Multichannel network optical fiber rapid distribution box
Technical Field
The invention relates to the technical field of power equipment, in particular to a multi-channel network optical fiber rapid distribution box.
Background
The optical fiber distribution box is suitable for the distribution connection of an optical cable and optical communication equipment, and an optical signal is led out by an optical jumper through an adapter in the distribution box to realize the optical distribution function; the method is suitable for protective connection of optical cables and distribution pigtails and is also suitable for being adopted by optical fiber terminal points in an optical fiber access network.
When the current wiring box is used for fixing access equipment, the installation and fixing range is limited, the fixing requirements of equipment with various sizes cannot be met, and the access equipment is easy to shift left and right and is unstable after being fixed; optical fiber often can reserve certain length and arrange in the distribution case to follow-up maintenance, then the optical fiber line lacks better fixing device, makes optical fiber neat inadequately, and follow-up is more time-consuming and laborious when maintaining. In view of this, the present invention provides a multi-channel network optical fiber fast distribution box, which has the following characteristics:
(1) according to the multichannel network optical fiber rapid distribution box, the first supporting angle seat is used as an installation reference, one corner of the bottom surface of the access equipment can be placed on the first supporting angle seat, then the supporting mechanism is pulled, the second supporting angle seat and the first supporting angle seat can clamp and limit two ends of the bottom of the equipment, the equipment is prevented from shifting left and right, the position of the pressing plate can be adjusted through the moving mechanism, the pressing plate can press the outer wall of the equipment, the equipment is prevented from turning outwards, the installation and fixation of the access equipment with different sizes are realized, and the application range is wide.
(2) According to the multichannel network optical fiber rapid distribution box, redundant optical fibers can be wound through the winding mechanism, then the optical fibers are guided to turn through the wire guide mechanism, and the joints of the optical fibers are fixed through the wire clamping seats, so that the optical fibers can be distributed orderly, and later-stage arrangement is facilitated.
(3) The multi-channel network optical fiber rapid distribution box disclosed by the invention adopts the rolling type sealing mechanism, can effectively reduce the operation area of sealing equipment, and can meet the operation requirement of narrow areas.
Disclosure of Invention
Aiming at the problems in the prior art, the invention provides a multichannel network optical fiber rapid distribution box, which adopts a first supporting angle seat as an installation reference, can place one corner of the bottom surface of access equipment on the first supporting angle seat, then pulls a supporting mechanism, so that a second supporting angle seat and the first supporting angle seat can clamp and limit two ends of the bottom of the equipment, and the equipment is prevented from shifting left and right; the winding mechanism can wind redundant optical fibers, then the guide wire mechanism guides the optical fibers to turn, and the wire clamping seat fixes the joints of the optical fibers, so that the optical fibers can be distributed orderly and are convenient for later arrangement; by adopting the rolling type sealing mechanism, the operation area of the sealing equipment can be effectively reduced, and the operation requirement of narrow areas can be met.
The technical scheme adopted by the invention for solving the technical problems is as follows: a multi-channel network optical fiber rapid distribution box comprises a box body, a first winding mechanism, a second winding mechanism, a wire guide mechanism, a wire clamping seat, a clamping mechanism and a sealing mechanism, wherein the clamping mechanism is arranged in the box body and used for fixing optical fiber wiring equipment; the bottom of the clamping mechanism is provided with the wire clamping seat which is used for fixing the optical fiber joint; the bottom of the wire clamping seat is provided with the wire guide mechanism, and the wire guide mechanism is used for guiding the optical fiber; the first winding mechanism and the second winding mechanism are mounted on one side of the wire guide mechanism and used for winding optical fibers; the outer surface of the box body is connected with the sealing mechanism in a matching mode, and the sealing mechanism is used for sealing the box body.
Specifically, first chutes are symmetrically formed in the inner wall of the box body, a first junction box and a second junction box are arranged on the outer wall of the box body, the first junction box is located at the bottom of the second junction box, the first junction box and the second junction box are located on the same side face and are identical in structure, a plurality of threading holes are formed in the first junction box, and a lock body is arranged at the bottom of the box body.
