CN109799586B

CN109799586B - Wall-mounted optical cable fiber distribution box with wire arrangement structure

Info

Publication number: CN109799586B
Application number: CN201910264670.7A
Authority: CN
Inventors: 金辉
Original assignee: Hangzhou Aoke Photoelectric Equipment Co ltd
Current assignee: HANGZHOU AOKE PHOTOELECTRIC EQUIPMENT Co.,Ltd.
Priority date: 2019-04-03
Filing date: 2019-04-03
Publication date: 2020-09-15
Anticipated expiration: 2039-04-03
Also published as: CN109799586A

Abstract

The invention discloses a wall-mounted optical cable fiber dividing box with a wire arranging structure, which comprises an upper shell, a lower shell, a connecting piece, a lead wire hole, a convex block and a wire arranging mechanism, wherein a second fixed plate is horizontally welded and fixed at the top end of a third fixed base, clamping blocks are fixedly connected with a movable block through bolts, the movable block is arranged in the second fixed plate, so that two clamping blocks are oppositely arranged, a stop block is arranged at the outer sides of the two movable blocks through the bolts, a first pin shaft is screwed to expand the gap between the two clamping blocks, an optical cable passes through the space between the two clamping blocks, the first pin shaft is screwed again to fix the optical cable between the clamping blocks, the optical cable can slide relative to the clamping blocks without loosening after being stressed, and simultaneously passes through a groove of the second fixed base, so that a catch wheel can limit the optical cable in the second fixed base, and the optical cable cannot be staggered with other optical cables in the wire arranging process, the optical cable is prevented from damaging other optical cables when the optical cable needs to be maintained.

Description

Wall-mounted optical cable fiber distribution box with wire arrangement structure

Technical Field

The invention relates to an optical cable fiber distribution box, in particular to a wall-mounted optical cable fiber distribution box with a wire arrangement structure, and belongs to the technical field of application of wall-mounted optical cable fiber distribution boxes.

Background

Fiber optic cables are manufactured to meet optical, mechanical, or environmental performance specifications and utilize one or more optical fibers disposed in a covering jacket as the transmission medium and may be used individually or in groups as telecommunication cable assemblies. The optical cable is mainly composed of optical fibers (thin glass filaments like hair), a plastic protective sleeve and a plastic sheath, and metals such as gold, silver, copper and aluminum are not contained in the optical cable, so that the optical cable generally has no recycling value. The optical cable is a communication line which is formed by a certain number of optical fibers according to a certain mode to form a cable core, is coated with a sheath, and is also coated with an outer protective layer for realizing optical signal transmission. The optical cable distribution box is used for connecting a main optical cable and a distribution optical cable outdoors, in a corridor or indoors.

When the optical cable is led into the equipment, a reliable fixing and protecting device is needed, the fixed metal moisture blocking layer, the armored layer and the reinforced core of the optical cable are needed to be reliably connected to the high-voltage protection grounding device, the optical cable is needed to be protected by a plastic sleeve or a spiral pipe after being stripped and is fixedly led into the optical fiber fusion splicing device, and the optical cable is fixed into the optical fiber box and then is deformed after being fixed for a period of time due to the fact that no special wire arranging structure is arranged, when the optical cable needs to be inspected and maintained, secondary damage is easily caused to the optical cable in the wire arranging process, the service life of the optical cable is influenced, and the maintenance cost is increased.

Disclosure of Invention

The invention aims to provide a wall-mounted optical cable fiber distribution box with a wire arrangement structure, which aims to solve the technical problems that an optical fiber is deformed after being fixed for a period of time due to the fact that no special wire arrangement structure is arranged after the optical cable is fixed in the optical fiber box, when the optical cable needs to be inspected and maintained, secondary damage is easily caused to the optical cable in the wire arrangement process, the service life of the optical cable is influenced, and the maintenance cost is increased.

