CN110579847A - Intelligent optical cable cross-connecting cabinet with automatic optical fiber resource management function - Google Patents

Abstract

The invention discloses an intelligent optical cable cross-connecting cabinet with an automatic optical fiber resource management function, which comprises a cabinet body, wherein a cabinet door is hinged to the right side of the cabinet body, a heat dissipation mechanism is arranged on the top surface of the cabinet body, a first cavity and a second cavity are arranged in the cabinet body, the first cavity is positioned above the second cavity, the first cavity is arranged close to the bottom of the cabinet body, and a heat exchange mechanism is arranged in the second cavity. The driving motor drives the fan blades to cool and radiate the internal electric appliance in the box body, at the moment, the flowing air is discharged into the first cavity through the vent hole, so that the S-shaped heat exchange bent pipe can quickly exchange heat for the flowing air, the heat radiation effect in the box body is effectively improved, the influence on the normal use of the optical cable cross-connecting box after the internal electric appliance is damaged due to overheating is avoided, the accessed optical fiber resources are sent into the monitoring unit through the information receiver on the mounting frame in the box body, and the controller is matched with the intelligent management terminal and the intelligent box-type light splitter to automatically manage the accessed optical fiber resources.

Description

Intelligent optical cable cross-connecting cabinet with automatic optical fiber resource management function

Technical Field

The invention relates to the technical field of intelligent optical cable cross connecting boxes, in particular to an intelligent optical cable cross connecting box with an automatic optical fiber resource management function.

Background

the optical cable cross-connecting box is a cross-connecting device for providing optical cable terminating and jumping connection for a main layer optical cable and a wiring layer optical cable, after the optical cable is introduced into the optical cable cross-connecting box and is fixed, terminated and matched with fibers, the main layer optical cable and the wiring layer optical cable are communicated by using the jumping fibers, the optical cable cross-connecting box is a connecting device installed outdoors, the optical cable cross-connecting box has the characteristics of moisture condensation resistance, water resistance, dust resistance, insect damage and mouse damage resistance and strong impact damage resistance, the most fundamental requirement is that the optical cable cross-connecting box can resist severe weather and severe working environment, and therefore, the outer side of the box body has higher requirements on the aspects of water resistance, moisture resistance, dust resistance, impact damage resistance, mouse damage resistance and the like.

the existing optical cable cross-connecting cabinet is dense in internal electric appliances and optical cable lines, can generate a large amount of heat during operation, if the inside of the cabinet is not timely radiated, the internal electric appliances are easily damaged due to overheating, the normal use of the optical cable cross-connecting cabinet is influenced, the optical cable cross-connecting cabinet is usually placed in the field, due to the limitation of partial field severe environment, the optical cable cross-connecting cabinet is inconvenient to manage, the automatic management of optical fiber resources is lacked, and the intelligent optical cable cross-connecting cabinet with the automatic management function of the optical fiber resources is provided for solving the problems.

disclosure of Invention

The invention provides an intelligent optical cable cross-connecting cabinet with an automatic optical fiber resource management function, which is used for solving the technical problems that a large amount of heat is generated during the operation of the existing optical cable cross-connecting cabinet in the background technology, if the heat is not dissipated inside a cabinet body in time, internal electric appliances are easily damaged due to overheating, the normal use of the optical cable cross-connecting cabinet is influenced, the optical cable cross-connecting cabinet is usually placed in the field, and due to the limitation of partial field severe environment, the optical cable cross-connecting cabinet is very inconvenient to manage, and the automatic optical fiber resource management is lacked.

in order to achieve the purpose, the invention adopts the following technical scheme:

The utility model provides an intelligence optical cable distributing box with optic fibre resource automatic management function, includes the box, the right side of box articulates there is the chamber door, be equipped with heat dissipation mechanism on the top surface of box, be equipped with first cavity and second cavity in the box, first cavity is located the top of second cavity, first cavity is close to the bottom half setting, be equipped with heat transfer mechanism in the second cavity, heat transfer mechanism runs through first cavity bottom setting, be equipped with fixture in the first cavity, heat transfer mechanism and fixture joint, be equipped with optic fibre resource automatic management mechanism in the box.

preferably, heat dissipation mechanism is including setting up third chamber and the dust screen of fixed connection on the box top surface respectively, fixed mounting has driving motor on the top surface of third chamber, driving motor's the vertical setting down of drive shaft, fixedly connected with pivot in driving motor's the drive shaft, the lower extreme of pivot is rotated and is run through the bottom setting of third chamber, the pivot is located a plurality of flabellums of fixedly connected with on the outer annular side wall of third chamber, the dust screen panel is located on a plurality of flabellums.