Specifically, first winding mechanism second winding mechanism respectively with first terminal box the second terminal box sets up relatively, first winding mechanism includes rolling post, first baffle and line concentration groove, the rolling post is located perpendicularly the inner wall of box, the perpendicular equidistance of outer wall of rolling post distributes and has first baffle, be between the first baffle the line concentration groove, the line concentration groove with the through wires hole relative distribution.
Specifically, wire mechanism equidistance is equipped with a plurality of, wire mechanism all is located same horizontal central line department, wire mechanism includes wire column, second baffle and metallic channel, the wire column is located perpendicularly the inner wall of box, the length of wire column with the length of coiling post is the same, the outer wall equidistance vertical distribution of wire column has the second baffle, be between the second baffle the metallic channel, the metallic channel with line concentration groove relative distribution.
Specifically, the surface of the wire clamping seat is provided with a plurality of wire clamping grooves which are distributed opposite to the wire guiding mechanism, and the wire clamping grooves are vertically tangent to the wire guiding columns.
Specifically, the clamping mechanism comprises a bottom plate, a first supporting angle seat, a supporting mechanism, a moving mechanism and a pressing plate, the bottom plate is fixed on the inner wall of the box body, the bottom of the surface of the bottom plate is provided with a second sliding chute, the surface of the bottom plate is symmetrically provided with third sliding chutes, one corner of the bottom end of the outer wall of the bottom plate is provided with the first supporting corner seat, the first supporting angle seat is L-shaped, the supporting mechanism and the first supporting angle seat are symmetrically distributed, the supporting mechanism comprises a second supporting angle seat and a first spring, the first spring is embedded in the second sliding groove, the first spring is fixedly connected with the second supporting angle seat which is symmetrically distributed with the first supporting angle seat, the second supporting angle seat is connected with the second sliding groove in a sliding mode, the third sliding groove is connected with the moving mechanisms in a sliding mode, and the pressing plate is connected between the two moving mechanisms in a sliding mode.
Specifically, moving mechanism includes slide bar, fixed plate and limit knob, the slide bar with third spout sliding connection, the bottom lateral wall of slide bar is equipped with the fixed plate, the fixed plate passes through limit knob fixed connection the third spout, open the inner wall of slide bar has the fourth spout, the inside embedding of fourth spout has the second spring, the tip embedding of clamp plate in the fourth spout, clamp plate fixed connection the second spring, the slide bar with bottom plate mutually perpendicular distributes, the clamp plate with slide bar mutually perpendicular distributes.
Specifically, sealing mechanism includes box body, reel, torsional spring, protection soft board, fixed strip and tapered end, the box body is located the inside top layer of box, the inside of box body is rotated and is connected the reel, the reel with the junction of box body is equipped with the torsional spring, the outer wall winding of reel has the protection soft board, the tip of protection soft board is equipped with the fixed strip, the both ends of fixed strip stretch into in the inside of first spout, the bottom of fixed strip is equipped with the tapered end, the tapered end with the lock body cooperation is connected.
The invention has the beneficial effects that:
(1) according to the multichannel network optical fiber rapid distribution box, the first supporting angle seat is used as an installation reference, one corner of the bottom surface of the access equipment can be placed on the first supporting angle seat, then the supporting mechanism is pulled, the second supporting angle seat and the first supporting angle seat can clamp and limit two ends of the bottom of the equipment, the equipment is prevented from shifting left and right, the position of the pressing plate can be adjusted through the moving mechanism, the pressing plate can press the outer wall of the equipment, the equipment is prevented from turning outwards, the installation and fixation of the access equipment with different sizes are realized, and the application range is wide.
(2) According to the multichannel network optical fiber rapid distribution box, redundant optical fibers can be wound through the winding mechanism, then the optical fibers are guided to turn through the wire guide mechanism, and the joints of the optical fibers are fixed through the wire clamping seats, so that the optical fibers can be distributed orderly, and later-stage arrangement is facilitated.
(3) The multi-channel network optical fiber rapid distribution box disclosed by the invention adopts the rolling type sealing mechanism, can effectively reduce the operation area of sealing equipment, and can meet the operation requirement of narrow areas.
Drawings
The invention is further illustrated with reference to the following figures and examples.
