CN209994499U - Distributed base station with heat dissipation mechanism - Google Patents

Abstract

The utility model belongs to the field of base station equipment, in particular to a distributed base station with a heat dissipation mechanism, which aims at the problems that most of the existing distributed base stations adopt a fan fixed installation mode to dissipate heat of processing equipment, the blowing coverage area is small, the convection speed between the base station and the outside air is slow, and the heat dissipation effect is low, the following proposal is provided, which comprises a shell, wherein a cavity is arranged on the shell, a processing device is fixedly arranged on the inner wall of the bottom of the cavity, two symmetrically arranged mounting blocks are slidably mounted on the inner wall of the bottom of the chamber, the processing equipment is positioned between the two mounting blocks, one sides of the two mounting blocks, which are close to each other, are fixedly provided with fans, and the fan is central point symmetry setting on two installation pieces, the utility model discloses accelerate the convection velocity of cavity and outside air, promote the radiating effect to treatment facility, the phenomenon that the card went up can not appear because of the high temperature in treatment facility.

Description

Distributed base station with heat dissipation mechanism

Technical Field

The utility model relates to a basic station equipment technical field especially relates to a distributed base station who possesses heat dissipation mechanism.

Background

Distributed base stations are a new generation of modern products for accomplishing network coverage. The method is characterized in that the radio frequency processing unit and the traditional macro base station baseband processing unit are connected through optical fibers while being separated.

Most of existing distributed base stations adopt a fan fixed installation mode to radiate processing equipment, the area covered by air blowing is small, the convection speed between the base station and outside air is low, and the radiating effect is low, so that a distributed base station with a radiating mechanism is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that there is distributed base station majority among the prior art to adopt fan fixed mounting's mode to dispel the heat to treatment facility, and the area of blowing the cover is little, and the convection velocity of basic station and outside air is slow, and the shortcoming that the radiating effect is low, and the distributed base station who possesses heat dissipation mechanism that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a distributed base station who possesses heat dissipation mechanism, includes the casing, be equipped with the cavity on the casing, fixed mounting has processing equipment on the bottom inner wall of cavity, slidable mounting has two installation pieces that the symmetry set up on the bottom inner wall of cavity, processing equipment is located between two installation pieces, and the equal fixed mounting in one side that two installation pieces are close to each other has the fan, and the fan is central point symmetry setting on two installation pieces, all set up a plurality of louvres that are the straight line and arrange on the both sides inner wall of cavity, the top transmission of two installation pieces is connected with same lever, and one side fixed mounting of lever has the pivot, be equipped with actuating mechanism in the pivot.

Preferably, the bottom of the shell is fixedly provided with a mounting column, and one side of the mounting column is fixedly provided with a plurality of support columns which are annularly arranged and used for supporting the shell, so that the position of the shell is more stable.

Preferably, two slide rails which are symmetrically arranged are fixedly mounted on the inner wall of the bottom of the cavity, sliding grooves are formed in the bottoms of the two mounting blocks, the tops of the two slide rails respectively extend into the two sliding grooves and are respectively in sliding connection with the two sliding grooves, and the mounting blocks can slide on the slide rails.

Preferably, actuating mechanism includes fixed mounting and drives motor on cavity top inner wall, the bottom fixed mounting of driving motor output shaft has the drive shaft, the bottom fixed mounting of drive shaft has the carousel, the bottom of carousel is rotated and is installed the connecting rod, slidable mounting has the slide bar on the top inner wall of cavity, and one side fixed mounting of slide bar has the rack, the bottom of rack and one side of connecting rod rotate to be connected, one end of pivot runs through one side of lever and extends to the opposite side of lever, and the fixed cover in the outside of pivot is equipped with the gear, gear and rack mesh mutually, and the purpose realizes the reciprocating sliding of installation piece on the slide rail, the phenomenon that can not appear breaking away from.

Preferably, the equal movable mounting in top of two installation pieces has the swash plate, one side fixed mounting of lever has two rotation posts, the top of two swash plates all with rotation post swing joint, and the swash plate slope sets up, the louvre of cavity both sides is central point symmetry and sets up, and the louvre of cavity both sides and the scope phase-match that two fans removed, two fans just face the louvre of cavity both sides, can not interfere with each other.