Preferably, heat transfer mechanism is including setting up the water storage box in the second chamber bottom, fixed mounting has miniature pump in the water storage box, miniature pump' S output intercommunication is provided with S type heat transfer return bend, S type heat transfer return bend runs through water storage box top surface and first chamber bottom setting, S type heat transfer return bend erect in first chamber and with the fixture joint, the free end of S type heat transfer return bend runs through first chamber bottom and water storage box top surface setting.

preferably, the water storage tank communicates respectively on being close to the left and right sides inner wall of bottom and is provided with inlet tube and drain pipe, inlet tube and drain pipe all run through the setting of second cavity inner wall, inlet tube and drain pipe are located the equal fixed mounting of serving outside the second cavity and are served and have the governing valve.

Preferably, fixture includes two fixed plates of fixed connection respectively on the inner wall of the first cavity left and right sides, two equal a plurality of fixed blocks of fixedly connected with on the relative lateral wall of fixed plate, it is with a plurality of the same one the fixed block is close to the upper and lower both ends setting of fixed plate respectively, two on the same horizontal plane the arc that communicates about all being equipped with on the relative lateral wall of fixed block leads to the groove, and is a plurality of equal fixedly connected with arc fixture block on the inner wall that the arc led to the groove, S type heat transfer return bend runs through a plurality of arcs and leads to the groove setting.

Preferably, the arc-shaped fixture block is made of rubber.

Preferably, automatic management mechanism of optic fibre resource includes the mounting bracket of fixed mounting in the box, be equipped with a plurality of air vents on the mounting bracket, install controller, monitor cell, information receiver, intelligent management terminal and intelligent box-shaped light splitter on the mounting bracket, monitor cell and intelligent management terminal all with controller communication connection, monitor cell and information receiver communication connection, intelligent management terminal and intelligent box-shaped light splitter communication connection.

Preferably, the monitoring unit comprises a single chip microcomputer, a communication module and a driving module are connected to the single chip microcomputer, and an upper computer is connected to the communication module.

Compared with the prior art, the invention has the beneficial effects that:

1. Drive a plurality of flabellums through driving motor and carry out the forced air cooling heat dissipation to the inside electrical apparatus in the box, the air that flows this moment is in via the air vent row into first cavity for S type heat transfer return bend can carry out the heat transfer to the air that flows fast, and then effectively promotes the inside radiating effect of box, avoids the overheated impaired normal use that influences optical cable distributing box of back of inside electrical apparatus.

2. The accessed optical fiber resources are sent into the monitoring unit through the information receiver on the mounting rack in the box body, so that the controller is matched with the intelligent management terminal and the intelligent box-type light splitter to automatically manage the accessed optical fiber resources.

Drawings

Fig. 1 is a schematic perspective view of an intelligent optical cable cross-connecting cabinet with an automatic optical fiber resource management function according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is an enlarged view of a portion of FIG. 1 at C;

Fig. 5 is a schematic structural diagram of a clamping mechanism of an intelligent optical cable cross-connecting cabinet with an automatic optical fiber resource management function according to the present invention;

Fig. 6 is a block diagram of an automatic optical fiber resource management mechanism of an intelligent optical cable cross-connecting cabinet with an automatic optical fiber resource management function according to the present invention;

Fig. 7 is a block diagram of a monitoring unit of an intelligent optical cable cross-connecting cabinet with an automatic optical fiber resource management function according to the present invention.

