KR101007071B1 - Cooling fan module of the optical communicationequipment case - Google Patents

Abstract

PURPOSE: A cooling fan module of an optical communication equipment housing is provided to easily install and separate an optical cable by forming a partition on an optical cable inlet. CONSTITUTION: A main body(20) comprises a cooling fan, an inlet, and a handle. A partition is formed on the inlet. A cooling fan cover unit(40) opens or closes the cooling fan. A front plate(50) is arranged on the front of the body and is comprised of a fixing case and a separation case. A side plate(60) is arranged on both sides of the body. A rear plate(70) is arranged on the rear of the body.

Description

COOLING FAN MODULE OF THE OPTICAL COMMUNICATIONEQUIPMENT CASE}

The present invention More specifically, the present invention relates to a cooling fan module of an optical communication device enclosure, and more particularly, to a cooling fan module of an optical communication device enclosure having a cooling fan function and an optical cable insertion function to increase cooling efficiency and to fix an incoming optical cable firmly. .

Recently, due to the development of the information and telecommunications industry, various communication devices are becoming more and more diversified, and accordingly, a number of communication base stations for relaying radio waves are being generated.

The base station not only transmits the radio waves with the switching center to the user's terminal, but also transmits the radio waves generated by the terminal to the switching station.

That is, the base station serves as an unmanned small radio headend and is mainly installed outdoors for this purpose.

On the other hand, communication equipment installed in the switching center or the base station not only takes a lot of load, but also generates a lot of heat internally.

In the case of low heat generation as a cooling method of communication equipment, a natural convection cooling method that secures maximum ventilation holes to the outside is applied, but recently, forced convection cooling using a fan is mainly used due to high integration of equipment.

In addition, as the demand for ultra-high speed optical communication has increased recently, optical transmission equipment for performing the optical communication role is replacing the existing communication equipment.

And the optical transmission equipment is used a large amount of optical cable, and because of the optical transmission characteristics of the optical cable need to maintain more than the minimum radius of curvature separate cable entry module is required.

As described above, the conventional communication equipment housing having the optical communication function has a problem of separately configuring a cooling fan module for cooling the communication equipment and an optical cable insertion module for introducing the optical cable.

1 shows a configuration of a conventional communication equipment enclosure, wherein the communication equipment enclosure 1 includes a rack portion 3 for stacking various functional shelves 2a, 2b, 2c, and 2d and an enclosure 1. ) Between the pedestal (4) with a wheel to easily move or drag the lift by a forklift, the roof (5) installed on the rack portion (3), and the cooling fan module (6a, 6b) between the functional shelf (2) 6c) and optical cable entry modules 7a, 7b, and 7c are installed.

However, separately installing the cooling fan module 6 and the optical cable inlet module 7 has a problem of increasing the overall size of the communication equipment housing 1.

In addition, the enlargement of the communication equipment housing 1 has a problem that not only makes it difficult to secure the space of the switching center or the base station, but also increases the cost of maintaining the overall communication equipment.

The present invention has been made to solve the above problems, the purpose is to provide a cooling fan function and the optical cable insertion function to increase the cooling efficiency and to secure the incoming optical cable firmly.

In addition, it is an object to form a partition partition so that the optical cable is inserted into the inlet portion to be inserted into the partition to facilitate the installation and separation of the optical cable and to easily distinguish the cable.

In addition, the front panel constituting the cooling fan module consists of a fixed case and a separate case to facilitate the replacement of the separation case according to the purpose and purpose of use.