Fig. 1 is a schematic structural diagram of a preferred embodiment of the multi-channel fast distribution box for network optical fibers according to the present invention;
fig. 2 is a schematic view of a connection structure of the first winding mechanism and the second winding mechanism shown in fig. 1;
FIG. 3 is a schematic view of the connection structure between the wire guiding mechanism and the wire clamping seat shown in FIG. 2;
FIG. 4 is a schematic view of the clamping mechanism shown in FIG. 1;
FIG. 5 is an enlarged view of the structure at A shown in FIG. 4;
fig. 6 is a schematic structural view of the sealing mechanism shown in fig. 1.
In the figure: 1. a box body 11, a lock body 12, a first junction box 121, a threading hole 13, a second junction box 14, a first chute 2, a first winding mechanism 21, a winding column 22, a first clapboard 23, a line collecting groove 3, a second winding mechanism 4, a wire guiding mechanism 41, a wire guiding column 42, a second clapboard 43, a wire guiding groove 5, a wire clamping seat 51, a wire clamping groove 6, a clamping mechanism 61, a bottom plate 611, the sliding device comprises a second sliding groove, 612, a third sliding groove, 62, a first supporting angle seat, 63, a supporting mechanism, 631, a second supporting angle seat, 632, a first spring, 64, a moving mechanism, 641, a sliding rod, 6411, a fourth sliding groove, 6412, a second spring, 642, a fixing plate, 643, a limit knob, 65, a pressing plate, 7, a sealing mechanism, 71, a box body, 72, a winding drum, 73, a torsion spring, 74, a protective soft plate, 75, a fixing strip, 76 and a lock head.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
As shown in fig. 1-6, the multichannel network optical fiber fast distribution box of the present invention includes a box body 1, a first winding mechanism 2, a second winding mechanism 3, a wire mechanism 4, a wire clamping seat 5, a clamping mechanism 6 and a sealing mechanism 7, wherein the clamping mechanism 6 is installed inside the box body 1, and the clamping mechanism 6 is used for fixing an optical fiber connection device; the bottom of the clamping mechanism 6 is provided with the wire clamping seat 5, and the wire clamping seat 5 is used for fixing an optical fiber joint; the bottom of the wire clamping seat 5 is provided with the wire guiding mechanism 4, and the wire guiding mechanism 4 is used for guiding optical fibers; the first winding mechanism 2 and the second winding mechanism 3 are mounted on one side of the wire guide mechanism 4, and the first winding mechanism 2 and the second winding mechanism 3 are used for winding optical fibers; the outer surface of the box body 1 is connected with the sealing mechanism 7 in a matching mode, and the sealing mechanism 7 is used for sealing the box body 1.
Specifically, as shown in fig. 1, first sliding grooves 14 are symmetrically formed in the inner wall of the box body 1, a first junction box 12 and a second junction box 13 are arranged on the outer wall of the box body 1, the first junction box 12 is located at the bottom of the second junction box 13, the first junction box 12 and the second junction box 13 are located on the same side and have the same structure, a plurality of threading holes 121 are formed in the first junction box 12, and a lock body 11 is arranged at the bottom of the box body 1; the first junction box 12 and the second junction box 12 facilitate the penetration of optical fiber lines.
Specifically, as shown in fig. 2, the first winding mechanism 2 and the second winding mechanism 3 are respectively arranged opposite to the first terminal box 12 and the second terminal box 13, the first winding mechanism 2 includes winding posts 21, first partition plates 22 and wire collecting grooves 23, the winding posts 21 are vertically arranged on the inner wall of the box body 1, the first partition plates 22 are vertically and equidistantly distributed on the outer wall of the winding posts 21, the wire collecting grooves 23 are arranged between the first partition plates 22, and the wire collecting grooves 23 are oppositely distributed with the wire through holes 121; the optical fibers can be placed at the collecting grooves 23 to achieve the storage of the optical fibers, and the partition plates 22 can enable each collecting groove 23 to be independent.