In the figure: the system comprises a box body 1, a box door 2, a heat dissipation mechanism 3, a first chamber 4, a second chamber 5, a heat exchange mechanism 6, a clamping mechanism 7, an optical fiber resource automatic management mechanism 8, a third chamber 9, a dust screen 10, a driving motor 11, a rotating shaft 12, fan blades 13, a water storage tank 14, a miniature water pump 15, a heat exchange bent pipe 16S, a water inlet pipe 17, a water outlet pipe 18, a regulating valve 19, a fixing plate 20, a fixing block 21, an arc through groove 22, an arc clamping block 23, a controller 8-1, an information receiver 8-2, an intelligent management terminal 8-3 and an intelligent box-type light splitter 8-4.

Detailed Description

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

referring to fig. 1-7, an intelligence optical cable distributing box with optic fibre resource automatic management function, including box 1, box 1's right side articulates there is chamber door 2, be equipped with heat dissipation mechanism 3 on box 1's the top surface, heat dissipation mechanism 3 is including setting up respectively third chamber 9 and the dust screen 10 of fixed connection on box 1 top surface, dust screen 10 is used for avoiding unexpected touching pivoted flabellum 13, fixed mounting has driving motor 11 on third chamber 9's the top surface, driving motor 11 is used for driving a plurality of flabellums 13 of pivot 12 and rotates, driving motor 11's model is: Y80M1-2, the circulation of air in box 1 can be accelerated in the rotation of a plurality of flabellums 13 to carry out forced air cooling heat dissipation to the inside electrical apparatus in the box 1, driving motor 11's drive shaft sets up vertically down, fixedly connected with pivot 12 in driving motor 11's the drive shaft, the lower extreme of pivot 12 rotates the bottom setting that runs through third chamber 9, pivot 12 is located a plurality of flabellums 13 of fixedly connected with on the outer annular lateral wall of third chamber 9, dust screen 10 covers and locates on a plurality of flabellums 13.

The box body 1 is internally provided with a first cavity 4 and a second cavity 5, the first cavity 4 is positioned above the second cavity 5, the first cavity 4 is arranged close to the bottom of the box body 1, the second cavity 5 is internally provided with a heat exchange mechanism 6, the heat exchange mechanism 6 is arranged by penetrating through the bottom of the first cavity 4, the heat exchange mechanism 6 comprises a water storage tank 14 arranged on the bottom of the second cavity 5, a micro water pump 15 is fixedly arranged in the water storage tank 14, the micro water pump 15 is used for guiding cold water in the water storage tank 14 into an S-shaped heat exchange elbow 16 to realize cold water circulation in the S-shaped heat exchange elbow 16, the model of the micro water pump 15 is DC30, the output end of the micro water pump 15 is communicated with the S-shaped heat exchange elbow 16, the S-shaped heat exchange elbow 16 is arranged by penetrating through the top surface of the water storage tank 14 and the bottom of the first cavity 4, the S-shaped heat exchange elbow 16 is erected in the first cavity 4 and clamped with a clamping mechanism 7, the cold water of the circulation in the S-shaped heat exchange elbow 16 is used for carrying out quick heat exchange on the flowing air discharged into the first chamber 4, so that the heat dissipation effect inside the box body 1 is effectively improved, and the normal use of the optical cable cross connecting box is prevented from being influenced after internal electric appliances are overheated and damaged.

the water storage tank 14 communicates respectively on being close to the left and right sides inner wall of bottom and is provided with inlet tube 17 and drain pipe 18, inlet tube 17 and drain pipe 18 all run through the 5 inner walls of second cavity and set up, inlet tube 17 is arranged in leading-in water storage tank 14 with external cold water, drain pipe 18 is arranged in the cold water of regularly changing the water storage tank 14, inlet tube 17 and drain pipe 18 lie in one of second cavity 5 outer and serve equal fixed mounting have governing valve 19, governing valve 19 is arranged in controlling the liquid flow of inlet tube 17 and drain pipe 18, governing valve 19's model does: 020-ZXP-O10 BL-13.