In order to achieve the above object, in the cooling fan module of the optical communication equipment enclosure which is mounted on the communication equipment enclosure and cools the heat generated by the various functional shelves, the cooling fans mounted in the vertical direction at intervals, and the cooling A main body formed between a fan and a cooling fan and having an inlet part into which optical cables are inserted, and handles formed at intervals in front, and the inlet part includes a partition case having a communication hole at one side and a partition case. Partition partitions are formed on the front inner surface and the rear inner surface, and partition partitions are formed integrally with partition partitions formed therein for separating and mounting optical cables supplied therein, and a frame for moving rails is formed around the cooling fan. And a reel rotatably mounted at one end of the frame, and wound on the reel and having a fixed ring at the end. And a cooling fan cover means each of which is equipped with a blocking film to be mounted and a fixing protrusion which is mounted at a position opposite to the reel and coupled with a fixing ring. The fixing case is provided with a coupling cover, which is inserted into the inner space of the fixing case is fixed to the coupling cover and the inside of the heat passages through which the optical cables pass through and heat exhaust holes are formed and the handle projections on the front It is provided with a front plate consisting of a separating case is formed, the front side is fixedly coupled to the coupling hole of the front plate on both sides of the main body and a pair of rollers provided on the side to be easily inserted and separated in the communication equipment housing A side plate and a rear vertical portion in which optical cable entry grooves are formed at the rear of the main body, and the optical cable entry It is fixed to the rear of the side plate while installing a rear plate consisting of an optical cable fixing portion which is respectively fitted to each other and the elastic wires are formed at intervals inside, and a rear finishing portion which is fitted to the lower portion of the rear vertical portion and fixed to the optical cable fixing portion. It is characterized by a combination.

According to the present invention, while having a cooling fan function and an optical cable insertion function, the cooling efficiency is increased and the optical cable to be drawn in can be firmly fixed.

In addition, by forming a partition partition so that the optical cable is inserted into the inlet portion into which the optical cable is drawn, there is an effect that can easily distinguish the cable while easy installation and separation of the optical cable.

In addition, the front panel constituting the cooling fan module consisting of a fixed case and a separation case can be replaced not only easy to replace the separation case according to the purpose and purpose of use, it is also possible to shorten the replacement time.

1 is a view showing a commonly used communication equipment enclosure.
Figure 2 is a plan view showing a cooling fan module of the optical communication device housing according to the present invention.
Figure 3 is a perspective view showing a partition partition constituting a cooling fan module of the optical communication equipment housing according to the present invention.
Figure 4 is a plan view showing a cooling fan cover means constituting a cooling fan module of the optical communication equipment housing according to the present invention.
Figure 5 is an exploded perspective view showing a front plate constituting a cooling fan module of the optical communication equipment housing according to the present invention.
Figure 6 is an exploded perspective view showing another embodiment of the front plate constituting the cooling fan module of the optical communication equipment housing according to the present invention.
Figure 7 is an exploded perspective view showing a thick plate constituting the cooling fan module of the optical communication equipment housing according to the present invention.
Figure 8 is a partially enlarged cross-sectional view showing a state of use of the heat discharge guide constituting the cooling fan module of the optical communication equipment housing according to the present invention.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings, Figure 2 is a plan view showing a cooling fan module of the optical communication equipment housing according to the present invention, Figure 3 is a cooling fan module of the optical communication equipment housing according to the present invention Figure 4 is a perspective view showing a partition partition constituting, Figure 4 is a plan view showing a cooling fan cover means constituting a cooling fan module of the optical communication equipment housing according to the present invention, Figure 5 is a cooling fan module of the optical communication equipment housing according to the present invention Figure 6 is an exploded perspective view showing a front plate constituting, Figure 6 is an exploded perspective view showing another embodiment of the front plate constituting the cooling fan module of the optical communication equipment housing according to the present invention, Figure 7 is an optical communication equipment housing according to the present invention Figure 8 is an exploded perspective view showing a thick plate constituting the cooling fan module, Figure 8 is the use of the heat discharge guide constituting the cooling fan module of the optical communication equipment housing according to the present invention A partial enlarged sectional view showing the state.

The cooling fan module 10 of the optical communication device housing of the present invention is a main body 20 provided with a cooling fan 21, an inlet 22 and a handle 23, and partition partitions respectively mounted to the inlet 22. 30, cooling fan cover means 40 mounted to the main body 20 to open or close each cooling fan 21, and a front plate 50 mounted to the front of the main body 20; The side plate 60 is also fixed to the front plate 50 while being mounted on both sides of the main body 20, and the rear plate 70 is coupled to the side plate 50 while being mounted to the rear of the main body 20. do.

The main body 20 has a cooling fan 21 which is mounted in a vertical direction at intervals, an inlet portion 22 formed between the cooling fan 21 and the cooling fan 21 and into which optical cables are inserted, and the front thereof. The handles 23 are formed at intervals.

