CN109031563B

CN109031563B - Optical fiber distribution frame

Info

Publication number: CN109031563B
Application number: CN201811116898.3A
Authority: CN
Inventors: 李训祺
Original assignee: Hongan Group Co Ltd
Current assignee: Weihai Changhe Light Guide Technology Co ltd; Weihai Weixin Fiber Technology Co ltd; Hongan Group Co Ltd
Priority date: 2018-09-25
Filing date: 2018-09-25
Publication date: 2020-08-28
Anticipated expiration: 2038-09-25
Also published as: CN109031563A

Abstract

The invention relates to the technical field of communication equipment, in particular to an optical fiber distribution frame, which comprises a lifting mechanism, a storage mechanism, a clamping mechanism, an adjusting mechanism and a floor slab, wherein the lifting mechanism is arranged on the storage mechanism; according to the invention, the storage mechanism is arranged on the bottom surface of the floor slab through the lifting mechanism, so that the floor area of the storage mechanism can be effectively reduced, people can freely walk at the bottom of the storage mechanism and keep away from the ground, electrical equipment can be prevented from being affected with damp, and the protection effect is better; the electric push rod drives the second sliding block to move, so that the telescopic adjustment of the scissor frame can be realized, the installation or maintenance of workers is more convenient, the spring can push and support the second sliding block outwards, the folding effect of the scissor frame is improved, and the storage mechanism is prevented from falling; can adjust each supporting mechanism's height according to the size of equipment to form the different thing room of putting in a plurality of spaces, installer alright put the wiring apparatus of size difference on the corresponding thing board of putting.

Description

Optical fiber distribution frame

Technical Field

The invention relates to the technical field of communication equipment, in particular to an optical fiber distribution frame.

Background

The optical fiber distribution frame is an optical fiber distribution device specially designed for an optical fiber communication machine room, has the functions of fixing and protecting optical cables, terminating the optical cables and adjusting wires, and is an indispensable part in an information machine room.

Most of the existing light distribution frames are placed on the ground, the occupied area is large, the space is not effectively utilized, people are inconvenient to maintain in daily life, and the operation space is limited. In view of this, the present invention provides an optical fiber distribution frame, which has the following characteristics:

(1) according to the optical fiber distribution frame, the storage mechanism is arranged on the bottom surface of the floor through the lifting mechanism, so that the occupied area of the storage mechanism can be effectively reduced, people can freely walk at the bottom of the storage mechanism and keep away from the ground, electrical equipment can be prevented from being affected with damp, and the protection effect is better.

(2) According to the optical fiber distribution frame, the electric push rod drives the second sliding block to move, so that the telescopic adjustment of the scissor type frame can be realized, the installation or maintenance of workers is more convenient, the spring can push and support the second sliding block outwards, the folding effect of the scissor type frame is improved, and the storage mechanism is prevented from falling.

(3) According to the optical fiber distribution frame, the height of each supporting mechanism can be adjusted according to the size of equipment, so that a plurality of storage rooms with different spaces are formed, and installation personnel can place wiring equipment with different sizes on corresponding storage plates.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the optical fiber distribution frame, the storage mechanism is arranged on the bottom surface of the floor slab through the lifting mechanism, the floor area of the storage mechanism can be effectively reduced, people can freely walk at the bottom of the storage mechanism and keep away from the ground, electrical equipment can be prevented from being affected with damp, and the protection effect is better; the electric push rod drives the second sliding block to move, so that the telescopic adjustment of the scissor frame can be realized, the installation or maintenance of workers is more convenient, the spring can push and support the second sliding block outwards, the folding effect of the scissor frame is improved, and the storage mechanism is prevented from falling; can adjust each supporting mechanism's height according to the size of equipment to form the different thing room of putting in a plurality of spaces, installer alright put the wiring apparatus of size difference on the corresponding thing board of putting.