The purpose of the invention can be realized by the following technical scheme:

the invention provides a wall-mounted optical cable fiber distribution box with a wire arrangement structure, which comprises an upper shell, a lower shell, a connecting piece, a lead hole, a lug and a wire arrangement mechanism, wherein the wire arrangement mechanism is arranged in the lower shell and comprises a first mounting bottom plate, a first linear guide rail, a first sliding block, a screw rod matching block, a connecting plate, a screw rod, a first fixing block, a second fixing block, a knob, a second mounting bottom plate, a wire arrangement block, a positioning baffle plate, an optical cable threading hole, a second sliding block, a third sliding block, a second linear guide rail, a first fixing base, a second fixing base, a first fixing plate, a catch wheel, a third fixing base, a second fixing plate, a moving block, a clamping block, a first pin shaft, a groove, a second pin shaft and a stop block, the first mounting bottom plate is fixedly connected with the interior of the lower shell through a bolt, and one end of the upper surface of the first mounting bottom plate is fixedly connected with the first linear guide, the first linear guide rail is connected with a first sliding block in a sliding mode, the top end of the first sliding block is fixedly connected with a screw rod matching block through a bolt, one end of the screw rod matching block is provided with a connecting plate through a bolt, a screw rod penetrates through the connecting plate and is movably connected with the connecting plate, two ends of the screw rod are respectively movably connected with a first fixing block and a second fixing block through threaded holes, and the screw rod penetrates through the second fixing block and is fixedly welded with the knob;

the top end of the screw rod matching block is fixedly connected with a second mounting base plate through a bolt, the upper end of the second mounting base plate is fixedly welded with a wire arranging block, the side edge of the wire arranging block is provided with a positioning baffle plate through a bolt, the upper surface of the wire arranging block is provided with a plurality of convex blocks at equal intervals, the gaps between the blocks are equal to the diameter of the optical cable, one end of the first linear guide rail is vertically provided with a second linear guide rail, the second linear guide rail is fixedly connected with the first mounting base plate through a bolt, the second linear guide rail is connected with a second sliding block and a third sliding block in a sliding way, the top ends of the second sliding block and the third sliding block are provided with parts with the same structure, the top end of the second sliding block is fixedly connected with a first fixing base through a bolt, one end of the first fixing base close to the wire arranging block is fixedly connected with a third fixing base through a bolt, and the second fixed plate is internally and slidably connected with moving blocks, clamping blocks are arranged between the two moving blocks, the two clamping blocks are fixedly connected with the two moving blocks through bolts, and first pin shafts are arranged at the bottom ends of the two moving blocks.

As a further scheme of the invention, the upper shell and the lower shell are movably connected through a connecting piece, the bottom end of the upper shell is provided with lead holes, the lead holes lead out optical cables in the shell in order, sealing rings are arranged on the lead holes, one ends of the upper shell and the lower shell far away from the connecting piece are integrally connected with a convex block, and a rotating piece is arranged on the convex block.

As a further scheme of the invention, the screw rod matching block is provided with a through hole along the width direction, the screw rod is arranged in the through hole, and the diameter of the screw rod is smaller than the aperture of the through hole.

As a further scheme of the invention, a square block is arranged between the knob and the second fixed block, the square block is fixedly connected with the second fixed block through a bolt, a limiting block is arranged between the connecting plate and the first fixed block, and the limiting block is fixedly connected with the first fixed block through a bolt, so that the square block and the limiting block limit the range of the left-right movement of the screw rod in the horizontal direction.

As a further scheme of the invention, the number of the positioning baffle plates is three, the wire arranging block is made of elastic materials, the first fixing bases are of L-shaped structures, the two first fixing bases are symmetrically arranged, and the connecting rods are horizontally fixed between the two first fixing bases through bolts.

As a further scheme of the invention, the top end of the first fixing base is fixedly connected with a second fixing base through a support column, the second fixing base is of a U-shaped block structure with the middle part recessed downwards, and the U-shaped aperture of the second fixing base is equal to the diameter of the optical cable.

As a further scheme of the invention, one side of the top end of the second fixing base is fixedly connected with a first fixing plate through a bolt, one end of the first fixing plate is fixedly provided with a catch wheel through a threaded hole, the catch wheel is of a cylindrical structure and is made of elastic materials, the catch wheel is positioned right above a groove arranged on the second fixing base, and the length of the catch wheel is greater than the width of the groove.

As a further scheme of the invention, the second fixing plate is of a U-shaped structure, the number of the moving blocks is two, and limiting plates for limiting the moving blocks to move in the second fixing plate are fixedly welded on the outer sides of the two moving blocks.

As a further scheme of the invention, the upper end of the third fixed base is provided with a groove, a second pin shaft is horizontally arranged in the groove, and the outer sides of the two moving blocks are fixedly connected with a stop block through bolts.