That is, the main body 20 forms the inlet portion 22 between the cooling fan 21 and the cooling fan 21, while the front handle 23 to facilitate the transport, installation and separation of the main body 20. It is installed.

Partition partitions 30 respectively mounted on the inlet 22 have a partition case 31 and a partition case 31 having communication holes 32 formed on one side, respectively, formed on the front inner surface and the rear inner surface. The partition 33 in which the partition spaces 34 are formed is integrally formed.

In other words, the partition partition 30 is separated and mounted by using the partition space 34 of the partition 33 formed on the front, rear inner surface and the optical cable is introduced into the optical communication equipment enclosure through the communication hole (32). It is to be done.

Here, the partition divider 30 is formed to have a length corresponding to the inlet 22 and the communication hole 32 can be formed in the lower portion unlike the illustrated figure.

The cooling fan cover means 40 mounted on the main body 20 to open or close the cooling fan 21 is formed around the cooling fan 21 and has a moving rail 42 formed therein. And a reel 43 rotatably mounted at one end of the mold 41, a blocking film 44 wound around the reel 43, and a fixing ring 45 mounted at the end thereof, and the reel 43. It is mounted to the opposite position and consists of a fixing protrusion 46 is coupled to the fixing ring 45.

That is, the cooling fan cover means 40 opens or closes the cooling fan 21 by using the blocking film 44 wound on the reel 43, but when using the cooling fan 21, the blocking film 44. The reel 43 is wound, and when the cooling fan 21 is not used or stored, the fixed ring formed on the blocking film 44 after moving the blocking film 44 along the moving rail 42. 45 is fixed to the fixing protrusion 46 to close the cooling fan 21.

The front plate 50 mounted at intervals in front of the main body 20 is divided into a fixed case 51 and a separation case 56 inserted into the fixed case 51.

In addition, the fixing case 51 has an inner space 52 formed therein while one side is opened, and a coupling groove 53 is formed in a vertical direction at one end thereof, and a coupling cover 54 in the coupling groove 53. The fitting is coupled to the back, the side plate 60 is formed with a coupler (55) for fixed coupling.

In addition, the separation case 56 inserted into the fixing case 51 is provided with moving passages 57 and heat discharging holes 58 through which optical cables pass through the gap, and the fixing case 51 at the front thereof. The handle protrusion 59 is formed so as to smoothly operate the separation case 56 during insertion or discharge.

That is, the front plate 50 is detachably mounted to the separation case 56 in which the moving passages 57 and the heat discharge holes 58 are formed in the internal space 52 of the fixed case 51. will be.

Here, the separation case 56 mounted in the internal space 52 of the fixed case 51 may be formed as shown in FIG. 6, that is, the separation case 56 is opened in the horizontal direction in the upper and lower portions. The discharge holes 58 are formed, and the moving passages 57 are formed at the center thereof, and the heat discharge guide 90 is detachably attached to the rear of the heat discharge hole 58 to facilitate heat discharge.

In addition, the cable fasteners 80 are mounted on the moving passages 57 of the separation case 56 constituting the front plate 50 so as to be fixed while passing the optical cable.

Here, the cable fastener 80 is formed through a fastener passage 81, a cable fixing protrusion 82 which is formed along the periphery at the center of the inner surface of the fastener passage 81 and fixes the optical cable, and the cable fastener ( The stepped portion 83 fixed to the separation case 56 while being formed at the front and rear of the 80 is integrally formed.

That is, the cable fixture 80 is horizontally mounted on the moving passage 57 to guide the optical cable to the fixture passageway 81 to fix the optical cable that is penetrated using the cable fixing protrusion 82.

At this time, the cable fastener 80 is preferably formed of a synthetic resin or rubber having elasticity.

The pair of side plates 60 mounted on both sides of the main body 20 are formed to have a predetermined length, and rollers 61 are mounted at both ends to be easily inserted into and detached from the communication equipment housing.

That is, the side plate 60 is mounted on both sides of the main body 20 so that the front end is fixedly coupled to the coupler 55 of the front plate 50.

