CN216870893U - Cooling structure of optical fiber communication box - Google Patents

Abstract

The utility model relates to a cooling structure of an optical fiber communication box, which comprises an optical fiber communication box body, wherein a motor is arranged inside the optical fiber communication box body, the output end of the motor is in transmission connection with a rotating shaft, rotating blades are arranged outside the rotating shaft, a water tank is arranged on the upper surface of the optical fiber communication box body, a water inlet pump is arranged on the upper surface of the optical fiber communication box body, a water outlet pump is arranged on the upper surface of the optical fiber communication box body, a cooling pipe is arranged inside the optical fiber communication box body, two ends of the cooling pipe are respectively communicated with the water inlet pump and the water outlet pump, and the water inlet pump and the water outlet pump are both communicated with the water tank. This cooling structure of optical fiber communication case, through going out the cooling liquid of water pump with the water tank the inside take out the cooling tube in, circulate through the intake pump and realize hydrologic cycle in flowing to the water tank, the cooling tube is the aluminum pipe, the temperature of coolant liquid runs through the aluminum pipe and gives off the inside of optical fiber communication case body to the radiating effect of optical fiber communication case body has further been improved.

Description

Cooling structure of optical fiber communication box

Technical Field

The utility model relates to the technical field of optical fiber communication, in particular to a cooling structure of an optical fiber communication box.

Background

Along with the development of science and technology, the optical fiber communication has been inseparable with people's life secret, the optical fiber communication case is the basic equipment in the communication field, the optical fiber communication case is set up by telecom operator in the different places as the optic fibre basic station, a plurality of optic fibre of rethread optical fiber communication case branch get into single family, present most optical fiber communication case is placed at the outdoor use, outdoor environment temperature is high in the summer-day, the inside electronic components work of optical fiber communication case also can produce a large amount of heats, if not in time to the inside processing of cooling down of optical fiber communication case, thereby the inside and outside heat stack that produces high temperature that arouses can lead to the damage of the inside electronic components of optical fiber communication case and lead to the interrupt of communication.

The heat dissipation effect of the existing optical fiber communication box is not good, so that the cooling structure of the optical fiber communication box is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a cooling structure of an optical fiber communication box, which has the advantages of good heat dissipation effect and the like, and solves the problem of poor heat dissipation effect of the existing optical fiber communication box.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a cooling structure of optical fiber communication case, includes optical fiber communication case body, the inside of optical fiber communication case body is provided with the motor, and the output transmission of motor is connected with the rotation axis, and the outside of rotation axis is provided with rotating vane, the upper surface of optical fiber communication case body is provided with the water tank, the upper surface of optical fiber communication case body is provided with the intake pump, the upper surface of optical fiber communication case body is provided with out the water pump, the inside of optical fiber communication case body is provided with the cooling tube, and the both ends of cooling tube communicate with intake pump and play water pump respectively, the intake pump all communicates with the water tank with a water pump.

Furthermore, the inside of optical fiber communication case body is provided with the baffle, and the inside of baffle is provided with the air-supply line, and the air-supply line is located rotary vane under.

Further, two through holes are formed in the optical fiber communication box body, and dustproof grids are arranged in the two through holes.

Further, the inside of fiber communication case body is provided with two exhaust fans, two the exhaust fan is located two respectively the outside of dustproof grid.

Further, threaded connection has the compact heap on the inner wall of fiber communication case body, and the cooling tube is placed between compact heap and fiber communication case body.

Further, the output of intake pump is connected with the inlet tube, the input of play water pump is connected with the outlet pipe, and the outlet pipe is connected with the both ends of cooling tube with the inlet tube respectively.

(III) advantageous effects

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

1. this cooling structure of optical fiber communication case is provided with the motor through the inside of optical fiber communication case body, and the output transmission of motor is connected with the rotation axis, and the outside of rotation axis is provided with rotating vane, is provided with dustproof grid on the optical fiber communication case body, and the motor rotation drives the rotation axis rotation, and then drives the inside circulation of air of fixed mounting messenger optical fiber communication case body at the outside rotating vane of rotation axis to reach ventilation cooling's effect.