The use method of the wall-mounted optical cable fiber distribution box comprises the following specific steps:

the first step, a second fixing plate is horizontally welded and fixed at the top end of a third fixing base, clamping blocks are fixedly connected with moving blocks through bolts, the moving blocks are installed in the second fixing plate, the two clamping blocks are oppositely arranged, and a stop block is installed on the outer sides of the two moving blocks through bolts;

secondly, fixing a second fixing base at the bottom end of the first fixing base through a support column, fixing a catch wheel at one end of a first fixing plate through a threaded hole, fixing the first fixing plate at the top end of the second fixing base through a bolt, enabling the catch wheel to be located right above the second fixing base, installing the two first fixing bases on a second linear guide rail, enabling the two first fixing bases to be symmetrically arranged, and meanwhile horizontally installing a connecting rod between the two first fixing bases;

thirdly, mounting the first sliding block on the first linear guide rail, mounting the screw rod matching block at the top end of the first sliding block through a bolt, and mounting the connecting plate at one end of the screw rod matching block through a bolt; the first fixing block and the second fixing block are symmetrically arranged on the first mounting bottom plate through bolts, so that the first fixing block, the second fixing block and the second linear guide rail are arranged in parallel, one end of the screw rod is welded and fixed with the knob, and the screw rod sequentially penetrates through the second fixing block, the connecting plate and the first fixing block and is movably connected with the first fixing block and the second fixing block;

fourthly, fixedly connecting the second mounting base plate with the screw matching block through bolts, mounting the wire arranging block at the top end of the second mounting base plate through bolts, fixing the positioning baffle plate on the side edge of the wire arranging block through bolts, and mounting a third fixing base on the first fixing base through bolts, so that the third fixing base is arranged close to one side of the wire arranging block;

fifthly, when the cable is required to be arranged, the first pin shaft is screwed to enlarge a gap between the two clamping blocks, the optical cable penetrates between the two clamping blocks, the first pin shaft is screwed again to fix the optical cable between the clamping blocks, the optical cable can slide relative to the clamping blocks after being stressed and cannot be loosened, and meanwhile, the optical cable penetrates through the groove of the second fixing base, so that the optical cable is limited in the second fixing base by the blocking wheel.

The invention has the beneficial effects that:

1. the invention relates to a wall-mounted optical cable fiber distribution box with a wire arrangement structure, which is characterized in that a second fixed plate is horizontally welded and fixed at the top end of a third fixed base, a clamping block is fixedly connected with a movable block through a bolt, the movable block is arranged in the second fixed plate, the two clamping blocks are oppositely arranged, the stop block is arranged at the outer sides of the two moving blocks through bolts, when the cable is required to be arranged, the first pin shaft is screwed to expand the gap between the two clamping blocks, the optical cable penetrates between the two clamping blocks, the first pin shaft is screwed again to fix the optical cable between the clamping blocks, so that the optical cable can slide relative to the clamping blocks after being stressed and cannot be loosened, simultaneously pass the optical cable through second unable adjustment base's recess for keep off the wheel and can restrict the optical cable in second unable adjustment base, guaranteed that the optical cable can not crisscross with other optical cables in the reason line process, prevent the optical cable to the damage that other optical cables caused when needing the maintenance reason line.

2. The invention relates to a wall-mounted optical cable fiber distribution box with a wire arrangement structure, which is characterized in that a first slide block is connected on a first linear guide rail in a sliding manner, the top end of the first slide block is fixedly connected with a screw rod matching block through a bolt, the screw rod matching block is provided with a through hole along the width direction thereof, a screw rod is arranged in the through hole, the diameter of the screw rod is smaller than the aperture of the through hole, the screw rod penetrates through a connecting plate and is movably connected with the connecting plate, two ends of the screw rod are respectively movably connected with a first fixed block and a second fixed block through threaded holes, the screw rod penetrates through the second fixed block and is fixedly welded with a knob, a square block is arranged between the knob and the second fixed block, the square block is fixedly connected with the second fixed block through a bolt, the screw rod can horizontally move between the first fixed block and the second fixed block through the threaded holes by rotating the knob, the connecting, and then drive first slider horizontal migration on first straight line guide rail, install the stopper between connecting plate and the first fixed block, the stopper passes through bolt and first fixed block fixed connection, and square piece and stopper all can restrict the scope that the screw rod moved about on the horizontal direction, prevent that the screw rod from rolling out between first fixed block and the second fixed block.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a top view of a wall-mounted optical cable distribution box with a cable arrangement structure according to the present invention.

Fig. 2 is a front view of a wall-mounted optical cable distribution box with a wire arrangement structure according to the present invention.

Fig. 3 is a schematic view of an internal structure of a wall-mounted optical cable distribution box with a cable arrangement structure according to the present invention.

