CN115437087B - Four-in-one optical cable fiber distribution box for communication equipment - Google Patents

Abstract

The invention discloses a four-network-in-one optical cable fiber distribution box for communication equipment, which comprises a main fiber distribution box, wherein a main partition board is fixedly arranged in the main fiber distribution box so as to form a wire distribution bin and a wire arrangement bin in the main fiber distribution box, a plugboard is arranged at the bottom of the wire arrangement bin, a plurality of wire fixing devices are arranged on the plugboard in a plug-in connection manner, a flow air channel is formed between the plugboard and the inner bottom of the main fiber distribution box, and the wire distribution bin is communicated with the wire arrangement bin through the flow air channel. The four-network-in-one optical cable fiber distribution box provided by the invention has the advantages that the main partition board in the main fiber distribution box enables the main fiber distribution box to form the wire distribution bin and the wire arrangement bin, the optical fibers can be independently and fixedly adjusted and marked through the wire fixing device, meanwhile, the plug board and the inner bottom of the main fiber distribution box form the circulation air duct, and the wire distribution bin is communicated with the wire arrangement bin through the circulation air duct, so that the wire distribution bin is communicated with the wire arrangement bin through the circulation air duct, and the air flow in the wire arrangement bin can be driven when the air in the wire distribution bin flows, so that the accumulation of heat in the wire arrangement bin is reduced.

Description

Four-in-one optical cable fiber distribution box for communication equipment

Technical Field

The invention relates to the technical field of optical cable fiber distribution boxes, in particular to a four-network-in-one optical cable fiber distribution box for communication equipment.

Background

The optical cable divides fine case as the protection box to centralized information transmission and informatization branch in the optic fibre information transmission process, and it can effectually protect cable optical fiber, comb the light path simultaneously.

According to patent number CN202121428112.9, a four-network integrated optical cable distribution box for communication equipment is disclosed, which comprises a box body, the inside sealed welding box room that is equipped with public inlet wire and separated time of box, sealed welding box room one side is equipped with four and above independent optical divider distribution box rooms at least, be equipped with the optical cable in the sealed welding box room and open the earthing unit, the optical cable is opened and is shelled the earthing unit modularization combination installation, and the optical cable is opened and is shelled the earthing unit and includes a plurality of fiber-optic discs of combination installation, rubber-insulated wire fixing base, optical cable and is shelled earthing device and berth bit subassembly, is equipped with a plurality of shunts in the optical divider distribution box room, and the shunts are through the range upon range of installation of multiposition installation frame, multiposition installation frame whole rotation install in the optical divider distribution box room and can be outwards with multiposition installation frame's installation frame mouth, all be equipped with the walk line mouth that is used for walking the line between every optical divider distribution box room all is equipped with independent area lock's branch chamber door, and the sealed box room outside is equipped with the main chamber door that is equipped with the lock, and is equipped with the chamber door mouth that is used for the inlet wire.

The optical divider distribution box chamber can effectively comb the optical fiber cable through the components such as the fiber melting disc, the rubber-insulated wire fixing seat, the optical cable stripping grounding device, the berth component and the like, so that workers can conveniently carry out operations such as installation branching of the optical cable, but the workers need to independently mark each optical fiber branch in the optical fiber branching, and marked information is mostly carried out in the form of labels, the labels adhered to the optical fibers in long-time use can be aged or fall off for a long time, meanwhile, the optical fibers are fixed by using specific hoop pieces in each optical fiber distribution box, the specific hoop pieces are mostly fixed for a plurality of optical fibers, when the optical fibers are regulated in the later stage, the loads of the workers cannot be tidied, the loads of the workers are increased, meanwhile, the optical fiber distribution box is located in each single-network optical cable distribution box, the heat dissipation difference is poor, the heat in the optical cable distribution box can be accumulated, and the service life and the performance of the optical fibers are influenced.

Disclosure of Invention

The invention aims to provide a four-network-in-one optical cable fiber distribution box for communication equipment, which can be used for conveniently fixing and marking a single optical path and reducing heat accumulation in the optical cable fiber distribution box of each single network.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a four net unification optical cable divides fine case that communications facilities was used, includes the main fine case that divides, main partition plate of main fine incasement fixed mounting so that the main fine incasement that divides forms separated time storehouse and reason line storehouse, the bottom in reason line storehouse is provided with the plugboard, and the grafting is provided with a plurality of solidus wares on the plugboard, plugboard and main fine incasement bottom form the circulation wind channel, and separated time storehouse communicates in reason line storehouse through the circulation wind channel.