The technical scheme adopted by the invention for solving the technical problems is as follows: an optical fiber distribution frame comprises a lifting mechanism, a storage mechanism, a clamping mechanism, an adjusting mechanism and a floor slab; the lifting mechanism is arranged on the bottom surface of the floor slab, the storage mechanism is fixedly connected to the bottom of the lifting mechanism, the lifting mechanism is used for driving the storage mechanism to move up and down, and the storage mechanism is used for storing light distribution equipment; the clamping mechanism is arranged in the storage mechanism and used for clamping the optical fiber; the bottom of the lifting mechanism is provided with the adjusting mechanism, and the adjusting mechanism is used for driving the lifting mechanism to move.

It is specific, elevating system includes mounting panel, outer jacket, cuts formula frame and bottom plate, the mounting panel passes through screw fixed connection the floor, open inside one side of mounting panel has first spout, the bottom surface of mounting panel is equipped with perpendicularly the outer jacket, the both ends of outer jacket are open structure, the inside of outer jacket is equipped with cut the formula frame, the top fixed connection who cuts the formula frame the mounting panel, the bottom fixed connection who cuts the formula frame the bottom plate, the inside opposite side of bottom plate is opened there is the second spout, the outer jacket with the bottom plate interval sets up.

Specifically, the top of the scissors frame is rotatably connected with a first slider and a first fixed head respectively, the first slider is slidably connected with a first chute, the first fixed head is fixedly connected with the mounting plate, the bottom of the scissors frame is rotatably connected with a second slider and a second fixed head respectively, the second slider is slidably connected with a second chute, and the second fixed head is fixedly connected with the bottom plate.

Specifically, adjustment mechanism includes electric putter and spring, the spring is fixed in the inside of second spout, the spring with second slider fixed connection, the second slider deviates from one side of spring is equipped with electric putter, electric putter's one end with second slider fixed connection, electric putter's other end fixed connection the inner wall of second spout.

It is specific, store the mechanism and include the roof, put thing board, supporting mechanism and connecting plate, the connecting plate with the underrun screw connection of bottom plate, the connecting plate is the style of calligraphy of falling T, the perpendicular symmetry of connecting plate is located the surface of roof, the bottom parallel of roof is equipped with the area the same put the thing board, it is equipped with a plurality of to put the thing board from top to bottom parallel, the roof with put between the thing board, adjacent put all through between the thing board supporting mechanism fixed connection, supporting mechanism locates perpendicularly the bottom surface both sides of roof, the roof put the thing board and be the mesh structure.

Specifically, the supporting mechanism comprises a supporting box, a supporting plate and a first limiting knob, the supporting plate is sleeved inside the supporting box, and the supporting plate is fixedly connected with the supporting box through the first limiting knob.

Specifically, fixture distribute in the roof the bottom surface of putting the thing board, fixture are linear array equidistance and distribute, fixture includes stay tube, the spacing knob of second, branch, torsional spring and splint, the inside of stay tube has been cup jointed branch, the stay tube with pass through between the branch the spacing knob fixed connection of second, the bottom symmetry of branch is rotated and is connected with two splint, the inner wall of splint is opened there is arc groove structure, splint with the junction of branch is equipped with the torsional spring.

The invention has the beneficial effects that:

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram of an optical fiber distribution frame according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of a connection structure of the scissor rack and the adjusting mechanism shown in FIG. 1;

FIG. 3 is a schematic structural view of the storage mechanism shown in FIG. 1;

FIG. 4 is a schematic structural view of the support mechanism shown in FIG. 3;

fig. 5 is a schematic structural view of the clamping mechanism shown in fig. 1.

In the figure: 1. the lifting mechanism comprises a lifting mechanism, 11, a mounting plate, 111, a first sliding groove, 12, an outer shield, 13, a scissor frame, 131, a first sliding block, 132, a first fixing head, 133, a second fixing head, 134, a second sliding block, 14, a bottom plate, 141, a second sliding groove, 2, a storage mechanism, 21, a top plate, 22, a storage plate, 23, a supporting mechanism, 231, a supporting box, 232, a supporting plate, 233, a first limit knob, 24, a connecting plate, 3, a clamping mechanism, 31, a supporting pipe, 32, a second limit knob, 33, a supporting rod, 34, a torsion spring, 35, a clamping plate, 4, an adjusting mechanism, 41, an electric push rod, 42, a spring, 5 and a floor.