FIG. 4 is an isometric view of the wire management mechanism of the present invention.

Fig. 5 is a front view of the wire management mechanism of the present invention.

FIG. 6 is a schematic view of the installation of the wire management block of the present invention.

FIG. 7 is a schematic view of the first fixing base of the present invention.

FIG. 8 is a schematic view of the third fixing base of the present invention.

In the figure: 1. an upper housing; 2. a lower housing; 3. a connecting member; 4. a wire hole; 5. a bump; 6. a wire arrangement mechanism; 61. a first mounting baseplate; 62. a first linear guide rail; 63. a first slider; 64. a screw rod matching block; 65. a connecting plate; 66. a screw; 67. a first fixed block; 68. a second fixed block; 69. a knob; 70. a second mounting baseplate; 71. a wire arranging block; 72. positioning a baffle plate; 73. an optical cable threading hole; 74. a second slider; 75. a third slider; 76. a second linear guide; 77. a first stationary base; 78. a second stationary base; 79. a first fixing plate; 80. a catch wheel; 81. a third stationary base; 82. a second fixing plate; 83. a moving block; 84. a clamping block; 85. a first pin shaft; 86. a groove; 87. a second pin shaft; 88. a stopper; 89. a connecting rod.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, a wall-mounted optical cable fiber distribution box with a wire arrangement structure comprises an upper shell 1, a lower shell 2, a connecting piece 3, lead holes 4, bumps 5 and a wire arrangement mechanism 6, wherein the upper shell 1 is movably connected with the lower shell 2 through the connecting piece 3, the connecting piece 3 can enable the upper shell 1 to be in a sealed or opened state with the lower shell 2, the bottom end of the upper shell 1 is provided with the lead holes 4, the lead holes 4 lead out optical cables in the shells in order to prevent the optical cables from being staggered, the lead holes 4 are provided with sealing rings, the sealing rings can further fix the optical cables penetrating out of the lead holes 4 and can ensure that the upper shell 1 and the lower shell 2 are in a sealed state during working, one ends of the upper shell 1 and the lower shell 2 far away from the connecting piece 3 are integrally connected with the bumps 5, the bumps 5 are provided with rotating pieces, and the bumps 5 can facilitate operators to open or close the shells through the, the lower shell 2 is internally provided with a wire arranging mechanism 6, the wire arranging mechanism 6 comprises a first mounting base plate 61, a first linear guide rail 62, a first slide block 63, a screw rod matching block 64, a connecting plate 65, a screw rod 66, a first fixing block 67, a second fixing block 68, a knob 69, a second mounting base plate 70, a wire arranging block 71, a positioning baffle plate 72, an optical cable threading hole 73, a second slide block 74, a third slide block 75, a second linear guide rail 76, a first fixing base 77, a second fixing base 78, a first fixing plate 79, a baffle wheel 80, a third fixing base 81, a second fixing plate 82, a moving block 83, a clamping block 84, a first pin shaft 85, a groove 86, a second pin shaft 87 and a baffle 88, the first mounting base plate 61 is fixedly connected with the inside of the lower shell 2 through a bolt, one end of the upper surface of the first mounting base plate 61 is fixedly connected with the first linear guide rail 62 through a bolt, the first slide block 63 is connected with the first linear guide rail 62, the top end of the first sliding block 63 is fixedly connected with a screw rod matching block 64 through a bolt, the screw rod matching block 64 horizontally slides along the first linear guide rail 62 along with the first sliding block 63, one end of the screw rod matching block 64 is provided with a connecting plate 65 through a bolt, the screw rod matching block 64 is provided with a through hole along the width direction, a screw rod 66 is arranged in the through hole, the diameter of the screw rod 66 is smaller than the aperture of the through hole, the screw rod 66 penetrates through the connecting plate 65 and is movably connected with the connecting plate 65, two ends of the screw rod 66 are respectively movably connected with the first fixing block 67 and the second fixing block 68 through threaded holes, the screw rod 66 penetrates through the second fixing block 68 and is fixedly welded with a knob 69, a square block is arranged between the knob 69 and the second fixing block 68, the square block is fixedly connected with the second fixing block 68 through a bolt, and the screw rod 66 can horizontally move, thereby driving the connecting plate 65 to move together, the connecting plate 65 is forced to drive the screw rod matching block 64 to move horizontally between the first fixing block 67 and the second fixing block 68, further driving the first slide block 63 to move horizontally on the first linear guide rail 62, installing a limiting block between the connecting plate 65 and the first fixed block 67, the limiting block being fixedly connected with the first fixed block 67 through a bolt, the square block and the limiting block both being able to limit the range of the screw 66 moving left and right in the horizontal direction, preventing the screw 66 from rotating out between the first fixed block 67 and the second fixed block 68, preferably, the knob 69 being a rotary cylinder, the screw 66 being rotationally connected with the rotary cylinder, the rotary cylinder being electrically connected with an internal power supply or an external power supply through a plurality of wires, the screw 66 can be automatically rotated by arranging the rotary air cylinder, so that the screw 66 can be rotated to a proper position as required, and manual operation is reduced.