Preferably, the wire arranging bin is internally provided with a plurality of partition boards in a linear array, the two partition boards are matched with a main partition board, a main fiber dividing box and a plug board to form single grids respectively, meshes corresponding to the single grids are respectively formed in the main partition board, through holes are respectively formed in the partition boards, and outlet ports formed in the outer wall of one side of the main fiber dividing box are respectively communicated with the single grids through the through holes.

Preferably, the inner walls of the two opposite sides of the branching bin are symmetrically provided with wire inlet holes, the inner walls of one side of the branching bin are symmetrically provided with main fans, the main fans face the circulating air duct, the linear arrays on the plugboards in the single grids are provided with transverse through grooves, the transverse through grooves are communicated with the circulating air duct, and the single grids are located on the inner walls of the main fiber distribution boxes and provided with transverse air grooves.

Preferably, the wire fixing device comprises a mounting seat and an adjusting column axially and rotatably arranged on the mounting seat, one end of the adjusting column is fixedly provided with a main clamping flap, one end of the main clamping flap is hinged with an auxiliary clamping flap, and a locking component for locking the rotation of the adjusting column is movably arranged in the adjusting column.

Preferably, the locking assembly comprises a supporting rod, arc-shaped petals and a main spring, wherein the arc-shaped petals are symmetrically arranged on the adjusting column, the arc-shaped petals are fixedly arranged at one end of the supporting rod respectively, the main spring is fixedly arranged at the other end of the supporting rod respectively, one end of the main spring is fixedly arranged on the adjusting column, a chute is formed in the adjusting column, a pressing rod is arranged in the chute in a sliding mode, and guide rods are symmetrically arranged at the bottoms of the pressing rod and are respectively arranged on the chute formed in the supporting rod in a sliding mode.

Preferably, the outer wall of the mounting seat is symmetrically provided with locking grooves, one side of the inner wall of each locking groove is fixedly provided with a locking rod, the outer wall of the mounting seat is slidably provided with a sliding sleeve, and the sliding sleeve is positioned in each locking groove and is fixedly provided with a guide rod.

Preferably, a plurality of slots are formed between every two transverse through slots, clamping slots are symmetrically formed in the inner walls of the slots, and the locking rods are clamped in the clamping slots.

Preferably, the outer wall symmetry of mount pad is provided with the extension board, and the bottom of extension board is fixed mounting respectively has the arc elastic plate, the one end of arc elastic plate is fixed mounting respectively in the top of sliding sleeve.

Preferably, the top of assisting the clamp lamella has seted up the show groove, the notch cover in show groove is equipped with transparent plastic slab in order to form the slot, the bottom fixed mounting in show groove has the spring plate.

Preferably, the inner walls of the adjacent sides of the main clamp valve and the auxiliary clamp valve are respectively fixedly provided with an anti-skid rubber pad.

In the technical scheme, the four-network-in-one optical cable fiber distribution box for the communication equipment has the following beneficial effects: main partition plate of main minute fine incasement fixed mounting so that main minute fine incasement forms separated time storehouse and reason line storehouse, the bottom in reason line storehouse is provided with the plugboard, and the grafting is provided with a plurality of solidus wares on the plugboard, can carry out fixed adjustment and mark alone to optic fibre through solidus ware, the plugboard forms the circulation wind channel in the fine incasement of main minute simultaneously, and separated time storehouse communicates in reason line storehouse through the circulation wind channel, consequently make separated time storehouse communicate with reason line storehouse through the circulation wind channel, drive the air current in the reason line storehouse when can make the air flow in the separated time storehouse to reduce the piling up of heat in the reason line storehouse.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of the overall structure of a main fiber splitting box according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a main fiber dividing box according to an embodiment of the present invention;

FIG. 3 is a schematic view of a portion of a main fiber dividing box according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a wire holder according to an embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of a wire holder according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of the structure at A according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view of the structure at B according to an embodiment of the present invention;

FIG. 8 is an enlarged schematic view of the structure at C according to an embodiment of the present invention;

fig. 9 is an enlarged schematic view of the structure at D according to an embodiment of the present invention.