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. 1-5, an optical fiber distribution frame according to the present invention includes a lifting mechanism 1, a storage mechanism 2, a clamping mechanism 3, an adjusting mechanism 4, and a floor 5; the lifting mechanism 1 is installed on the bottom surface of the floor slab 5, the storage mechanism 2 is fixedly connected to the bottom of the lifting mechanism 1, the lifting mechanism 1 is used for driving the storage mechanism 2 to move up and down, and the storage mechanism 2 is used for storing light distribution equipment; the clamping mechanism 3 is arranged in the storage mechanism 2, and the clamping mechanism 3 is used for clamping an optical fiber; the bottom of the lifting mechanism 1 is provided with the adjusting mechanism 4, and the adjusting mechanism 4 is used for driving the lifting mechanism 1 to move.

Specifically, as shown in fig. 1 and 2, the lifting mechanism 1 includes a mounting plate 11, an outer cover 12, a scissor frame 13 and a bottom plate 14, the mounting plate 11 is fixedly connected to the floor 5 through screws, a first sliding groove 111 is formed in one side inside the mounting plate 11, the outer cover 12 is vertically arranged on the bottom surface of the mounting plate 11, both ends of the outer cover 12 are of an open structure, the scissor frame 13 is arranged inside the outer cover 12, the top end of the scissor frame 13 is fixedly connected to the mounting plate 11, the bottom end of the scissor frame 13 is fixedly connected to the bottom plate 14, a second sliding groove 134 is formed in the other side inside the bottom plate 14, and the outer cover 12 and the bottom plate 14 are arranged at intervals; the bottom plate 14 can be effectively driven to move up and down through the scissor frame 13, and the position of the storage mechanism 2 is adjusted.

Specifically, as shown in fig. 1 and fig. 2, a first slider 131 and a first fixed head 132 are respectively rotatably connected to the top end of the scissor frame 13, the first slider 131 is slidably connected to the first sliding groove 111, the first fixed head 132 is fixedly connected to the mounting plate 11, a second slider 134 and a second fixed head 133 are respectively rotatably connected to the bottom end of the scissor frame 13, the second slider 134 is slidably connected to the second sliding groove 141, and the second fixed head 133 is fixedly connected to the bottom plate 14; the scissor frame 13 can be ensured to rotate and move freely through the sliding blocks and the fixed heads.

Specifically, as shown in fig. 2, the adjusting mechanism 4 includes an electric push rod 41 and a spring 42, the spring 42 is fixed inside the second sliding groove 141, the spring 42 is fixedly connected to the second slider 134, the electric push rod 41 is disposed on a side of the second slider 134 away from the spring 42, one end of the electric push rod 41 is fixedly connected to the second slider 134, and the other end of the electric push rod 41 is fixedly connected to an inner wall of the second sliding groove 141; the scissor frame 13 can be driven to move telescopically through the electric push rod 41, so that the control process is simpler and more convenient, and the spring 42 can support the scissor frame 13.