The top end of the screw rod matching block 64 is fixedly connected with a second mounting base plate 70 through bolts, the upper end of the second mounting base plate 70 is fixedly welded with a wire arranging block 71, the side edge of the wire arranging block 71 is provided with a positioning baffle plate 72 through bolts, the number of the positioning baffle plates 72 is three, the positioning baffle plate 72 can limit the movement of the positioning baffle plate 72 in the horizontal direction, a plurality of protruding squares are arranged on the upper surface of the wire arranging block 71 at equal intervals, the gaps among the squares are equal to the diameter of an optical cable, so that the optical cable can penetrate through the gaps to play a role of wire arranging, the wire arranging block 71 is made of an elastic material, the friction force between the optical cable and the wire arranging block 71 is reduced, and the abrasion of the surface of the optical cable during wire arranging is prevented.

One end of the first linear guide rail 62 is vertically provided with a second linear guide rail 76, the second linear guide rail 76 is fixedly connected with the first installation bottom plate 61 through a bolt, the second linear guide rail 76 is connected with a second sliding block 74 and a third sliding block 75 in a sliding way, the top ends of the second sliding block 74 and the third sliding block 75 are provided with parts with the same structure, the top end of the second sliding block 74 is fixedly connected with a first fixed base 77 through a bolt, the first fixed base 77 is in an L-shaped structure, the two first fixed bases 77 are symmetrically arranged, a connecting rod 89 is horizontally fixed between the two first fixed bases 77 through a bolt, the connecting rod 89 can enable the distance between the two first fixed bases 77 to be unchanged, the top end of the first fixed base 77 is fixedly connected with a second fixed base 78 through a support column, the second fixed base 78 is in a U-shaped structure with a downward concave middle part, and the diameter of a U-shaped hole of the second fixed base 78 is equal to, one side of the top end of the second fixing base 78 is fixedly connected with a first fixing plate 79 through a bolt, one end of the first fixing plate 79 is fixedly provided with a blocking wheel 80 through a threaded hole, the blocking wheel 80 is of a cylindrical structure, the blocking wheel 80 is made of elastic materials, the blocking wheel 80 is positioned right above a groove formed in the second fixing base 78, and the length of the blocking wheel 80 is larger than the width of the groove.

One end of the first fixing base 77 close to the wire arranging block 71 is fixedly connected with a third fixing base 81 through a bolt, the top end of the third fixing base 81 is fixedly welded with a second fixing plate 82, the second fixing plate 82 is of a U-shaped structure, moving blocks 83 are slidably connected in the second fixing plate 82, the number of the moving blocks 83 is two, two clamping blocks 84 are arranged between the two moving blocks 83, the two clamping blocks 84 are fixedly connected with the two moving blocks 83 through bolts, limiting plates are fixedly welded on the outer sides of the two moving blocks 83, the limiting plates can limit the moving blocks 83 to move in the second fixing plate 82, first hinge pins 85 are installed at the bottom ends of the two moving blocks 83, and the distance between the two moving blocks 83 can be adjusted through the first hinge pins 85.

The upper end of the third fixing base 81 is provided with a groove 86, a second pin 87 is horizontally installed in the groove 86, and the second pin 87 can increase the supporting force of the third fixing base 81.

The outer sides of the two moving blocks 83 are fixedly connected with a stop block 88 through bolts, and the stop block 88 can play a role in protecting the moving blocks 83 and the clamping block 84.