2. This cooling structure of optical fiber communication case is provided with the water tank through the upper surface of optical fiber communication case body, the upper surface of optical fiber communication case body is provided with the intake pump, the upper surface of optical fiber communication case body is provided with out the water pump, the inside of optical fiber communication case body is provided with the cooling tube, and the both ends of cooling tube communicate with intake pump and play water pump respectively, the intake pump all communicates with the water tank with a water pump, goes out the water pump and takes out the coolant liquid of water tank the inside to the cooling tube, realizes hydrologic cycle in circulating to the water tank through the intake pump, and the cooling tube is the aluminum pipe, and the temperature of coolant liquid runs through the aluminum pipe and gives off the inside of optical fiber communication case body to radiating effect has further been improved.

Drawings

FIG. 1 is a front sectional view of the structure of the present invention;

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is an enlarged view of the structure A of the present invention;

FIG. 4 is an enlarged view of the structure B of the present invention.

In the figure: 1. the optical fiber communication box comprises an optical fiber communication box body, 2, a motor, 3, a rotating shaft, 4, rotating blades, 5, a partition plate, 6, an air inlet pipe, 7, a water tank, 8, a water pump, 9, a water outlet pump, 10, a water inlet pipe, 11, a water outlet pipe, 12, a cooling pipe, 13, a dustproof grid, 14, an exhaust fan, 15 and a pressing block.

Detailed Description

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. 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. 1-4, the cooling structure of an optical fiber communication box in this embodiment includes an optical fiber communication box body 1, the optical fiber communication box body 1 is rectangular box-shaped, the interior of the optical fiber communication box body 1 is a cavity, the exterior of the optical fiber communication box body 1 is movably connected with a switch door, the switch door is used for opening and closing the optical fiber communication box body 1, a motor 2 is fixedly installed on the inner top wall of the optical fiber communication box body 1, an output end of the motor 2 is connected with a rotating shaft 3 in a transmission manner, a rotating blade 4 is fixedly installed on the exterior of the rotating shaft 3, the rotating shaft 3 is driven to rotate by the rotation of the motor, and further the rotating blade 4 fixedly installed on the exterior of the rotating shaft 3 is driven to circulate air inside the optical fiber communication box body 1, so as to achieve the effects of ventilation and heat dissipation, a water tank 7 is fixedly installed on the upper surface of the optical fiber communication box body 1, the interior of the water tank 7 is a cavity, the top of the water tank 7 is open, the top of the water tank 7 is movably connected with a water tank cover, a cavity of the water tank 7 is filled with cooling liquid, the upper surface of the optical fiber communication box body 1 is fixedly provided with a water inlet pump 8, the upper surface of the optical fiber communication box body 1 is fixedly provided with a water outlet pump 9, the water outlet pump 9 and the water inlet pump 8 are respectively and symmetrically arranged at the left side and the right side of the water tank 7, the interior of the optical fiber communication box body 1 is movably provided with a cooling pipe 12, two ends of the cooling pipe 12 are respectively communicated with the water inlet pump 8 and the water outlet pump 9, the water inlet pump 8 and the water outlet pump 9 are both communicated with the water tank 7, the cooling liquid in the water tank is pumped into the cooling pipe 12 through the water outlet pump 9, the water circulation is realized when the cooling liquid flows into the water tank 7 through the water inlet pump 8, the cooling pipe 12 is an aluminum pipe, and the temperature of the cooling liquid penetrates through the aluminum pipe and is distributed to the inside of the optical fiber communication box body 1, so that the heat dissipation effect is further improved.

In this embodiment, the inside fixed mounting of fiber communication case body 1 has baffle 5, and baffle 5 divides fiber communication case body 1 into two cavitys, and fiber communication equipment places in the cavity of fiber communication case body 1 below, and the inside fixed mounting of baffle 5 has air-supply line 6, and air-supply line 6 is located rotating vane 4 under, makes rotating vane 4's air current can enter into the cavity of fiber communication case body 1 below.

In this embodiment, two through-holes have been seted up on the inner wall about optical fiber communication case body 1, and equal fixed mounting has dustproof grid 13 in two through-holes, and dustproof grid 13 is used for making the inside circulation of air of optical fiber communication case body 1 to prevent that external dust from entering into the inside of optical fiber communication case body 1.

Wherein, there are two exhaust fans 14 on the inner wall about above-mentioned optical fiber communication case body 1, and two exhaust fans 14 are located the outside of two dustproof grille 13 respectively, and exhaust fan 14 is used for discharging the inside air of optical fiber communication case body 1, further improves the speed of circulation of air, improves radiating effect.