In the utility model, the moving ranges of the two fans are matched with the sizes of the heat dissipation holes on the two sides of the cavity, the processing equipment can be a processor, the model of the processor is selected according to actual production, the fans can blow heat generated by the processor into the air through the heat dissipation holes, the convection speed of the cavity and the outside air is accelerated, the heat dissipation effect on the processor is improved, and the processor cannot be blocked due to overhigh temperature;

through the two sliding rails and the two mounting blocks, the two fans can slide on the sliding rails under the driving of the two mounting plates, air blowing of the two fans cannot interfere with each other, the air blowing area of the fan covering cavity is enlarged, and the heat dissipation effect of the treatment equipment is improved;

through the lever and the inclined plate, the moving directions of the two mounting blocks and the two fans are opposite, so that the convection speed of the cavity and the outside air is increased, and the heat dissipation effect of the treatment equipment is improved.

Drawings

Fig. 1 is a structural three-dimensional diagram of a distributed base station with a heat dissipation mechanism according to the present invention;

fig. 2 is a schematic structural diagram of a casing of a distributed base station with a heat dissipation mechanism according to the present invention;

fig. 3 is an enlarged schematic view of a portion a of the distributed base station with a heat dissipation mechanism in fig. 2 according to the present invention.

In the figure: the device comprises a support column 1, a mounting column 2, a shell 3, a chamber 4, heat dissipation holes 5, processing equipment 6, a sliding rail 7, a mounting block 8, a fan 9, a driving motor 10, a driving shaft 11, a rotating disc 12, a connecting rod 13, a rotating shaft 14, a gear 15, a rack 16, a sliding rod 17, a lever 18, an inclined plate 19 and a rotating column 20.

Detailed Description

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

Example 1

Referring to fig. 1-3, a distributed base station with heat dissipation mechanism, including casing 3, be equipped with cavity 4 on casing 3, fixed mounting has treatment facility 6 on cavity 4's the bottom inner wall, slidable mounting has two installation pieces 8 that the symmetry set up on cavity 4's the bottom inner wall, treatment facility 6 is located between two installation pieces 8, the equal fixed mounting in one side that two installation pieces 8 are close to each other has fan 9, and fan 9 is central point symmetry setting on two installation pieces 8, all set up a plurality of louvres 5 that are the straight line and arrange on cavity 4's the both sides inner wall, the top transmission of two installation pieces 8 is connected with same lever 18, and one side fixed mounting of lever 18 has pivot 14, be equipped with actuating mechanism on pivot 14.

Wherein, the removal range of two fans 9 and the 5 size phase-matchs of louvre of 4 both sides of cavity, and processing apparatus 6 can be the treater, and the model of treater is selected according to actual production, and fan 9 can blow the heat that the treater produced to the air via louvre 5 in, accelerates the convection velocity of cavity 4 and outside air, promotes the radiating effect to the treater, and the phenomenon that the card pause can not appear because of the high temperature in the treater.

In this embodiment, through two slide rails 7 and two installation pieces 8 that set up, two fans 9 can slide on slide rail 7 under the drive of two installation boards 8, and two fans 9 bloies and can not interfere with each other, increase the fan 9 and cover the area of blowing of cavity 4, promote treatment facility's radiating effect.

Example 2

The utility model discloses in, the bottom fixed mounting of casing 3 has erection column 2, and one side fixed mounting of erection column 2 has a plurality of pillars 1 that are the annular and arrange, is used for supporting casing 3, makes casing 3's position more stable.

The utility model discloses in, fixed mounting has two slide rails 7 that the symmetry set up on the bottom inner wall of cavity 4, and the spout has all been seted up to the bottom of two installation pieces 8, and the top of two slide rails 7 respectively extend to in two spouts and respectively with two spout sliding connection, installation piece 8 can slide on slide rail 7.

The utility model discloses in, actuating mechanism includes drive motor 10 of fixed mounting on the inner wall of cavity 4 top, the bottom fixed mounting of drive motor 10 output shaft has drive shaft 11, the bottom fixed mounting of drive shaft 11 has carousel 12, carousel 12's bottom is rotated and is installed connecting rod 13, slidable mounting has slide bar 17 on cavity 4's the inner wall of top, and one side fixed mounting of slide bar 17 has rack 16, rack 16's bottom and one side of connecting rod 13 are rotated and are connected, one side of lever 18 is run through and extend to lever 18's opposite side to 14's one end of pivot, and 14's the fixed cover in the outside is equipped with gear 15, gear 15 and rack 16 mesh mutually, the purpose is realized the reciprocating sliding of installation piece 8 on slide rail 7, the phenomenon that breaks away from can.

The utility model discloses in, the equal movable mounting in top of two installation pieces 8 has swash plate 19, and one side fixed mounting of lever 18 has two rotation posts 20, and the top of two swash plates 19 all with rotation post 20 swing joint, and the slope of swash plate 19 sets up, and the louvre 5 of 4 both sides of cavity is central point symmetry setting, and the louvre 5 of 4 both sides of cavity and the scope phase-match that two fans 9 removed, and two fans 9 just face the louvre 5 of 4 both sides of cavity, can not interfere with each other.