Specifically, as shown in fig. 2, a plurality of wire mechanisms 4 are arranged at equal intervals, the wire mechanisms 4 are all located at the same horizontal center line, each wire mechanism 4 includes a wire column 41, a second partition plate 42 and a wire groove 43, the wire column 41 is vertically arranged on the inner wall of the box body 1, the length of the wire column 41 is the same as that of the winding column 21, the second partition plates 42 are vertically distributed on the outer wall of the wire column 41 at equal intervals, the wire grooves 43 are arranged between the second partition plates 42, and the wire grooves 43 are distributed opposite to the wire collecting grooves 23; the optical fiber can be steered and guided through the wire guide mechanism 4, the optical fiber is prevented from being bent and broken, and the optical fiber can be limited.
Specifically, as shown in fig. 3, a plurality of wire clamping grooves 51 are formed on the surface of the wire clamping seat 5 and are distributed opposite to the wire guiding mechanism 4, and the wire clamping grooves 51 are vertically tangent to the wire guiding columns 41; the joint of the optical fiber can be fixed through the wire clamping groove 51.
Specifically, as shown in fig. 4 and 5, the clamping mechanism 6 includes a bottom plate 61, a first supporting angle seat 62, a supporting mechanism 63, a moving mechanism 64 and a pressing plate 65, the bottom plate 61 is fixed on the inner wall of the box 1, a second sliding slot 611 is formed at the bottom of the surface of the bottom plate 61, a third sliding slot 612 is symmetrically formed on the surface of the bottom plate 61, the first supporting angle seat 62 is disposed at one corner of the bottom end of the outer wall of the bottom plate 61, the first supporting angle seat 62 is L-shaped, the supporting mechanism 63 is symmetrically distributed with the first supporting angle seat 62, the supporting mechanism 63 includes a second supporting angle seat 631 and a first spring 632, the first spring 632 is embedded in the second sliding slot 611, the first spring 632 is fixedly connected to the second supporting angle seat 631, the second supporting angle seat 631 is symmetrically distributed with the first supporting angle seat 62, the second supporting angle seat 631 is slidably connected to the second sliding slot 611, the third sliding groove 612 is connected with the moving mechanism 64 in a sliding manner, and the pressing plate 65 is connected between the two moving mechanisms 64 in a sliding manner; the moving mechanism 64 includes a sliding rod 641, a fixing plate 642 and a limit knob 643, the sliding rod 641 is slidably connected to the third sliding slot 612, the fixing plate 642 is disposed on a bottom end side wall of the sliding rod 641, the fixing plate 642 is fixedly connected to the third sliding slot 612 through the limit knob 643, a fourth sliding slot 6411 is formed on an inner wall of the sliding rod 641, a second spring 6412 is embedded in the fourth sliding slot 6411, an end of the pressing plate 65 is embedded in the fourth sliding slot 6411, the pressing plate 65 is fixedly connected to the second spring 6412, the sliding rod 641 and the bottom plate 61 are vertically distributed, and the pressing plate 65 and the sliding rod 641 are vertically distributed; can carry out effectual centre gripping fixed to access device through fixture 6, can satisfy not the fixed of unidimensional equipment, avoid equipment about, skew around.
Specifically, as shown in fig. 6, the sealing mechanism 7 includes a box body 71, a winding drum 72, a torsion spring 73, a protective soft plate 74, a fixing strip 75 and a lock 76, the box body 71 is disposed on the top layer inside the box body 1, the winding drum 72 is rotatably connected inside the box body 71, the torsion spring 73 is disposed at the connection position of the winding drum 72 and the box body 71, the protective soft plate 74 is wound around the outer wall of the winding drum 72, the fixing strip 75 is disposed at the end of the protective soft plate 74, two ends of the fixing strip 75 extend into the first sliding groove 14, the lock 76 is disposed at the bottom of the fixing strip 75, and the lock 76 is connected with the lock body 11 in a matching manner; the sealing mechanism 7 can reduce the operation area, is convenient to maintain and can be suitable for operation in narrow areas.