Reference numerals illustrate:

1. A main fiber dividing box; 2. a main cover plate; 3. a main partition; 4. a mounting base; 5. a main clamping flap; 6. a compression bar; 11. a wire inlet hole; 12. a wire outlet; 13. an arc-shaped winding plate; 14. a main fan; 15. a vent hole; 16. a flow channel; 21. an auxiliary cover plate; 31. a partition plate; 32. a mesh; 33. a plug board; 34. a transverse through groove; 35. a slot; 36. a horizontal air duct; 37. perforating; 38. a clamping groove; 41. an adjusting column; 42. a chute; 43. a support plate; 44. an arc-shaped elastic plate; 45. a sliding sleeve; 46. a locking groove; 47. a guide rod; 48. a locking lever; 51. auxiliary clamping petals; 52. a transparent plastic plate; 53. a display slot; 54. a spring plate; 61. a vertical rod; 62. a supporting rod; 63. a chute; 64. a main spring; 65. arc-shaped petals.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-9, a four-network-in-one optical cable fiber distribution box for communication equipment comprises a main fiber distribution box 1, wherein a main partition board 3 is fixedly installed in the main fiber distribution box 1 so as to form a wire distribution cabin and a wire arrangement cabin in the main fiber distribution box 1, a plugboard 33 is arranged at the bottom of the wire arrangement cabin, a plurality of wire fixing devices are arranged on the plugboard 33 in a plug-in connection manner, a circulation air duct 16 is formed between the plugboard 33 and the inner bottom of the main fiber distribution box 1, and the wire distribution cabin is communicated with the wire arrangement cabin through the circulation air duct 16. The main partition board 3 fixedly installed in the main fiber distribution box 1 is used for enabling the main fiber distribution box 1 to be internally provided with a branching cabin and a wire arrangement cabin, the bottom of the wire arrangement cabin is provided with the plug board 33, the plug board 33 is provided with a plurality of wire fixing devices in a plugging manner, the optical fibers can be independently and fixedly adjusted and marked through the wire fixing devices, meanwhile, the plug board 33 and the inner bottom of the main fiber distribution box 1 form a ventilation duct 16, and the branching cabin is communicated with the wire arrangement cabin through the ventilation duct 16, so that the branching cabin is communicated with the wire arrangement cabin through the ventilation duct 16, and air flow in the wire arrangement cabin can be driven when air in the branching cabin flows, and heat accumulation in the wire arrangement cabin is reduced.

As shown in fig. 1, as a further provided technical scheme of the present invention, in order to realize that the branching bin is communicated with the wire sorting bin through the air duct 16, a plurality of partition boards 31 are arranged in the wire sorting bin in a linear array, the two partition boards 31 are matched with the main partition board 3, the main fiber sorting box 1 and the plug board 33 to form independent grids respectively, (the number of the independent grids can be plural, and the number of the independent grids is four here), meanwhile, mesh holes 32 corresponding to the independent grids are respectively formed on the main partition board 3, different networks respectively correspond to the different independent grids, when one network fiber cable is installed and sorted through the branching bin, the pulled fiber cable is subjected to hot melting butt joint, the optical fibers after butt joint respectively pass through mesh holes 32 on the corresponding independent grids as required, so that the optical fibers are sorted and separated in the first step through the mesh holes 32, and then the optical fibers passing through the mesh holes 32 are respectively subjected to independent fixing and marking through the plug board 33 in a plugging manner, thus the partition boards 31 are respectively provided with perforations 37, and the wire outlets 12 formed on the outer wall on one side of the main fiber sorting box 1 are respectively communicated with the independent grids through the perforations 37, and each independent grid can be led out of the independent grids through the corresponding independent grids 12.