The wall-mounted optical cable fiber distribution box comprises the following specific use and working processes:

firstly, horizontally welding and fixing a second fixing plate 82 on the top end of a third fixing base 81, fixedly connecting clamping blocks 84 with a moving block 83 through bolts, installing the moving block 83 in the second fixing plate 82, enabling the two clamping blocks 84 to be oppositely arranged, and installing a stop block 88 on the outer sides of the two moving blocks 83 through bolts;

secondly, fixing a second fixing base 78 at the bottom end of the first fixing base 77 through a support column, fixing a blocking wheel 80 at one end of a first fixing plate 79 through a threaded hole, fixing the first fixing plate 79 at the top end of the second fixing base 78 through a bolt, enabling the blocking wheel 80 to be located right above the second fixing base 78, installing the two first fixing bases 77 on the second linear guide rail 76, enabling the two first fixing bases 77 to be symmetrically arranged, and meanwhile, horizontally installing a connecting rod 89 between the two first fixing bases 77;

thirdly, mounting the first slide block 63 on the first linear guide rail 62, mounting the screw rod matching block 64 on the top end of the first slide block 63 through a bolt, and mounting the connecting plate 65 on one end of the screw rod matching block 64 through a bolt; the first fixing block 67 and the second fixing block 68 are symmetrically installed on the first installation bottom plate 61 through bolts, so that the first fixing block 67, the second fixing block 68 and the second linear guide rail 76 are arranged in parallel, one end of the screw 66 is welded and fixed with the knob 69, and the screw 66 sequentially penetrates through the second fixing block 68, the connecting plate 65 and the first fixing block 67 and is movably connected with the first fixing block 67 and the second fixing block 68;

fourthly, fixedly connecting the second mounting base plate 70 with the screw matching block 64 through bolts, mounting the wire arranging block 71 at the top end of the second mounting base plate 70 through bolts, fixing the positioning baffle plate 72 at the side edge of the wire arranging block 71 through bolts, and mounting the third fixing base 81 on the first fixing base 77 through bolts, so that the third fixing base 81 is arranged close to one side of the wire arranging block 71;

fifthly, when the cable is required to be managed, the first pin shaft 85 is screwed to expand the gap between the two clamping blocks 84, the optical cable penetrates between the two clamping blocks 84, the first pin shaft 85 is screwed again to fix the optical cable between the clamping blocks 84, the optical cable can slide relative to the clamping blocks 84 after being stressed and cannot be loosened, and meanwhile, the optical cable penetrates through the groove of the second fixing base 78, and the optical cable is limited in the second fixing base 78 by the blocking wheel 80.

When the invention is used, the second fixed plate 82 is horizontally welded and fixed on the top end of the third fixed base 81, the clamping block 84 is fixedly connected with the moving block 83 through bolts, the moving block 83 is arranged in the second fixed plate 82, so that the two clamping blocks 84 are arranged opposite to each other, the stopper 88 is mounted on the outer side of the two moving blocks 83 by bolts, when the cable is required to be arranged, the first pin shaft 85 is screwed to expand the gap between the two clamping blocks 84, the optical cable passes through the space between the two clamping blocks 84, the first pin shaft 85 is screwed again to fix the optical cable between the clamping blocks 84, so that the optical cable can slide relative to the clamping blocks 84 without loosening after being stressed, meanwhile, the optical cable passes through the groove of the second fixing base 78, so that the blocking wheel 80 can limit the optical cable in the second fixing base 78, the optical cable is guaranteed not to be staggered with other optical cables in the cable arranging process, and the optical cable is prevented from damaging other optical cables when the optical cable needs to be maintained and arranged; the first sliding block 63 is connected on the first linear guide rail 62 in a sliding manner, the top end of the first sliding block 63 is fixedly connected with a screw rod matching block 64 through a bolt, the screw rod matching block 64 is provided with a through hole along the width direction, a screw rod 66 is arranged in the through hole, the diameter of the screw rod 66 is smaller than the aperture of the through hole, the screw rod 66 penetrates through the connecting plate 65 and is movably connected with the connecting plate 65, two ends of the screw rod 66 are respectively movably connected with a first fixing block 67 and a second fixing block 68 through threaded holes, the screw rod 66 penetrates through the second fixing block 68 and is fixedly welded with a knob 69, a square block is arranged between the knob 69 and the second fixing block 68 and is fixedly connected with the second fixing block 68 through a bolt, the screw rod 66 can horizontally move between the first fixing block 67 and the second fixing block 68 through the threaded holes by rotating the knob 69, the connecting plate 65 is driven to move together, the screw rod matching block 64 is driven by, and then drive first slider 63 horizontal migration on first straight line guide rail 62, install the stopper between connecting plate 65 and the first fixed block 67, the stopper passes through bolt and first fixed block 67 fixed connection, and square piece and stopper all can be on the horizontal direction limit the scope that the screw rod 66 moved about, prevent that screw rod 66 from rolling out between first fixed block 67 and the second fixed block 68.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a fine box of wall-hanging optical cable branch with reason line structure, a serial communication port, including last casing (1), lower casing (2), connecting piece (3), pin hole (4), lug (5) and reason line mechanism (6), be provided with reason line mechanism (6) in lower casing (2), reason line mechanism (6) are including first mounting plate (61), first linear guide rail (62), first slider (63), screw rod cooperation piece (64), connecting plate (65), screw rod (66), first fixed block (67), second fixed block (68), knob (69), second mounting plate (70), reason line piece (71), location plate washer (72), optical cable through wires hole (73), second slider (74), third slider (75), second linear guide rail (76), first unable adjustment base (77), second unable adjustment base (78), first fixed plate (79), The device comprises a catch wheel (80), a third fixed base (81), a second fixed plate (82), a movable block (83), a clamping block (84), a first pin shaft (85), a groove (86), a second pin shaft (87) and a stop block (88), wherein the first installation bottom plate (61) is fixedly connected with the inside of the lower shell (2) through bolts, one end of the upper surface of the first installation bottom plate (61) is fixedly connected with a first linear guide rail (62) through bolts, a first sliding block (63) is slidably connected on the first linear guide rail (62), the top end of the first sliding block (63) is fixedly connected with a screw rod matching block (64) through bolts, one end of the screw rod matching block (64) is provided with a connecting plate (65) through bolts, a screw rod (66) penetrates through the connecting plate (65) and is movably connected with the connecting plate (65), and the two ends of the screw rod (66) are respectively movably connected with the first fixed block (67) and the second, the screw (66) penetrates through the second fixing block (68) and is welded and fixed with the knob (69);

