmission rod and is connected into the annular groove in a sliding mode.

Further, the buffering subassembly includes the protection shield in the splice box body and the lid outside, sets up in splice box body bottom and two mounting grooves at lid top, sets up horizontal pole in the mounting groove, the slider on the horizontal pole is located to the movable sleeve, sets up between slider and the mounting groove inside wall and the damping spring of cover on locating the horizontal pole, rotates the connecting rod of connecting on the slider, the other end and the protection shield middle part of connecting rod rotate to be connected.

Furthermore, the connecting assembly comprises a first plate and a second plate which are arranged on the connecting plate in a penetrating mode, a first connecting column arranged on the first plate and a second connecting column arranged on the second plate, the first connecting column and the second connecting column are mutually inserted, a limiting assembly is further arranged between the first connecting column and the second connecting column, the limiting assembly comprises a circular cutting concave part arranged on the outer edge of the bottom of the first connecting column, two grooves symmetrically arranged at the tops of the circular cutting concave part, an opening arranged on the outer side wall of the connecting column and communicated with the grooves, a limiting groove arranged on the outer edge of the connecting column and corresponding to the grooves, a limiting rod arranged at the opening of the groove and inserted into the limiting groove in a penetrating mode, a limiting spring fixedly arranged between the limiting rod and the inner side wall of the groove, and a pull rod arranged at the opening and fixedly connected with the limiting rod.

Furthermore, the top of the second connecting column is provided with a first slot, and the first connecting column is inserted into the second slot along the circular cutting concave part.

Furthermore, a second slot is formed in the top of the first connecting column, an inserting rod inserted into the second slot is arranged in the first slot, a threaded convex ring is arranged on the inserting rod, a wedge block matched with the convex ring for use is arranged on the second slot, and a guide inclined plane for the inserting rod to rapidly enter the second slot through the convex ring is arranged on the wedge block.

Furthermore, the inserted bar is connected with an inner side wall of the slot through a jacking assembly, and the jacking assembly comprises a transverse plate which is arranged in the slot I and is fixedly connected with the bottom of the inserted bar, two telescopic rods which are arranged between the transverse plate and the inner bottom of the slot I in a bilateral symmetry mode, and a jacking spring which is sleeved on the telescopic rods.

Further, the diaphragm is connected with an inner side wall of the slot in a sliding manner, sliding grooves are formed in the left side wall and the right side wall of the slot in the sliding manner, and the diaphragm is connected between the two sliding grooves in a sliding manner.

Adopt foretell a scheme, through setting up radiator unit, utilize the rotation of fan, play radiating effect to the optical cable. When the fan is used, the micro motor is started to drive the rotating rod to rotate, the rotating rod drives the roller to rotate, the roller drives the annular groove to rotate, the annular groove drives the sliding rod to move, the sliding rod drives the transmission rod to swing, the transmission rod drives the sector gear to swing, and the sector gear drives the I-shaped sliding body to reciprocate, so that the fan can reciprocate.

The invention also discloses an installation method of the optical cable joint box, which comprises the following steps:

the method comprises the following steps:

s1, installing a buffer assembly: firstly, mounting grooves are formed in the cover body and the joint box body, and then a cross rod, a sliding block, a buffer spring, a connecting rod and a protection plate are sequentially mounted;

s2, mounting a connecting assembly: firstly, inserting the first connecting column and the second connecting column on a connecting plate, and then installing the rest parts;

s3, installing a heat dissipation assembly: firstly, the transverse plate is installed, and then the rest parts are installed.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a heat dissipation assembly in an embodiment of the invention.

Reference numerals

1. A first plate; 2. a second plate; 3. connecting a column I; 4. connecting a second column; 5. a first slot; 6. a second slot; 7. circularly cutting a concave part; 8. a groove; 9. an opening; 10. a limiting spring; 11. a limiting rod; 12. a limiting groove; 13. a pull rod; 14. a telescopic rod; 15. the spring is tightly propped; 16. a chute; 17. a transverse plate; 18. inserting a rod; 19. a convex ring; 20. a wedge block; 21. a protection plate; 22. a connecting rod; 23. a splice enclosure body; 24. a cover body; 25. mounting grooves; 26. a cross bar; 27. a slider; 28. a buffer spring; 29. a rotating rod; 30. a drum; 31. an annular groove; 32. a slide bar; 33. a sector gear; 34. a micro-motor; 35. a transmission rod; 36. a rack; 37. an I-shaped slider; 38. positioning a plate; 39. a sliding port; 40. a fan; 41. a connecting plate.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present disclosure.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/", and generally means that the former and latter related objects are in an "or" relationship.