In this embodiment, the lever 18 and the inclined plate 19 are arranged to make the moving directions of the two mounting blocks 8 and the two fans 9 opposite, so as to accelerate the convection speed between the chamber 4 and the outside air and improve the heat dissipation effect of the processing equipment.

In the utility model, the moving range of two fans 9 is matched with the size of the heat dissipation holes 5 on both sides of the chamber 4, the processing device 6 can be a processor, a switch of a driving motor 10 is pressed down, the driving motor 10 and the fans 9 are both provided with power lines and plugs, and the power is supplied by commercial power, so that a driving shaft 11 and a turntable 12 rotate, the purpose of transverse rotation of a rack 16 is realized through a connecting rod 13 arranged, the purpose of forward and reverse reciprocating rotation of the gear 15 and a rotating shaft 14 is realized through the meshing relation of the rack 16 and the gear 15, two inclined rods 19 which are obliquely arranged provide transverse position acting force for two mounting blocks 8, the purpose of sliding the mounting blocks 8 on a sliding rail 7 is achieved, the fans 9 move transversely along with the mounting blocks 8, the fans 9 blow air in the wall painting 4 into the outside air through the heat dissipation holes 5, the convection velocity of the chamber 4 and the outside air is accelerated, the fan 9 can move to blow, is similar to the head shaking blowing mode of a fan, increases the blowing area of the fan 9 covering the chamber 4, and improves the heat dissipation effect of the processing equipment.

In the description of the present application, it should be further noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, a connection through an intermediate medium, and a connection between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to specific circumstances.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. A distributed base station with heat dissipation means, comprising a housing (3), a chamber (4) is arranged on the shell (3), a processing device (6) is fixedly arranged on the inner wall of the bottom of the chamber (4), two symmetrically arranged mounting blocks (8) are slidably mounted on the inner wall of the bottom of the chamber (4), the processing equipment (6) is positioned between the two mounting blocks (8), one sides of the two mounting blocks (8) which are close to each other are fixedly provided with a fan (9), and the fans (9) are arranged on the two mounting blocks (8) in a central point symmetry manner, a plurality of heat dissipation holes (5) which are linearly arranged are formed in the inner walls of the two sides of the chamber (4), the tops of the two mounting blocks (8) are in transmission connection with the same lever (18), and one side of the lever (18) is fixedly provided with a rotating shaft (14), and the rotating shaft (14) is provided with a driving mechanism.

2. The distributed base station with the heat dissipation mechanism according to claim 1, wherein a mounting column (2) is fixedly mounted at the bottom of the housing (3), and a plurality of pillars (1) arranged in a ring shape are fixedly mounted at one side of the mounting column (2).

3. The distributed base station with the heat dissipation mechanism according to claim 1, wherein two symmetrically arranged slide rails (7) are fixedly mounted on an inner wall of the bottom of the chamber (4), the bottoms of the two mounting blocks (8) are both provided with sliding grooves, and the tops of the two slide rails (7) respectively extend into the two sliding grooves and are respectively in sliding connection with the two sliding grooves.

4. The distributed base station with heat dissipation mechanism of claim 1, the driving mechanism comprises a driving motor (10) fixedly arranged on the inner wall of the top of the chamber (4), a driving shaft (11) is fixedly arranged at the bottom of an output shaft of the driving motor (10), a rotary table (12) is fixedly arranged at the bottom of the driving shaft (11), a connecting rod (13) is rotatably arranged at the bottom of the rotary table (12), a sliding rod (17) is slidably arranged on the inner wall of the top of the cavity (4), and one side of the sliding rod (17) is fixedly provided with a rack (16), the bottom of the rack (16) is rotatably connected with one side of the connecting rod (13), one end of the rotating shaft (14) penetrates through one side of the lever (18) and extends to the other side of the lever (18), and a gear (15) is fixedly sleeved on the outer side of the rotating shaft (14), and the gear (15) is meshed with the rack (16).

5. The distributed base station with the heat dissipation mechanism according to claim 1, wherein the top of each of the two installation blocks (8) is movably installed with an inclined plate (19), one side of the lever (18) is fixedly installed with two rotation columns (20), the top of each of the two inclined plates (19) is movably connected with the rotation column (20), the inclined plates (19) are arranged in an inclined manner, the heat dissipation holes (5) at the two sides of the chamber (4) are symmetrically arranged at the center point, and the heat dissipation holes (5) at the two sides of the chamber (4) are matched with the moving range of the two fans (9).

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