the top end of the screw rod matching block (64) is fixedly connected with a second mounting base plate (70) through a bolt, the upper end of the second mounting base plate (70) is fixedly welded with a wire arranging block (71), the side edge of the wire arranging block (71) is provided with a positioning baffle plate (72) through a bolt, the upper surface of the wire arranging block (71) is provided with a plurality of protruding squares at equal intervals, the gaps among the squares are equal to the diameter of an optical cable, one end of the first linear guide rail (62) is vertically provided with a second linear guide rail (76), the second linear guide rail (76) is fixedly connected with the first mounting base plate (61) through a bolt, the second linear guide rail (76) is slidably connected with a second sliding block (74) and a third sliding block (75), the top ends of the second sliding block (74) and the third sliding block (75) are provided with parts with the same structure, the top end of the second sliding block (74) is fixedly connected with a first fixing, one end of the first fixing base (77) close to the wire arranging block (71) is fixedly connected with a third fixing base (81) through a bolt, the top end of the third fixing base (81) is fixedly welded with a second fixing plate (82), a moving block (83) is connected in the second fixing plate (82) in a sliding mode, a clamping block (84) is arranged between the two moving blocks (83), the two clamping blocks (84) are fixedly connected with the two moving blocks (83) through bolts, and a first pin shaft (85) is installed at the bottom end of the two moving blocks (83).

2. The wall-mounted optical cable fiber distribution box with the wire arrangement structure according to claim 1, wherein the upper shell (1) is movably connected with the lower shell (2) through a connecting piece (3), a lead hole (4) is formed in the bottom end of the upper shell (1), the optical cable in the shell is sequentially led out through the lead hole (4), a sealing ring is mounted on the lead hole (4), a protruding block (5) is integrally connected with one ends, far away from the connecting piece (3), of the upper shell (1) and the lower shell (2), and a rotating piece is arranged on the protruding block (5).

3. The wall-mounted optical cable fiber distribution box with the wire arranging structure as claimed in claim 1, wherein the screw rod matching block (64) is provided with a through hole along the width direction thereof, a screw rod (66) is arranged in the through hole, and the diameter of the screw rod (66) is smaller than the aperture of the through hole.

4. The wall-mounted optical cable fiber distribution box with the wire arranging structure according to claim 1, wherein a square block is arranged between the knob (69) and the second fixing block (68), the square block is fixedly connected with the second fixing block (68) through a bolt, a limiting block is arranged between the connecting plate (65) and the first fixing block (67), and the limiting block is fixedly connected with the first fixing block (67) through a bolt, so that the square block and the limiting block limit the range of the screw rod (66) in the left-right direction in the horizontal direction.