The embodiments of the present application are described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

Example 1:

as shown in fig. 1-2, the present embodiment provides an optical cable junction box, which includes a junction box body 23, a cover 24 disposed on the top of the junction box body 23, connection plates 41 disposed on the junction box body 23 and on the cover 24, a connection assembly disposed between two adjacent connection plates 41, a buffer assembly disposed on the bottom of the junction box body 23 and on the top of the cover 24, and a heat dissipation assembly disposed between the interior of the junction box body 23 and the interior of the cover 24 for dissipating heat of an optical cable.

The heat dissipation assembly comprises a positioning plate 38 arranged in the joint box body 23, a sliding opening 39 formed in the positioning plate 38, an i-shaped sliding body 37 connected to the sliding opening 39 in a sliding manner, and a heat dissipation fan arranged at the bottom of the i-shaped sliding body 37, and a reciprocating transmission assembly for driving the i-shaped sliding body 37 to reciprocate is further arranged in the cover body 24.

The reciprocating transmission component comprises a micro motor 34 arranged at the right end of the cover body 24, a rotating rod 29 which is arranged on the outer side wall of the box body in a penetrating manner and is fixedly connected with the output end of the micro motor 34 in a coaxial rotating manner, a roller 30 fixedly sleeved on the rotating rod 29, an annular groove 31 obliquely arranged on the outer side wall of the roller 30, a transmission rod 35 rotatably connected between the front side wall and the rear side wall of the inner side of the cover body 24, a sector gear 33 arranged at the bottom of the transmission rod 35, a rack 36 arranged at the top of an I-shaped sliding body 37 and meshed with the sector gear 33, and a sliding rod 32 vertically arranged at the top of the transmission rod 35 and connected in the annular groove 31 in a sliding manner. Through setting up radiator unit, utilize the rotation of fan 40, play radiating effect to the cable. When the fan 40 is used, the micro motor 34 is started, the micro motor 34 drives the rotating rod 29 to rotate, the rotating rod 29 drives the roller 30 to rotate, the roller 30 drives the annular groove 31 to rotate, the annular groove 31 drives the sliding rod 32 to move, the sliding rod 32 drives the transmission rod 35 to swing, the transmission rod 35 drives the sector gear 33 to swing, and the sector gear 33 drives the I-shaped sliding body 37 to reciprocate, so that the fan 40 reciprocates.

The buffering assembly comprises a joint box body 23 and a protection plate 21 outside the cover body 24, two mounting grooves 25 arranged at the bottom of the joint box body 23 and at the top of the cover body 24, a cross rod 26 arranged in the mounting grooves 25, a sliding block 27 movably sleeved on the cross rod 26, a damping spring arranged between the inner side wall of the sliding block 27 and the mounting groove 25 and sleeved on the cross rod 26, and a connecting rod 22 rotatably connected to the sliding block 27, wherein the other end of the connecting rod 22 is rotatably connected with the middle part of the protection plate 21. By providing the buffer assembly, the cover body 24 and the joint box body 23 are buffered by the elasticity of the damping spring.