By adopting the first supporting angle seat 62 as an installation reference, one corner of the bottom surface of the access device can be placed on the first supporting angle seat 62, and then the supporting mechanism 63 is pulled, so that the second supporting angle seat 631 and the first supporting angle seat 62 can clamp and limit two ends of the bottom of the device, the left and right offset of the device is avoided, the position of the pressure plate 65 can be adjusted through the moving mechanism 64, the pressure plate 65 can compress the outer wall of the device, the device is prevented from turning outwards, the installation and fixation of the access devices with different sizes are realized, and the application range is wide; redundant optical fibers can be wound through the winding mechanism, then the optical fibers are guided to turn through the wire guide mechanism 4, and the joints of the optical fibers are fixed through the wire clamping seats 5, so that the optical fibers can be distributed orderly and are convenient for later arrangement; by adopting the rolling type sealing mechanism 7, the operation area of the sealing device can be effectively reduced, and the operation requirement of narrow areas can be met. The method specifically comprises the following steps:
(1) during installation, the clamping mechanism 6 is adjusted to a proper clamping size according to the size of the optical fiber access equipment, the second supporting angle seat 631 is pushed outwards firstly, so that the second supporting angle seat 631 compresses the first spring 632, then one corner of the bottom end of the access equipment is placed at the first supporting angle seat 62, then the second supporting angle seat 631 is loosened, so that the second supporting angle seat 631 is placed at the other corner of the bottom end of the equipment, the equipment is clamped and limited under the driving of the first spring 632, and thus the two corners at the bottom of the equipment are fixed; then the pressing plate 65 is pushed outwards along the fourth sliding groove 6411, so that the pressing plate 65 stretches the second spring 6412, then the sliding rod 641 is moved along the third sliding groove 612, so that the sliding rod 641 drives the pressing plate 65 to be placed outside the equipment, when the pressing plate 65 is placed at the center line of the equipment, the pressing plate 65 can be loosened, and the pressing plate 65 is driven by the second spring 6412 to move inwards, so that the middle outer wall of the equipment is clamped and limited, the installation and fixation of access equipment with different sizes are realized, and the application range is wide;
(2) when the optical fiber connector is installed, an optical fiber line penetrates through the threading hole 121 of the first junction box 12, the penetrated optical fiber can be wound on the winding post 21 on the first winding mechanism 2, the optical fiber can be wound on the line collecting groove 23 which is distributed opposite to the threading hole 121, after the redundant part is wound on the line collecting groove 23, the head part of the optical fiber penetrates through the corresponding line guiding groove 43 on the line guiding post 41, the optical fiber is turned, the connecting part of the optical fiber head is buckled into the corresponding line clamping groove 61, the joint part is limited, and then the optical fiber head is inserted into the corresponding interface, so that the optical fiber is installed and collected, the optical fiber is prevented from being stored in the box body 1 in a messy manner, the optical fiber is more orderly and convenient for later maintenance; when the optical fiber penetrates through the second junction box 13, the optical fiber can be wound on the second winding mechanism 3, then the optical fiber penetrates through the wire guide mechanism 4 and the wire clamping seat 5 in the same way, and finally the optical fiber is buckled;
(3) when the installation is finished and the locking device needs to be closed, the fixing strip 75 is pulled downwards, the fixing strip 75 moves downwards along the first sliding groove 14, the soft protection plate 74 leaves the winding drum 72 to move downwards, the box body 1 is sealed in a sealing mode, the lock head 76 is clamped with the lock body 11 together to achieve sealing, and therefore the sealing device occupies a small space and is convenient to operate and maintain.
According to the invention, the first supporting angle seat 62 is used as an installation reference, one corner of the bottom surface of the access device can be placed on the first supporting angle seat 62, then the supporting mechanism 63 is pulled, so that the second supporting angle seat 631 and the first supporting angle seat 62 can clamp and limit two ends of the bottom of the device, the left and right offset of the device is avoided, the position of the pressure plate 65 can be adjusted through the moving mechanism 64, the pressure plate 65 can compress the outer wall of the device, the device is prevented from turning outwards, the installation and fixation of the access devices with different sizes are realized, and the application range is wide; redundant optical fibers can be wound through the winding mechanism, then the optical fibers are guided to turn through the wire guide mechanism 4, and the joints of the optical fibers are fixed through the wire clamping seats 5, so that the optical fibers can be distributed orderly and are convenient for later arrangement; by adopting the rolling type sealing mechanism 7, the operation area of the sealing device can be effectively reduced, and the operation requirement of narrow areas can be met.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.