5. The wall-mounted optical cable fiber distribution box with the wire arranging structure according to claim 1, wherein the number of the positioning baffles (72) is three, the wire arranging block (71) is made of an elastic material, the first fixing bases (77) are in an L-shaped structure, the two first fixing bases (77) are symmetrically arranged, and the connecting rods (89) are horizontally fixed between the two first fixing bases (77) through bolts.

6. The wall-mounted optical cable distribution box with the wire arranging structure as claimed in claim 1, wherein a second fixing base (78) is fixedly connected to the top end of the first fixing base (77) through a supporting column, the second fixing base (78) is of a U-shaped block structure with a downward concave middle, and the U-shaped aperture of the second fixing base (78) is equal to the diameter of the optical cable.

7. The wall-mounted optical cable fiber distribution box with the wire arranging structure according to claim 1, wherein a first fixing plate (79) is fixedly connected to one side of the top end of the second fixing base (78) through a bolt, a blocking wheel (80) is fixed to one end of the first fixing plate (79) through a threaded hole, the blocking wheel (80) is of a cylindrical structure, the blocking wheel (80) is made of elastic materials, the blocking wheel (80) is located right above a groove formed in the second fixing base (78), and the length of the blocking wheel (80) is larger than the width of the groove.

8. The wall-mounted optical cable distribution box with the wire arranging structure according to claim 1, wherein the second fixing plate (82) is of a U-shaped structure, the number of the moving blocks (83) is two, and limiting plates for limiting the moving blocks (83) to move in the second fixing plate (82) are fixed to the outer sides of the two moving blocks (83) in a welding mode.

9. The wall-mounted optical cable fiber distribution box with the wire arrangement structure as claimed in claim 1, wherein a groove (86) is formed in the upper end of the third fixing base (81), a second pin shaft (87) is horizontally mounted in the groove (86), and a stop block (88) is fixedly connected to the outer sides of the two moving blocks (83) through bolts.

10. The wall-mounted optical cable fiber distribution box with the wire arranging structure according to claim 1, wherein the using method of the wall-mounted optical cable fiber distribution box comprises the following specific steps:

firstly, horizontally welding and fixing a second fixing plate (82) on the top end of a third fixing base (81), fixedly connecting a clamping block (84) with a moving block (83) through a bolt, installing the moving block (83) in the second fixing plate (82), enabling the two clamping blocks (84) to be arranged oppositely, and installing a stop block (88) on the outer sides of the two moving blocks (83) through a bolt;

secondly, fixing a second fixed base (78) at the bottom end of a first fixed base (77) through a support column, fixing a blocking wheel (80) at one end of a first fixed plate (79) through a threaded hole, fixing the first fixed plate (79) at the top end of the second fixed base (78) through a bolt, enabling the blocking wheel (80) to be located right above the second fixed base (78), installing two first fixed bases (77) on a second linear guide rail (76), enabling the two first fixed bases (77) to be symmetrically arranged, and meanwhile horizontally installing a connecting rod (89) between the two first fixed bases (77);

thirdly, mounting the first sliding block (63) on the first linear guide rail (62), mounting the screw rod matching block (64) at the top end of the first sliding block (63) through a bolt, and mounting the connecting plate (65) at one end of the screw rod matching block (64) through a bolt; the first fixing block (67) and the second fixing block (68) are symmetrically installed on the first installation bottom plate (61) through bolts, so that the first fixing block (67), the second fixing block (68) and the second linear guide rail (76) are arranged in parallel, one end of the screw rod (66) is fixedly welded with the knob (69), and the screw rod (66) sequentially penetrates through the second fixing block (68), the connecting plate (65) and the first fixing block (67) and is movably connected with the first fixing block (67) and the second fixing block (68);

fourthly, fixedly connecting the second mounting base plate (70) with the screw rod matching block (64) through bolts, mounting the wire arranging block (71) at the top end of the second mounting base plate (70) through bolts, fixing the positioning baffle plate (72) at the side edge of the wire arranging block (71) through bolts, and mounting the third fixing base (81) on the first fixing base (77) through bolts so that the third fixing base (81) is arranged close to one side of the wire arranging block (71);

fifthly, when the cable is required to be managed, the first pin shaft (85) is screwed to enable a gap between the two clamping blocks (84) to be enlarged, the optical cable penetrates through the space between the two clamping blocks (84), the first pin shaft (85) is screwed again to fix the optical cable between the clamping blocks (84), the optical cable can slide relative to the clamping blocks (84) after being stressed and cannot be loosened, meanwhile, the optical cable penetrates through the groove of the second fixing base (78), and the optical cable is limited in the second fixing base (78) through the catch wheel (80).