A clamping mechanism 7 is arranged in the first chamber 4, a heat exchange mechanism 6 is clamped with the clamping mechanism 7, the clamping mechanism 7 comprises two fixed plates 20 which are respectively and fixedly connected with the inner walls of the left side and the right side of the first chamber 4, a plurality of fixed blocks 21 are respectively and fixedly connected with the opposite side walls of the two fixed plates 20, the plurality of fixed blocks 21 on the same side are respectively arranged near the upper end and the lower end of the fixed plates 20, the opposite side walls of the two fixed blocks 21 on the same horizontal plane are respectively provided with an arc through groove 22 which is communicated up and down, the inner walls of the plurality of arc through grooves 22 are respectively and fixedly connected with an arc fixture block, make arc fixture block 23 of the interior rubber material of arc through groove 22 carry out effective centre gripping fixedly to S type heat transfer return bend 16, S type heat transfer return bend 16 runs through a plurality of arc through groove 22 settings and with arc fixture block 23 joint, arc fixture block 23 is rubber products.

An optical fiber resource automatic management mechanism 8 is arranged in the box body 1, the optical fiber resource automatic management mechanism 8 comprises a mounting frame fixedly arranged in the box body 1, a plurality of vent holes (not shown in the figure) are arranged on the mounting frame and are used for guiding flowing air into the first chamber 4 and exchanging heat with circulating cold water in the S-shaped heat exchange bent pipe 16, a controller 8-1, a monitoring unit, an information receiver 8-2, an intelligent management terminal 8-3 and an intelligent box-type light splitter 8-4 are arranged on the mounting frame, the monitoring unit and the intelligent management terminal 8-3 are in communication connection with the controller 8-1, the monitoring unit is in communication connection with the information receiver 8-2, the intelligent management terminal 8-3 is in communication connection with the intelligent box-type light splitter 8-4, the information receiver 8-2 sends the accessed optical fiber resource into the monitoring unit, the controller 8-1 is matched with the intelligent management terminal 8-3 and the intelligent box-type optical splitter 8-4 to automatically manage the accessed optical fiber resources, the monitoring unit comprises a single chip microcomputer, a communication module and a driving module are connected to the single chip microcomputer, an upper computer is connected to the communication module, the communication module is used for connecting the upper computer and the single chip microcomputer, the single chip microcomputer receives instructions of the upper computer and transmits the instructions to the communication module, and after the information receiver 8-2 sends the accessed optical fiber resources into the communication module, the controller 8-1 is matched with the intelligent management terminal 8-3 and the intelligent box-type optical splitter 8-4 to automatically manage the accessed optical fiber resources.

In the invention, a regulating valve 19 on a water inlet pipe 17 is opened to lead external cold water into a water storage tank 14 through the water inlet pipe 17, a micro water pump 15 is started to discharge the cold water in the water storage tank 14 into an S-shaped heat exchange elbow 16, a driving motor 11 in a third chamber 9 is started to drive a plurality of fan blades 13 on a rotating shaft 12 to rotate, the air flow in a box body 1 is accelerated after the plurality of fan blades 13 rotate, the flowing air is discharged into a first chamber 4 through a plurality of vent holes (not shown) on a mounting frame (not shown), at the moment, the cold water continuously circulating in the S-shaped heat exchange elbow 16 can effectively and quickly exchange heat with the flowing air, so that the heat dissipation effect in the box body 1 is effectively improved, the normal use of an optical cable cross-connecting box is prevented from being influenced after internal electrical appliances are overheated, and the accessed optical fiber resources are sent into a monitoring unit through an information receiver 8-2 on the mounting, the controller 8-1 is matched with the intelligent management terminal 8-3 and the intelligent box type optical splitter 8-4 to automatically manage the accessed optical fiber resources.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides an intelligence optical cable distributing box with optic fibre resource automatic management function, includes box (1), the right side of box (1) articulates there is chamber door (2), a serial communication port, be equipped with heat dissipation mechanism (3) on the top surface of box (1), be equipped with first cavity (4) and second cavity (5) in box (1), first cavity (4) are located the top of second cavity (5), first cavity (4) are close to box (1) bottom and set up, be equipped with heat transfer mechanism (6) in second cavity (5), heat transfer mechanism (6) run through first cavity (4) bottom and set up, be equipped with fixture (7) in first cavity (4), heat transfer mechanism (6) and fixture (7) joint, be equipped with optic fibre resource automatic management mechanism (8) in box (1).