The rear plate 70 mounted at the rear of the main body 20 is fitted to the rear vertical portion 71 in which the optical cable entry grooves 72 are formed and the optical cable entry groove 71, respectively, and has an elastic wire 74 therein. The optical cable fixing portion 73 is formed at intervals, and the rear end portion 75 is fixed to the optical cable fixing portion 73 while being coupled to the lower portion of the rear vertical portion 71.

That is, the rear plate 70 is to be fixed to the side plate 60 while being located behind the main body 20.

The optical cable fixing part 73 seated in the optical cable inlet groove 71 is used to fix the optical cable penetrating therein by using the elastic wire 74 while minimizing the inflow of foreign substances or dust.

Hereinafter, an embodiment of a cooling fan module of an optical communication device housing configured as described above will be described.

First, the cooling fans 21 mounted in the vertical direction at intervals, the inlet portion 22 formed between the cooling fan 21 and the cooling fan 21 and into which the optical cables are inserted, and a gap in front The body 20 is made up of the handles 23 are formed.

And it is formed on the front and rear inner surfaces of the partition case 31 and the partition case 31 provided with a communication hole 32 on one side in the inlet portion 22, and the optical cable supplied to the inside to separate and mounted Compartment partitions 30 are formed integrally with the partition 33 formed with the partition space 34 which can be mounted, respectively.

Next, a frame 41 having a moving rail 42 formed around the cooling fan 21, a reel 43 rotatably mounted at one end of the frame 41, and the reel 43. Cooling fan cover means consisting of a blocking film 44, which is wound on the end and a fixing ring 45 is mounted, and a fixing protrusion 46 mounted at a position opposite to the reel 43 and coupled to the fixing ring 45. 40 are mounted respectively.

And a pair of side plates 60, which are provided with rollers 61 on both sides of the main body 20 is installed.

Next, a fixing case 51 having an inner space 52 and a coupling groove 53 and a coupling cover 54 inserted into and coupled to the coupling groove 53 in front of the main body 20 and the fixing case. Inserted and coupled to the inner space 52 of the 51 is fixed to the coupling cover 54, the inside of the moving passages 57 through which the optical cable penetrates and heat exhaust holes 58 for dissipating heat are formed in the front handle Install the front plate 50 consisting of a separation case 56 in which the projections 59 are formed.

In this case, the moving passage 57 is formed through the fastener passage 81, the cable fixing projection 82 is formed along the periphery in the center of the inner surface of the fastener passage 81 and fixes the optical cable, and the cable fastener ( The front and rear of each of the 80 is formed by fitting the cable fasteners 80 are formed integrally with the stepped portion 83 is fixed to the separation case 56, respectively.

Here, the front plate 50 and the side plate 60 is to be fixed through the coupling of the front end of the coupler 55 and the side plate 60.

In addition, the rear portion of the main body 20 has a rear vertical portion 71 in which optical cable entry grooves 72 are formed, and is fitted into the optical cable entry groove 71, respectively, and the elastic wires 74 are formed at intervals therein. When the rear plate 70 is formed of the optical cable fixing portion 73 and the rear finishing portion 75 is fixed to the optical cable fixing portion 73 while being coupled to the lower portion of the rear vertical portion 71, the optical communication equipment enclosure Assembly of the cooling fan module 10 is completed.

Here, the assembling order of the cooling fan module 10 of the optical communication equipment enclosure reveals that it can be configured differently from the above.

When the optical cable is to be fixed using the cooling fan module of the optical communication equipment enclosure in the above state, it is as follows.

First, the optical cable is inserted through the fastener passage 81 of the cable fastener 80 mounted on the front plate 50, and then the optical cable is moved to the partition space 34 of the partition partition 30.

At this time, the optical cable is fixed to the cable fixing projection 82 of the cable fixture 80 can not only prevent the optical cable from easily falling out or moving, but also to obtain the effect of shortening the working time through the alignment of the optical cable Will be.

Next, the optical cable introduced into the partition space 34 of the partition partition 30 may be introduced into the optical communication enclosure through the communication hole 32 of the partition case 31.

In addition, the heat generated in the optical communication housing is to be discharged to the outside along the heat discharge hole 58 of the separation case 56 constituting the cooling fan 21 and the front plate 50 formed in the main body 20. .