Further, in order to realize that branch line bin and reason line bin are with the blast of receiving a wind source in the main minute fine case 1, the entrance hole 11 has been seted up to the inner wall symmetry of branch line bin opposite sides, thereby make the inner wall symmetry of main fan 14 blast in branch line bin one side be provided with main fan 14, and main fan 14 towards circulation wind channel 16, the horizontal through groove 34 has been seted up to the linear array on the plugboard 33 in the unique check, horizontal through groove 34 intercommunication in circulation wind channel 16, and the unique check is located and has seted up horizontal wind groove 36 on the inner wall of main minute fine case 1, simultaneously in order to realize that the air of main minute fine case 1 realizes circulating, the outer wall symmetry that is located the relative horizontal wind groove 36 of main minute fine case 1 side is provided with ventilation hole 15, and main fan 14 fixed mounting is located the inner wall of main minute fine case 1 in ventilation hole 15 one side, thereby make the wind direction of main fan 14 and through circulation wind channel 16, the wind direction and in the transverse through horizontal through groove 34 respectively in the unique check, finally, flow from horizontal wind groove 36 to the outside of minute fine case 1, thereby realize that simultaneously to main minute fine case 1 and take over the winding board, and the baffle plate 2 are convenient for the realization, and the baffle plate is located in order to realize that the main minute fine case 1 is located in the opposite to be provided with the arc-shaped and is convenient for the baffle plate, and is located in order to realize that the baffle plate is located in the main minute fine case 2, and is located in order to realize that the main fine case is located in the main fine case and is convenient to be located in order to realize the baffle 13.

Further as shown in fig. 4, in order to fix the optical fiber in the single lattice, the wire fixer comprises a mounting seat 4 and an adjusting column 41 axially and rotatably arranged on the mounting seat 4, one end of the adjusting column 41 is fixedly provided with a main clamping flap 5, one end of the main clamping flap 5 is hinged with an auxiliary clamping flap 51, the optical fiber is placed on the inner side of an arc surface on the main clamping flap 5 and is turned over to be clamped on the main clamping flap 5, so that the auxiliary clamping flap 51 is matched with the main clamping flap 5 to hoop the optical fiber, and the adjusting column 41 can carry the optical fiber on the main clamping flap 5 to swing so as to adjust the position of the optical fiber and utilize a locking component movably arranged in the adjusting column 41 to lock the rotation of the adjusting column 41 so as to fix the angle and trend of the optical fiber on the main clamping flap 5.

Furthermore, in order to lock the adjusting column 41 for rotation and unlock it, the locking assembly includes a supporting rod 62, an arc-shaped flap 65 and a main spring 64, the adjusting column 41 is symmetrically provided with the arc-shaped flap 65, the arc-shaped flap 65 is respectively and fixedly installed at one end of the supporting rod 62, the main spring 64 is respectively and fixedly installed at the other end of the supporting rod 62, and one end of the main spring 64 is fixedly installed on the adjusting column 41, so the main spring 64 can respectively push the arc-shaped flap 65 at one end of the supporting rod 62 to be attached to the adjusting column 41, thereby locking the adjusting column 41 for rotation, when the angle of the optical fiber on the main clamping flap 5 needs to be adjusted, the adjusting column 41 is provided with a sliding groove 42, the sliding groove 42 is slidably provided with a pressing rod 6, and the vertical rods 61 symmetrically arranged at the bottom of the pressing rod 6 are respectively and slidably arranged on the sliding grooves 63 provided on the supporting rod 62 by pressing the pressing rod 6, thereby driving the supporting rod 62 to slide so that the arc-shaped flap 65 is separated from the installation seat 4, and the adjusting column 41 can carry the optical fiber on the main clamping flap 5 for swinging.

More specifically, in order to make the mount 4 fast clamped on the plugboard 33, the outer wall of the mount 4 is symmetrically provided with a locking groove 46, one side of the inner wall of the locking groove 46 is fixedly provided with a locking rod 48, the outer wall of the mount 4 is slidably provided with a sliding sleeve 45, the sliding sleeve 45 is fixedly provided with a guide rod 47 in the locking groove 46, and the sliding sleeve 45 slides to enable the guide rod 47 to slide on the locking rod 48, so that the locking rod 48 is attached to the inner wall of the locking groove 46.

More specifically, in order to make the mounting base 4 be clamped on the plugboard 33, a plurality of slots 35 are formed between every two transverse through slots 34, and the inner walls of the slots 35 are symmetrically provided with clamping grooves 38, and by inserting the mounting base 4 into the clamping grooves 38, the locking rods 48 are respectively clamped in the clamping grooves 38 at this time, so that the mounting base 4 is quickly clamped on the plugboard 33.