Specifically, as shown in fig. 3 and 4, the storage mechanism 2 includes a top plate 21, object placing plates 22, supporting mechanisms 23, and connecting plates 24, the connecting plates 24 are connected to the bottom surface of the bottom plate 14 by screws, the connecting plates 24 are inverted T-shaped, the connecting plates 24 are vertically and symmetrically disposed on the surface of the top plate 21, the object placing plates 22 having the same area are disposed in parallel at the bottom of the top plate 21, the object placing plates 22 are disposed in parallel from top to bottom, a plurality of object placing plates 22 are disposed between the top plate 21 and the object placing plates 22, and adjacent object placing plates 22 are fixedly connected by the supporting mechanisms 23, the supporting mechanisms 23 are vertically disposed at two sides of the bottom surface of the top plate 21, and the top plate 21 and the object placing plates 22 are both mesh structures; the supporting mechanism 23 comprises a supporting box 231, a supporting plate 232 and a first limit knob 233, the supporting plate 232 is sleeved inside the supporting box 231, and the supporting plate 232 is fixedly connected with the supporting box 231 through the first limit knob 233; can store not unidimensional equipment through storing mechanism 2, the storage capacity is big, and application scope is wide, still can guarantee heat dispersion.

Specifically, as shown in fig. 5, the clamping mechanisms 3 are distributed on the top plate 21 and the bottom surface of the object placing plate 22, the clamping mechanisms 3 are distributed in a linear array at equal intervals, each clamping mechanism 3 includes a supporting tube 31, a second limit knob 32, a supporting rod 33, a torsion spring 34 and a clamping plate 35, the supporting rod 33 is sleeved inside the supporting tube 31, the supporting tube 31 is fixedly connected with the supporting rod 33 through the second limit knob 32, the two clamping plates 35 are symmetrically and rotatably connected to the bottom end of the supporting rod 33, an arc-shaped groove structure is formed in the inner wall of each clamping plate 35, and the torsion spring 34 is arranged at the connection position of each clamping plate 35 and the corresponding supporting rod 33; can carry out the centre gripping spacing to optic fibre through fixture 3, avoid the crooked damage of optical fiber head.

The storage mechanism 2 is arranged on the bottom surface of the floor 5 through the lifting mechanism 1, so that the floor area of the storage mechanism 2 can be effectively reduced, people can freely walk at the bottom of the storage mechanism 2 and keep away from the ground, electrical equipment can be prevented from being affected with damp, and the protection effect is better; the electric push rod 41 drives the second sliding block 134 to move, so that the telescopic adjustment of the scissor frame 13 can be realized, the installation or maintenance of workers is more convenient, the spring 42 and the spring 42 can push and support the second sliding block 134 outwards, the folding effect of the scissor frame 13 is improved, and the storage mechanism 2 is prevented from falling; the height of each supporting mechanism 23 can be adjusted according to the size of the equipment, so that a plurality of storage chambers with different spaces are formed, and an installer can place wiring equipment with different sizes on the corresponding storage plates 22. The method specifically comprises the following steps:

(1) when the frame is installed, the installation plate 11 is fixed on the bottom surface of the floor slab 5 through expansion screws, and then the connection plate 24 is connected with the bottom plate 14 through screws;

(2) when light wiring equipment needs to be placed and wiring is conducted, the electric push rod 41 can be driven to move, the electric push rod 41 extends to drive the second sliding block 134 to move along the second sliding groove 141 and compress the spring 42 at the same time, the second sliding block 134 moves to drive the scissor frame 13 to extend downwards, the scissor frame 13, the first fixing head 132 and the second fixing head 133 rotate, and the first sliding block 131 slides inwards along the first sliding groove 111, so that the storage mechanism 2 is pushed downwards integrally to reach an area where an installer can operate;

(3) the height of each supporting mechanism 23 can be adjusted by an installer according to the size of the equipment, in the process, the supporting plate 22 is adjusted to the required extension length, the first limit knob 233 is screwed down, a plurality of storage chambers with different spaces can be formed as required, and different wiring equipment is respectively placed on the corresponding storage plates 22;

(4) after the optical fiber is connected with the distribution equipment, the extension length of the corresponding support rod 33 can be adjusted, so that the clamping plate 35 is in contact with the optical fiber, the clamping plate 35 is rotated outwards and the torsion spring 34 is compressed, the optical fiber is placed in the groove of the clamping plate 35, then the clamping plate 35 is loosened, and the optical fiber is clamped and limited under the driving of the clamping force of the clamping plate 35;

(5) after the optical fiber is installed, the electric push rod 41 is driven to contract, so that the second sliding block 134 moves outwards along the second sliding groove 141, the scissor frame 13 can be folded together, the storage mechanism 2 is driven to move upwards integrally, storage of the storage mechanism 2 is achieved, the occupied area of the storage mechanism 2 is reduced, people can walk freely at the bottom of the storage mechanism 2, the spring 42 can push and support the second sliding block 134 outwards, and the folding effect of the scissor frame 13 is improved.