2. The intelligent optical cable cross-connecting cabinet with the automatic optical fiber resource management function according to claim 1, wherein the heat dissipation mechanism (3) comprises a third chamber (9) and a dust screen (10), the third chamber (9) and the dust screen (10) are respectively disposed on the top surface of the cabinet (1), a driving motor (11) is fixedly mounted on the top surface of the third chamber (9), a driving shaft of the driving motor (11) is disposed vertically downward, a rotating shaft (12) is fixedly connected to the driving shaft of the driving motor (11), the lower end of the rotating shaft (12) is rotatably disposed through the bottom of the third chamber (9), the rotating shaft (12) is disposed on an annular side wall outside the third chamber (9) and is fixedly connected with a plurality of fan blades (13), and the dust screen (10) is covered on the plurality of fan blades (13).

3. The intelligent optical cable cross-connecting box with the function of automatically managing the optical fiber resources is characterized in that the heat exchange mechanism (6) comprises a water storage box (14) arranged at the bottom of the second chamber (5), a miniature water pump (15) is fixedly installed in the water storage box (14), an S-shaped heat exchange elbow (16) is arranged at the output end of the miniature water pump (15) in a communicating mode, the S-shaped heat exchange elbow (16) penetrates through the top surface of the water storage box (14) and the bottom of the first chamber (4), the S-shaped heat exchange elbow (16) is erected in the first chamber (4) and is clamped with the clamping mechanism (7), and the free end of the S-shaped heat exchange elbow (16) penetrates through the bottom of the first chamber (4) and the top surface of the water storage box (14).

4. The intelligent optical cable cross-connecting box with the function of automatically managing the optical fiber resources is characterized in that a water inlet pipe (17) and a water outlet pipe (18) are respectively communicated and arranged on the inner walls of the left side and the right side of the water storage box (14) close to the bottom, the water inlet pipe (17) and the water outlet pipe (18) are arranged through the inner wall of the second chamber (5), and an adjusting valve (19) is fixedly arranged at one end of the water inlet pipe (17) and one end of the water outlet pipe (18) located outside the second chamber (5).

5. The intelligent optical cable distribution box with the automatic optical fiber resource management function according to claim 1, wherein the clamping mechanism (7) includes two fixing plates (20) fixedly connected to inner walls of left and right sides of the first chamber (4), a plurality of fixing blocks (21) are fixedly connected to opposite side walls of the two fixing plates (20), the plurality of fixing blocks (21) on the same side are respectively disposed near upper and lower ends of the fixing plates (20), arc-shaped through grooves (22) which are vertically communicated are disposed on opposite side walls of the two fixing blocks (21) on the same horizontal plane, arc-shaped clamping blocks (23) are fixedly connected to inner walls of the plurality of arc-shaped through grooves (22), and the S-shaped heat exchange bent tube (16) is disposed through the plurality of arc-shaped through grooves (22) and clamped with the arc-shaped clamping blocks (23).

6. The intelligent optical cable cross-connecting cabinet with the function of automatically managing the optical fiber resources as claimed in claim 5, wherein the arc-shaped fixture blocks (23) are made of rubber.

7. The intelligent optical cable cross-connecting cabinet with the automatic optical fiber resource management function according to claim 1, wherein the automatic optical fiber resource management mechanism (8) comprises a mounting rack fixedly installed in the cabinet (1), a plurality of vent holes are formed in the mounting rack, a controller (8-1), a monitoring unit, an information receiver (8-2), an intelligent management terminal (8-3) and an intelligent box-type optical splitter (8-4) are installed on the mounting rack, the monitoring unit and the intelligent management terminal (8-3) are in communication connection with the controller (8-1), the monitoring unit is in communication connection with the information receiver (8-2), and the intelligent management terminal (8-3) is in communication connection with the intelligent box-type optical splitter (8-4).

8. The intelligent optical cable cross-connecting cabinet with the automatic management function of the optical fiber resources is characterized in that the monitoring unit comprises a single chip microcomputer, a communication module and a driving module are connected to the single chip microcomputer, and an upper computer is connected to the communication module.