As shown in fig. 4, in order to make the sliding sleeve 45 quickly drive the locking rod 48 to separate from the clamping groove 38 and automatically reset, the outer wall of the mounting seat 4 is symmetrically provided with supporting plates 43, the bottoms of the supporting plates 43 are respectively fixedly provided with arc-shaped elastic plates 44, one ends of the arc-shaped elastic plates 44 are respectively fixedly arranged at the tops of the sliding sleeve 45, and by pressing the arc-shaped protruding parts of the arc-shaped elastic plates 44, one ends of the arc-shaped elastic plates 44 slide on the outer wall of the mounting seat 4 and drive the guide rods 47 on the sliding sleeve 45 to slide so as to quickly drive the locking rod 48 to separate from the clamping groove 38, so that the mounting seat 4 is separated from the plugboard 33, the arc-shaped elastic plates 44 are loosened again, and at the moment, the arc-shaped elastic plates 44 automatically reset due to elasticity.

As shown in fig. 8, in order to facilitate marking of individual optical fibers, a display groove 53 is provided at the top of the auxiliary clip flap 51, and a transparent plastic plate 52 is covered on the notch of the display groove 53 to form a slot 35, so that a marking card carrying information can be quickly inserted into the slot 35 for display, so that a worker can conveniently check the marking card, and meanwhile, the transparent plastic plate 52 can protect the marking card from falling off and other problems, and in order to fix the marking card, a spring plate 54 is fixedly installed at the bottom of the display groove 53, and the spring plate 54 extrudes the marking card to fix the marking card.

More specifically, in order to provide a good clamping effect between the auxiliary clamping jaw 51 and the main clamping jaw 5, anti-slip rubber pads are fixedly installed on inner walls of adjacent sides of the main clamping jaw 5 and the auxiliary clamping jaw 51, respectively, so that sliding of optical fibers on the main clamping jaw 5 is reduced.

Working principle: the main fan 14 blows the optical cable in the branching bin, meanwhile, the wind of the main fan 14 faces and passes through the ventilation air duct 16, and at the moment, the wind in the ventilation air duct 16 respectively flows into the single lattices through the transverse ventilation grooves 34 and finally flows out of the main fiber splitting box 1 from the transverse ventilation grooves 36, so that the branching bin and the wire arranging bin in the main fiber splitting box 1 are cooled simultaneously, the influence of the main partition plate 3 is avoided, the mounting seat 4 is inserted into the clamping groove 38, the locking rods 48 are respectively clamped in the clamping groove 38, the rapid clamping of the mounting seat 4 on the inserting plate 33 is realized, the optical fibers are wound on the arc-shaped winding plate 13 and respectively pass through the mesh holes 32 to carry out the first-step arrangement and separation on the optical fibers, meanwhile, the optical fibers passing through the mesh holes 32 are placed on the inner side of the cambered surface on the main clamping valve 5, the auxiliary clamping valve 51 is turned over to enable the optical fibers to be clamped on the main clamping valve 5, so that the auxiliary clamp flap 51 is matched with the main clamp flap 5 to hold the optical fiber, the vertical rods 61 symmetrically arranged at the bottom of the pressure lever 6 are respectively arranged on the inclined grooves 63 arranged on the supporting rod 62 in a sliding way by pressing the pressure lever 6, so that the supporting rod 62 is driven to slide to separate the arc-shaped flap 65 from the mounting seat 4, at the moment, the adjusting column 41 can carry the optical fiber on the main clamp flap 5 to swing for adjustment, the pressure lever 6 is released again, at the moment, the main spring 64 can respectively push the arc-shaped flap 65 at one end of the supporting rod 62 to be attached to the adjusting column 41, thereby locking the adjusting column 41 to rotate, by pressing the arc-shaped protruding part of the arc-shaped elastic plate 44, one end of the arc-shaped elastic plate 44 is driven to slide on the outer wall of the mounting seat 4 and the guide rod 47 on the sliding sleeve 45 is driven to slide to quickly drive the locking rod 48 to separate from the clamping groove 38, so that the mounting seat 4 is separated from the plugboard 33, at the moment, the arc-shaped elastic plate 44 is released again, at the moment, the arc-shaped elastic plate 44 is automatically reset due to elasticity, the tag card carrying the information is inserted into the slot 35 quickly for display, and the spring plate 54 presses the tag card to fix it.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (7)