In this embodiment, threaded connection has four compact heap 15 on the inner wall of fiber communication case body 1, and cooling tube 12 is placed between compact heap 15 and fiber communication case body 1, and compact heap 15 is used for fixing cooling tube 12 on the inner wall of fiber communication case body 1.

In this embodiment, the output of intake pump 8 is connected with inlet tube 10, and the input of play water pump 9 is connected with outlet pipe 11, and outlet pipe 11 and inlet tube 10 are connected with the both ends of cooling tube 12 respectively, and inlet tube 10 is used for connecting cooling tube 12 and intake pump 8, makes the coolant liquid can pass through inlet tube 10 to cooling tube 12 in, and outlet pipe 11 is used for connecting cooling tube 12 and play water pump 9, makes the coolant liquid can realize hydrologic cycle through outlet pipe 11 to water tank 7.

The working principle of the above embodiment is as follows:

(1) this cooling structure of optical fiber communication case, inside through optical fiber communication case body 1 is provided with motor 2, motor 2's output transmission is connected with rotation axis 3, the outside of rotation axis 3 is provided with rotating blade 4, be provided with dustproof grid 13 on the optical fiber communication case body 1, the motor is rotatory to drive rotation axis 3 rotatory, and then drive fixed mounting make the inside circulation of air of optical fiber communication case body 1 at the outside rotating blade 4 of rotation axis 3, thereby reach ventilation cooling's effect.

(2) This cooling structure of optical fiber communication case, upper surface through optical fiber communication case body 1 is provided with water tank 7, optical fiber communication case body 1's upper surface is provided with intake pump 8, optical fiber communication case body 1's upper surface is provided with out water pump 9, optical fiber communication case body 1's inside is provided with cooling tube 12, the both ends of cooling tube 12 are linked together with intake pump 8 and play water pump 9 respectively, intake pump 8 all communicates with water tank 7 with a water pump 9, go out water pump 9 and take out the coolant liquid of water tank the inside to in cooling tube 12, realize hydrologic cycle in circulating to water tank 7 through intake pump 8, cooling tube 12 is the aluminum pipe, the temperature of coolant liquid runs through the aluminum pipe and gives off optical fiber communication case body 1's inside, thereby further improved radiating effect.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a cooling structure of optical fiber communication case, includes optical fiber communication case body (1), its characterized in that: the inside of optic fibre communication case body (1) is provided with motor (2), and the output transmission of motor (2) is connected with rotation axis (3), and the outside of rotation axis (3) is provided with rotating vane (4), the upper surface of optic fibre communication case body (1) is provided with water tank (7), the upper surface of optic fibre communication case body (1) is provided with intake pump (8), the upper surface of optic fibre communication case body (1) is provided with out water pump (9), the inside of optic fibre communication case body (1) is provided with cooling tube (12), and the both ends of cooling tube (12) are linked together with intake pump (8) and play water pump (9) respectively, intake pump (8) and play water pump (9) all communicate with water tank (7).

2. The cooling structure of the optical fiber communication box according to claim 1, wherein: the optical fiber communication box is characterized in that a partition plate (5) is arranged inside the optical fiber communication box body (1), an air inlet pipe (6) is arranged inside the partition plate (5), and the air inlet pipe (6) is located right below the rotating blades (4).

3. The cooling structure of the optical fiber communication box according to claim 1, wherein: two through holes are formed in the optical fiber communication box body (1), and dustproof grids (13) are arranged in the two through holes.

4. The cooling structure of the optical fiber communication box according to claim 3, wherein: the inside of optical fiber communication case body (1) is provided with two exhaust fans (14), two exhaust fan (14) are located two respectively the outside of dustproof grid (13).

5. The cooling structure of the optical fiber communication box according to claim 1, wherein: the inner wall of the optical fiber communication box body (1) is connected with a pressing block (15) in a threaded mode, and the cooling pipe (12) is placed between the pressing block (15) and the optical fiber communication box body (1).

6. The cooling structure of the optical fiber communication box according to claim 1, wherein: the output of intake pump (8) is connected with inlet tube (10), the input of play water pump (9) is connected with outlet pipe (11), and outlet pipe (11) and inlet tube (10) are connected with the both ends of cooling tube (12) respectively.

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