KR102107703B1 - a structure of subrack in a case - Google Patents

Abstract

The present invention relates to a sub-rack installation structure having a heat sink inside the enclosure, and more specifically, when installing the sub-rack in the interior of the enclosure, it is possible to easily assemble to reduce the manufacturing cost, as well as equipment It relates to a sub-rack installation structure having a heat sink inside the housing that can reduce the overall volume.
The present invention for achieving the above object is an upper guide member provided on the upper side of the inner side of the enclosure, the lower guide member provided on the lower side of the inner side of the enclosure, and the upper and lower guide members of the front and rear respectively It is characterized in that it comprises a front and rear frames provided, and the front and rear frames are fixed to the front and rear frames, and slots are formed at regular intervals.

Description

A structure of a subrack having a heat sink inside the enclosure {a structure of subrack in a case}

The present invention relates to a sub-rack installation structure having a heat sink inside the enclosure, and more specifically, when installing the sub-rack in the interior of the enclosure, it is possible to easily assemble to reduce manufacturing cost, as well as equipment It relates to a sub-rack installation structure having a heat sink inside the housing that can reduce the overall volume.

In general, modules used in electronic devices such as general-purpose computers, digital exchange systems, and large-capacity monitoring and control devices are housed in so-called "subracks" to protect them from foreign objects and external shocks.

Referring to Figures 1 to 3 showing such a typical sub-rack 100, this is the upper / lower front frame 110, 130, and the motherboard (Fig. (Not shown) is composed of the upper / lower rear frame 120, 140, the side plate 160, the top plate 170, and the bottom plate is fixed, such as to accommodate the circuit board 20, etc. It is forming a space.

And, between the upper front frame 110 and the upper rear frame 120 and between the lower front frame 130 and the lower rear frame 140, the circuit board 20 is a guide rail 180 that can be slidingly supported ) Are combined at regular intervals.

Here, a fixing hole 111 for fixing the side plate 160 is formed in the upper front frame 110, and an opening 112 is elongated in the longitudinal direction at the front, and the opening 112 ) Inside the screw hole 31 is formed with a coupling groove 113 in which the tab strip 30 formed at regular intervals is slidingly coupled.

At this time, since the lower front frame 130 has the same structure as the upper front frame 110, illustration is omitted.

On the other hand, the front plate 150 is fixed to the upper / lower front frame 110 and 130 by a fixing bolt 10, wherein the fixing bolt 10 penetrates the front plate 150 to the tap strip. The front plate 150 is fixed by being screwed to the screw hole 31 of (30).

However, the conventional sub-rack as described above is provided with a top plate and a side plate, and is fixedly installed inside a separate frame or enclosure. In this case, sufficient space for installing the sub-rack is required in the entire product. There is a problem of bulkiness.

In addition, since a plurality of modules constituting an electronic device are installed in a slot of the sub-rack, there is a problem in that it is not easy to discharge heat generated from each module.

Korean Registered Patent 10-0526951 Korean Registered Patent 10-0493940

The present invention has been devised to solve the above problems, and an object of the present invention is to install an upper guide member and a lower guide member, respectively, on the upper and lower sides of the inner side surfaces of the enclosure, respectively, when installing a sub-rack inside the enclosure. It is to provide a sub-rack installation structure having a heat sink inside the housing to reduce the overall volume by fixing the entire frame and the rear frame to which the slot-shaped slots are fixed to the upper guide member and the lower guide member.

And, another object of the present invention is the upper guide member and the lower guide member installed on both sides of the housing guide grooves are formed along the longitudinal direction, the guide groove is fixed bar, rear frame, spacer bar, all the frames sequentially Not only can it be easily assembled by inserting, but a front end of the upper guide member and a lower guide member is provided with a finishing plate, but an adjusting bolt is provided at the center of the finishing plate to securely fix the front of the entire frame to the rear side. It is to provide a sub-rack installation structure with a heat sink inside the housing.

In addition, another object of the present invention is the upper surface of the upper guide member installed on both side surfaces of the housing, a drain groove is formed in a portion in contact with the inner surface of the housing, and the drain groove is formed to be inclined, whereby the housing is installed outdoors When a condensation occurs on the inner wall of the enclosure, the water droplets flow along the drain groove, thereby providing a subrack installation structure having a heat sink inside the enclosure to prevent water droplets from contacting each module installed in the subrack. will be.

The present invention for solving this problem;

The upper guide member provided on the upper side of the inner side of the enclosure, the lower guide member provided on the lower side of the inner side of the enclosure, and the upper guide member and the lower guide member, respectively, are configured to remove the module member constituting the electronic device. It characterized in that it comprises a slot portion is formed slot is formed.

At this time, the front and rear frames of the upper and lower guide members are provided with a front frame and a rear frame, respectively, and the slot portion is characterized in that front and rear ends are fixed to the front and rear frames.