The connecting component comprises a first block plate 1, a second block plate 2, a first connecting column 3 and a second connecting column 4, wherein the first block plate 1 and the second block plate 2 are arranged on the connecting plate 41 in a penetrating manner, the first connecting column 3 and the second connecting column 4 are arranged on the first block plate 1, the first connecting column 3 and the second connecting column 4 are mutually inserted, a limiting component is also arranged between the first connecting column 3 and the second connecting column 4, the limiting component comprises a circular cutting concave part 7 arranged on the outer edge of the bottom of the first connecting post 3, two grooves 8 symmetrically arranged at the top of the circular cutting concave part 7 in a bilateral mode, an opening 9 arranged on the outer side wall of the first connecting post and communicated with the groove 8, a limiting groove 12 arranged on the outer edge of the second connecting post 4 and corresponding to the groove 8, a limiting rod 11 arranged at the opening 9 of the groove 8 in a penetrating mode and inserted into the limiting groove 12, a limiting spring 10 fixedly arranged between the limiting rod 11 and the inner side wall of the groove 8, and a pull rod 13 arranged at the opening 9 and fixedly connected with the limiting rod 11 in a penetrating mode. Through setting up spacing subassembly, play spacing effect to being connected of spliced pole one 3 and spliced pole two 4, avoid taking place the problem emergence of dislocation, help improving work efficiency. When the first connecting column 3 and the second connecting column 4 are disassembled, the pull rod 13 drives the limiting rod 11 to move by pulling the pull rod 13, and the limiting rod 11 is separated from the limiting groove 12.

The top of the connecting column II 4 is provided with a slot I5, and the connecting column I3 is inserted into the slot II 6 along the circular cutting concave part 7. The first board 1 and the second board 2 are inserted and connected through the matching of the first slot 5 and the first connecting column 3

The top of the first connecting column 3 is provided with a second slot 6, the first slot 5 is internally provided with an inserted bar 18 inserted in the second slot 6, the inserted bar 18 is provided with a threaded convex ring 19, the second slot 6 is provided with a wedge block 20 matched with the convex ring 19, and the wedge block 20 is provided with a guide inclined plane for the inserted bar 18 to rapidly enter the second slot 6 through the convex ring 19. Through the cooperation of wedge 20 and bulge loop 19, realize on the one hand getting into slot two 6 fast to inserted bar 18, on the other hand plays spacing effect to inserted bar 18, avoids breaking away from in slot two 6, when dismantling, revolves wrong inserted bar 18, makes inserted bar 18 rotate along bulge loop 19, can realize the dismantlement of degree inserted bar 18.

The inserting rod 18 is connected with the inner side wall of the first inserting groove 5 through a jacking assembly, and the jacking assembly comprises a transverse plate 17 which is arranged in the first inserting groove 5 and is fixedly connected with the bottom of the inserting rod 18, two telescopic rods 14 which are arranged between the transverse plate 17 and the bottom of the first inserting groove 5 in a bilateral symmetry manner, and a jacking spring 15 which is sleeved on the telescopic rods 14. Through setting up the tight subassembly in top, utilize the spring of the tight spring 15 in top, play spacing effect to the position of inserted bar 18, avoid inserted bar 18 to remove at will in slot two 6.

Diaphragm 17 and slot 5 inside wall sliding connection, the spout 16 has all been seted up to the left and right sides wall in slot 5, and diaphragm 17 sliding connection is between two spouts 16. By slidably connecting the transverse plate 17 with the sliding groove 16, when the inserting rod 18 is inserted into the second slot 6, the moving stability of the inserting rod 18 is improved.

Example 2:

an installation method of an optical cable joint box comprises the following specific steps:

s1, installing a buffer assembly: firstly, mounting grooves 25 are formed in a cover body 24 and a joint box body 23, and then a cross bar 26, a sliding block 27, a buffer spring 28, a connecting rod 22 and a protection plate 21 are sequentially mounted;

s2, mounting a connecting assembly: firstly, inserting the first connecting column 3 and the second connecting column 4 on the connecting plate 41, and then installing the rest parts;

s3, mounting the heat dissipation assembly: the transverse plate 17 is installed first, and then the remaining components are installed.

It should be noted that, in this document, 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. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Further, it should be noted that the scope of the methods and apparatuses in the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions recited, e.g., the described methods may be performed in an order different from that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An optical cable splice closure, comprising: the connector box comprises a connector box body, a cover body arranged at the top of the connector box body, connecting plates arranged on the connector box body and on the cover body, a connecting assembly arranged between two adjacent connecting plates, a buffer assembly arranged at the bottom of the connector box body and at the top of the cover body, and a heat dissipation assembly arranged between the interior of the connector box body and the interior of the cover body and used for dissipating heat of an optical cable.