According to the invention, the storage mechanism 2 is arranged on the bottom surface of the floor slab 5 through the lifting mechanism 1, so that the floor area of the storage mechanism 2 can be effectively reduced, people can freely walk at the bottom of the storage mechanism 2 and keep away from the ground, electrical equipment can be prevented from being affected with damp, and the protection effect is better; the electric push rod 41 drives the second sliding block 134 to move, so that the telescopic adjustment of the scissor frame 13 can be realized, the installation or maintenance of workers is more convenient, the spring 42 and the spring 42 can push and support the second sliding block 134 outwards, the folding effect of the scissor frame 13 is improved, and the storage mechanism 2 is prevented from falling; the height of each supporting mechanism 23 can be adjusted according to the size of the equipment, so that a plurality of storage chambers with different spaces are formed, and an installer can place wiring equipment with different sizes on the corresponding storage plates 22.

The electric push rod 41 adopts an HLF-01 model provided by Beijing China electric macro-stereo electromechanical technology and related matched power supply and circuit thereof.

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.

Claims

1. An optical fiber distribution frame, characterized by: comprises a lifting mechanism (1), a storage mechanism (2), a clamping mechanism (3), an adjusting mechanism (4) and a floor slab (5); the lifting mechanism (1) is installed on the bottom surface of the floor slab (5), the storage mechanism (2) is fixedly connected to the bottom of the lifting mechanism (1), the lifting mechanism (1) is used for driving the storage mechanism (2) to move up and down, and the storage mechanism (2) is used for storing light distribution equipment; the clamping mechanism (3) is arranged in the storage mechanism (2), and the clamping mechanism (3) is used for clamping an optical fiber; the adjusting mechanism (4) is installed at the bottom of the lifting mechanism (1), and the adjusting mechanism (4) is used for driving the lifting mechanism (1) to move;

the lifting mechanism (1) comprises a mounting plate (11), an outer shield (12), a shear type frame (13) and a bottom plate (14), the mounting plate (11) is fixedly connected with the floor (5) through screws, a first sliding groove (111) is formed in one side of the inside of the mounting plate (11), the outer shield (12) is vertically arranged on the bottom surface of the mounting plate (11), two ends of the outer shield (12) are both of an open structure, the shear type frame (13) is arranged inside the outer shield (12), the top end of the shear type frame (13) is fixedly connected with the mounting plate (11), the bottom end of the shear type frame (13) is fixedly connected with the bottom plate (14), a second sliding groove (141) is formed in the other side of the inside of the bottom plate (14), and the outer shield (12) and the bottom plate (14) are arranged at intervals;

the top end of the scissor frame (13) is respectively rotatably connected with a first sliding block (131) and a first fixed head (132), the first sliding block (131) is slidably connected with the first sliding groove (111), the first fixed head (132) is fixedly connected with the mounting plate (11), the bottom end of the scissor frame (13) is respectively rotatably connected with a second sliding block (134) and a second fixed head (133), the second sliding block (134) is slidably connected with the second sliding groove (141), and the second fixed head (133) is fixedly connected with the bottom plate (14);

the adjusting mechanism (4) comprises an electric push rod (42) and a spring (41), the spring (41) is fixed inside the second sliding groove (141), the spring (41) is fixedly connected with the second sliding block (134), the electric push rod (42) is arranged on one side, away from the spring (41), of the second sliding block (134), one end of the electric push rod (42) is fixedly connected with the second sliding block (134), and the other end of the electric push rod (42) is fixedly connected with the inner wall of the second sliding groove (141);