Here, the upper guide member and the lower guide member is formed with a guide groove along the longitudinal direction, a locking groove is formed on the upper and lower portions of the guide groove, and inserted into the guide groove at both ends of the entire frame and the rear frame. An insertion portion is formed, and the upper and lower portions of the insertion portion are formed with a locking protrusion portion corresponding to the locking groove.

In addition, a fixing bar is inserted and fixed at a rear end of the guide groove formed in the upper guide member and the lower guide member, and a separation bar is provided between the entire frame and the rear frame.

At this time, the upper guide member and the lower guide member is provided with a finishing plate on the front surface, and a central portion of the closing plate is provided with an adjustment bolt for pressing the entire frame to the rear.

On the other hand, between the upper guide member and the lower guide member is characterized in that the heat sink is provided to contact the inner surface of the enclosure.

Here, upper fixing grooves are formed at regular intervals on the lower surface of the upper guide member, lower fixing grooves are formed at regular intervals on the upper surface of the lower guide member, and the heat sink is enclosed in the upper fixing groove and the lower fixing groove. It is characterized in that the top and bottom of the heat sink fixing bar for adhering to both sides are respectively inserted.

At this time, the side of the module member inserted into the slot is characterized in that the insertion portion is formed so that the heat sink is inserted.

And, the depth of the upper fixing groove is characterized in that formed deeper than the depth of the lower fixing groove.

On the other hand, the upper surface of the upper guide member and the lower guide member is characterized in that the drain groove is formed along the longitudinal direction in the portion in contact with the inner surface of the housing.

In addition, all of the upper and lower guide members are each provided with a frame, and the slot portion is provided at the rear of the entire frame, and is composed of an upper slot portion installed on the upper guide member and a lower slot portion installed on the lower guide member. It is characterized by.

Here, the lower surface of the upper slot is characterized in that the radiating fins are formed at regular intervals.

At this time, a heat sink is installed on the inner upper surface of the enclosure, and the heat sink fin is inserted into the recess of the heat sink.

According to the present invention of the above configuration, when installing the sub-rack inside the enclosure, the upper guide member and the lower guide member are respectively installed on the upper and lower sides of the inner side of the enclosure, and the plate shape is formed on the upper guide member and the lower guide member. It is possible to reduce the overall volume by fixing the entire frame and the rear frame to which the slot portion is fixed.

In addition, the present invention, the upper guide member and the lower guide member installed on both sides of the housing, guide grooves are formed along the longitudinal direction, and the guide grooves are easily inserted by sequentially inserting a fixed bar, a rear frame, a spacer bar, and all frames. In addition, the front guide member and the lower guide member are provided with a finishing plate at the front end, but an adjustment bolt is provided at the center of the finishing plate to press the front side of the entire frame to the rear side to securely fix the effect. There is.

In addition, the present invention is formed on the upper surface of the upper guide member installed on both side surfaces of the enclosure, a drain groove is formed in a portion in contact with the inner surface of the enclosure, and the drain groove is inclined, so that when the enclosure is installed outdoors, the inner wall of the enclosure When condensation occurs, it is possible to prevent the water droplets from contacting each module installed in the sub-rack by allowing the water droplets to flow along the drain groove.

1 is a perspective view of a conventional sub-rack.
Figure 2 is a cross-sectional view showing the upper front frame portion of a conventional sub-rack.
Figure 3 is a partial cross-sectional view showing a main portion of a conventional sub-rack.
4 is a perspective view of a sub-rack installation structure having a heat sink inside the housing according to the present invention.
Figure 5 is an exploded perspective view of the guide member of the sub-rack installation structure having a heat sink inside the housing according to the present invention.
6 is a cross-sectional view of a sub-rack installation structure having a heat sink inside the housing according to the present invention.
7 is an exploded perspective view showing a coupling relationship between the front plate and the entire frame of the sub-rack installation structure having a heat sink inside the housing according to the present invention.
8 is a partial cross-sectional view of a sub-rack installation structure having a heat sink inside the enclosure according to another embodiment of the present invention.
9 is a cross-sectional view according to the embodiment of FIG. 8.
10 is a cross-sectional view according to the embodiment of FIG. 8.
11 is a perspective view of a sub-rack installation structure having a heat sink inside the housing according to another embodiment of the present invention.
12 is a rear perspective view according to the embodiment of FIG. 11.
13 is a perspective view of an upper slot part according to the embodiment of FIG. 11.
14 is a perspective view of a lower slot part according to the embodiment of FIG. 11.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals are used for the same components in the drawings, and duplicate descriptions for the same components are omitted. And, it should be understood that the present invention can be implemented in many different forms and is not limited to the described embodiments.