1. The four-in-one optical cable fiber distribution box for the communication equipment comprises a main fiber distribution box (1), and is characterized in that a main partition plate (3) is fixedly arranged in the main fiber distribution box (1) so as to form a wire distribution bin and a wire arrangement bin in the main fiber distribution box (1), a plugboard (33) is arranged at the bottom of the wire arrangement bin, a plurality of wire fixing devices are arranged on the plugboard (33) in a plug-in connection manner, a circulation air duct (16) is formed between the plugboard (33) and the inner bottom of the main fiber distribution box (1), and the wire distribution bin is communicated with the wire arrangement bin through the circulation air duct (16);

The wire fixer comprises a mounting seat (4) and an adjusting column (41) axially and rotatably arranged on the mounting seat (4), one end of the adjusting column (41) is fixedly provided with a main clamping flap (5), one end of the main clamping flap (5) is hinged with an auxiliary clamping flap (51), and a locking component for locking the rotation of the adjusting column (41) is movably arranged in the adjusting column (41);

The locking assembly comprises a supporting rod (62), arc-shaped petals (65) and a main spring (64), wherein the arc-shaped petals (65) are symmetrically arranged on the adjusting column (41), the arc-shaped petals (65) are respectively and fixedly arranged at one end of the supporting rod (62), the main spring (64) is respectively and fixedly arranged at the other end of the supporting rod (62), one end of the main spring (64) is fixedly arranged on the adjusting column (41), a sliding groove (42) is formed in the adjusting column (41), a pressing rod (6) is arranged in the sliding groove (42), vertical rods (61) are symmetrically arranged at the bottom of the pressing rod (6) and are respectively and slidably arranged on the sliding groove (63) formed in the supporting rod (62);

Locking groove (46) have been seted up to the outer wall symmetry of mount pad (4), and locking groove (46) inner wall one side fixed mounting has locking lever (48), the outer wall slip of mount pad (4) is provided with sliding sleeve (45), sliding sleeve (45) are located locking groove (46) internal fixation and have guide arm (47).

2. The four-in-one optical cable fiber distribution box for communication equipment according to claim 1, wherein a plurality of partition plates (31) are arranged in a linear array in the wire arrangement bin, a single grid is respectively formed by matching a main partition plate (3), the main fiber distribution box (1) and a plug board (33) between the partition plates (31), meshes (32) corresponding to the single grid are respectively formed in the main partition plate (3), through holes (37) are respectively formed in the partition plates (31), and wire outlets (12) formed in the outer wall of one side of the main fiber distribution box (1) are respectively communicated with the single grid through the through holes (37).

3. The four-in-one optical cable fiber distribution box for communication equipment according to claim 2, wherein the inner walls of the two opposite sides of the fiber distribution bin are symmetrically provided with wire inlet holes (11), the inner wall of one side of the fiber distribution bin is symmetrically provided with a main fan (14), the main fan (14) faces the ventilation duct (16), the linear array on the plugboard (33) in the single grid is provided with transverse through grooves (34), the transverse through grooves (34) are communicated with the ventilation duct (16), and the single grid is positioned on the inner wall of the main fiber distribution box (1) and provided with transverse air grooves (36).

4. A four-in-one optical cable distribution box for communication equipment according to claim 3, wherein a plurality of slots (35) are formed between every two transverse through slots (34), clamping grooves (38) are symmetrically formed in the inner walls of the slots (35), and locking rods (48) are clamped in the clamping grooves (38).

5. The four-in-one optical cable distribution box for communication equipment according to claim 1, wherein the outer wall of the installation seat (4) is symmetrically provided with support plates (43), the bottoms of the support plates (43) are respectively fixedly provided with arc-shaped elastic plates (44), and one ends of the arc-shaped elastic plates (44) are respectively fixedly provided at the top of the sliding sleeve (45).

6. The four-in-one optical cable distribution box for communication equipment according to claim 1, wherein a display groove (53) is formed in the top of the auxiliary clamping flap (51), a transparent plastic plate (52) is covered on a notch of the display groove (53) to form a slot, and a spring plate (54) is fixedly mounted at the bottom of the display groove (53).

7. The four-in-one optical cable distribution box for communication equipment according to claim 1, wherein the inner walls of the adjacent sides of the main clamping flap (5) and the auxiliary clamping flap (51) are respectively fixedly provided with an anti-skid rubber pad.