the storage mechanism (2) comprises a top plate (21), object placing plates (22), supporting mechanisms (23) and connecting plates (24), the connecting plates (24) are connected with the bottom surface of the bottom plate (14) through screws, the connecting plates (24) are inverted T-shaped, the vertical symmetry of the connecting plates (24) is arranged on the surface of the top plate (21), the object placing plates (22) with the same area are arranged at the bottom of the top plate (21) in parallel, a plurality of object placing plates (22) are arranged in parallel from top to bottom, the positions between the top plate (21) and the object placing plates (22) and between the adjacent object placing plates (22) are fixedly connected through the supporting mechanisms (23), the supporting mechanisms (23) are vertically arranged on two sides of the bottom surface of the top plate (21), and the top plate (21) and the object placing plates (22) are both in mesh structures;

the supporting mechanism (23) comprises a supporting box (231), a supporting plate (232) and a first limiting knob (233), the supporting plate (232) is sleeved inside the supporting box (231), and the supporting plate (232) is fixedly connected with the supporting box (231) through the first limiting knob (233);

the clamping mechanisms (3) are distributed on the top plate (21) and the bottom surface of the object placing plate (22), the clamping mechanisms (3) are distributed in a linear array at equal intervals, each clamping mechanism (3) comprises a supporting tube (31), a second limit knob (32), a supporting rod (33), a torsion spring (34) and clamping plates (35), the supporting tubes (33) are sleeved inside the supporting tubes (31), the supporting tubes (31) and the supporting rods (33) are fixedly connected through the second limit knobs (32), the two clamping plates (35) are symmetrically and rotatably connected to the bottom ends of the supporting rods (33), arc-shaped groove structures are formed in the inner walls of the clamping plates (35), and the torsion springs (34) are arranged at the joints of the clamping plates (35) and the supporting rods (33);

when the scaffold is used, the mounting plate (11) is fixed on the bottom surface of the floor slab (5) through expansion screws when the scaffold is mounted, and then the connecting plate (24) is connected with the bottom plate (14) through the screws; when light wiring equipment needs to be placed and wiring is conducted, the electric push rod (42) can be driven to move, the electric push rod (42) extends to drive the second sliding block (134) to move along the second sliding groove (141) and can compress the spring (41) at the same time, the second sliding block (134) moves to drive the scissor frame (13) to extend downwards, the scissor frame (13), the first fixing head (132) and the second fixing head (133) rotate, and the first sliding block (131) slides inwards along the first sliding groove (111), so that the storage mechanism (2) is pushed downwards integrally to reach an area where an installer can operate;

the height of each supporting mechanism (23) can be adjusted by an installer according to the size of the equipment, in the process, the object placing plate (22) is adjusted to the required extension length, the first limiting knob (233) is screwed down, a plurality of object placing chambers with different spaces can be formed as required, and different wiring equipment is placed on the corresponding object placing plate (22) respectively;

after the optical fiber is connected with the distribution equipment, the extension length of the corresponding support rod (33) can be adjusted, so that the clamping plate (35) is in contact with the optical fiber, the clamping plate (35) is rotated outwards and the torsion spring (34) is compressed, the optical fiber is placed in the groove of the clamping plate (35), then the clamping plate (35) is loosened, and the optical fiber is clamped and limited under the driving of the clamping force of the clamping plate (35);

after the optical fiber is installed, the electric push rod (42) is driven to contract, the second sliding block (134) moves outwards along the second sliding groove (141), the shear type frame (13) can be folded together, the storage mechanism (2) is driven to move upwards integrally, storage of the storage mechanism (2) is achieved, the occupied area of the storage mechanism (2) is reduced, people can walk freely at the bottom of the storage mechanism (2), the spring (41) can push and support the second sliding block (134) outwards, and the folding effect of the shear type frame (13) is improved.