2. A cable closure according to claim 1, wherein: the heat dissipation assembly comprises a positioning plate arranged in the joint box body, a sliding opening formed in the positioning plate, an I-shaped sliding body connected to the sliding opening in a sliding mode, and a heat dissipation fan arranged at the bottom of the I-shaped sliding body, and a reciprocating transmission assembly used for driving the I-shaped sliding body to do reciprocating motion is further arranged in the cover body.

3. A cable closure according to claim 2, wherein: reciprocating drive subassembly is including setting up in the micro motor of lid right-hand member, run through set up on the box lateral wall and with the coaxial pivoted bull stick of micro motor output fixed connection, fixed cylinder on locating the bull stick, the ring channel on the cylinder lateral wall is seted up to the slope, rotate the transfer line of connecting between the both sides wall around the lid is inboard, set up in the sector gear of transfer line bottom, set up in the rack that I-shaped gliding mass top and with sector gear meshing, set up perpendicularly in the slide bar of transfer line top and sliding connection in the ring channel.

4. A cable closure according to claim 1, wherein: the buffering subassembly includes the protection shield in the splice box body and the lid outside, sets up in splice box body bottom and two mounting grooves at lid top, sets up horizontal pole, the slider on the horizontal pole is located to the movable sleeve in the mounting groove, set up between slider and the mounting groove inside wall and overlap damping spring, the rotation of locating on the horizontal pole and connect the connecting rod on the slider, the other end and the protection shield middle part of connecting rod rotate to be connected.

5. A cable closure according to claim 1, wherein: the connecting assembly comprises a first plate, a second plate, a first connecting column and a second connecting column, the first connecting column and the second connecting column are arranged on the first plate and the second plate in a penetrating mode, the first connecting column and the second connecting column are connected in a penetrating mode, a limiting assembly is further arranged between the first connecting column and the second connecting column, the limiting assembly comprises a circular cutting concave portion arranged on the outer edge of the bottom of the first connecting column, two grooves symmetrically arranged at the top of the circular cutting concave portion, an opening arranged on the outer side wall of the first connecting column and communicated with the grooves, limiting grooves arranged on the outer end edges of the second connecting column and corresponding to the grooves, limiting rods arranged at the opening of the grooves in a penetrating mode and connected in the limiting grooves in a penetrating mode, limiting springs fixedly arranged between the limiting rods and the inner side wall of the grooves, and pull rods arranged at the opening and fixedly connected with the limiting rods.

6. A cable splice enclosure according to claim 5, wherein: the top of the connecting column II is provided with a slot I, and the connecting column I is inserted into the slot II along the circular cutting concave part.

7. A cable splice enclosure according to claim 6, wherein: the top of the connecting column is provided with a second slot, an inserting rod inserted into the second slot is arranged in the first slot, a threaded convex ring is arranged on the inserting rod, the second slot is provided with a wedge block matched with the convex ring for use, and a guide inclined plane for the inserting rod to rapidly enter the second slot through the convex ring is arranged on the wedge block.

8. A cable closure according to claim 7, wherein: the inserted bar is connected with an inner side wall of the slot through a jacking assembly, and the jacking assembly comprises a transverse plate which is arranged in the slot I and is fixedly connected with the bottom of the inserted bar, two telescopic rods which are arranged between the transverse plate and the inner bottom of the slot I in a bilateral symmetry mode, and a jacking spring which is sleeved on the telescopic rods.

9. A cable closure according to claim 8, wherein: the diaphragm is connected with the inner side wall of the slot in a sliding mode, the left side wall and the right side wall of the slot are provided with sliding grooves, and the diaphragm is connected between the two sliding grooves in a sliding mode.

10. A method of installing a cable closure according to claim 1, comprising the steps of:

s1, installing a buffer assembly: firstly, mounting grooves are formed in the cover body and the joint box body, and then a cross rod, a sliding block, a buffer spring, a connecting rod and a protection plate are sequentially mounted;

s2, mounting a connecting component: firstly, both the first connecting column and the second connecting column are inserted into the connecting plate, and then the rest parts are installed;

s3, installing a heat dissipation assembly: firstly, the transverse plate is installed, and then the rest parts are installed.

Images