In the above description with reference to the accompanying drawings, the cooling fan module of the present invention, an optical communication device housing, mainly described in a specific shape and direction, the present invention can be variously modified and changed by those skilled in the art, such modifications and changes It should be construed as being included in the scope of the invention.

10: cooling fan module of optical communication equipment enclosure, 20: main body,
21: cooling fan, 22: inlet,
23: handle, 30: compartment partition,
31: partition case, 32: communication hole,
33: partition, 34: compartment,
40: cooling fan cover means, 41: the frame,
42: moving rail, 43: reel,
44: blocking film, 45: fixing ring,
46: fixing protrusion, 50: front panel,
51: fixed case, 52: internal space,
53: coupling groove, 54: coupling cover,
55: coupler, 56: separation case,
57: moving passage, 58: heat exhaust hole,
60: side plate, 70: thick plate,
71: vertical rear portion, 72: optical cable entry groove,
73: optical cable fixing portion, 80: the cable fixing fixture,
81: fixture passage, 82: cable fixing projection,
83: stepped portion.

Claims (3)

In the cooling fan module 10 of the optical communication equipment enclosure mounted on the communication equipment enclosure and cooling the heat generated by the various functional shelves,
Cooling fans 21 mounted in a vertical direction at intervals, an inlet 22 formed between the cooling fan 21 and the cooling fan 21 and into which optical cables are inserted, and formed at intervals in front Consists of a body 20 consisting of handles 23,
The inlet portion 22 is formed on the front and rear inner surfaces of the partition case 31 and the partition case 31 having a communication hole 32 on one side, respectively, and can be mounted separately from the optical cable supplied. Each of the partition partitions 30 in which the partition 33 having the partition space 34 is formed is integrally formed.
The circumference of the cooling fan 21 is wound around the frame 41 in which the moving rail 42 is formed, the reel 43 rotatably mounted at one end of the frame 41, and the reel 43. Cooling fan cover means (40) consisting of a blocking film (44) on which the fixing ring (45) is mounted, and a fixing protrusion (46) mounted at a position opposite to the reel (43) and coupled to the fixing ring (45) at the end. ), And
In the front of the main body 20 is a fixed case 51 having an inner space 52 and the coupling groove 53 and the coupling cover 54 is inserted into the coupling groove 53, and the fixing case 51 Inserted into the inner space 52 of the coupling is fixed to the coupling cover 54 and the inside of the moving passages 57 through which the optical cable penetrates and heat exhaust holes 58 for dissipating heat are formed in the front handle knob ( 59 is installed to the front plate 50 consisting of a separation case 56 is formed,
A pair of rollers 61 are provided at both sides of the main body 20 so that the front is fixedly coupled to the coupler 55 of the front plate 50 and the side is easily inserted into and separated from the communication equipment housing. Install the side plate 60,
In the rear of the main body 20, the rear vertical portion 71 in which the optical cable entry grooves 72 are formed and fitted into the optical cable entry groove 71, respectively, and the elastic wires 74 are formed at intervals therein. The side plate 60 while installing a rear plate 70 consisting of an optical cable fixing portion 73 and a rear finishing portion 75 which is fitted to the lower portion of the rear vertical portion 71 and fixes the optical cable fixing portion 73. Cooling fan module of the optical communication equipment housing, characterized in that coupled to the rear of the).
The method according to claim 1,
The cable fasteners 80 are mounted on the moving passages 57 of the separation case 56 constituting the front plate 50 so as to be fixed while passing through the optical cable.
The cable fastener 80 is formed through a fastener passage 81, a cable fixing protrusion 82 formed along the periphery at the center of the inner surface of the fastener passage 81 and fixing the optical cable, and the cable fastener 80 Cooling fan module of the optical communication equipment housing, characterized in that formed in front and rear of the stepped portion 83 is fixed to the separation case 56 is formed integrally.
The method according to claim 1,
The separation case 56 has heat dissipation holes 58 formed in the upper and lower portions in a horizontal direction, and a heat discharging guide 90 is detachably mounted at the rear of the heat discharging holes 58 to facilitate heat dissipation. Cooling fan module of the optical communication equipment housing, characterized in that.

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