Figure 4 is a perspective view of a sub-rack installation structure with a heat sink inside the enclosure according to the invention, Figure 5 is an exploded perspective view of a guide member of the sub-rack installation structure with a heat sink inside the enclosure according to the invention, Figure 6 Is a cross-sectional view of a subrack installation structure having a heat sink inside the enclosure according to the present invention, and FIG. 7 is a separation showing a coupling relationship between the front plate and the entire frame of the subrack installation structure having a heat sink inside the enclosure according to the present invention. 8 is a partial cross-sectional view of a sub-rack installation structure having a heat sink inside the enclosure according to another embodiment of the present invention, FIG. 9 is a cross-sectional view according to the embodiment of FIG. 8, and FIG. 10 is an implementation of FIG. 8 11 is a perspective view of a sub-rack installation structure having a heat sink inside the housing according to another embodiment of the present invention, and FIG. 12 is a rear perspective view according to the embodiment of FIG. 11 to be.

The present invention relates to a sub-rack installation structure having a heat sink inside the enclosure, and as shown in FIGS. 4 to 7, the configuration includes an upper guide member 210 provided on the upper sides of the inner sides of the enclosure and both sides of the enclosure. The lower guide member 220 and the upper guide member 210 and the lower guide member 220 provided at the lower part of the front and rear frames 320 and the rear frame 320 and the front frame respectively provided at the front and rear parts, respectively. 310) and the rear frame 320, the front and rear ends of the slot portion 330 is fixed.

Here, the slot portion 330 is formed in a plate shape, a slot 332 is formed at regular intervals, the slot 332 is formed in the front-rear direction, the module member constituting the electronic device is detachably inserted and fixed do.

So, in the prior art, as shown in Figure 1, the side plate 160 and the top plate 170 are provided, respectively, whereas in the present invention, the upper guide member 210 and the lower guide member 220 directly on the inner wall surface of the enclosure. By installing, and fixing the entire frame 310 and the rear frame 320, the overall structure is simplified and the volume is reduced.

Further, the upper guide member 210 and the lower guide member 220 are formed with guide grooves 212 and 222 along the longitudinal direction. The guide grooves are provided at both ends of the entire frame 310 and the rear frame 320 in the longitudinal direction. Insertion parts 316 and 326 inserted into (212 and 222) are formed to be installed on the front and rear parts of the upper guide member 210 and the lower guide member 220, respectively.

Here, in the upper and lower portions of the guide grooves 212 and 222, locking grooves 213 and 223 are formed along the longitudinal direction, and upper and lower portions of the inserting portions 316 and 326 correspond to the locking grooves 213 and 223, respectively. 317,327) are formed respectively.

Therefore, even if the housing 213, 223, the locking protrusions 317, 327 are supported and the enclosure expands due to heat, both ends of the entire frame 310 and the rear frame 320 stably escape from the guide grooves 212, 222. It can be prevented.

Meanwhile, a fixing bar 340 is inserted into the rear ends of the guide grooves 212 and 222 formed in the upper guide member 210 and the lower guide member 220 to be fixed using a fixing bolt, and the fixing bar 340 The rear frame 320 is located on all of the.

Here, the guide groove (212,222) is provided with a spacer bar 350 between the rear frame 320 and the entire frame 310, wherein the fixed bar 340 and the spacer bar 350 are the upper and lower The locking protrusions 342 and 352 are respectively formed to correspond to the locking grooves 213 and 223, thereby preventing the guide grooves 212 and 222 from being randomly separated.

In addition, a closing plate 360 is provided on the front of the upper guide member 210 and the lower guide member 220, and fixing bolts are provided on the upper and lower portions of the closing plate 360 to provide an upper guide member 210. And is fixed to the front of the lower guide member 220.

At this time, a through hole 362 is formed in the center of the closing plate 360, and an adjusting bolt (not shown) is provided in the through hole 362, and the rear end of the adjustment bolt (not shown) is All are in contact with the front of the frame 310.

Therefore, the control bolt (not shown) is controlled to fix the spacer bar 350, including the entire frame 310, and the rear frame 320 in the direction in which the fixing bar 340 is located so as not to be shaken.

Here, on the upper surfaces of the upper guide member 210 and the lower guide member 220, drain grooves 216 and 226 are formed along the longitudinal direction in a portion in contact with the inner surface of the housing, and the drain grooves 216 and 226 are directed to one side. It is formed obliquely, or the upper guide member 210 and the lower guide member 220 are installed obliquely in one direction.

So, when the enclosure to which the present invention is applied is installed outdoors, water droplets generated due to condensation on the inner surface of the enclosure due to temperature difference between night and day flow down along the drain grooves 216 and 226 to the slot 332. It is possible to prevent the module member from being damaged by moisture by preventing the inserted module member from contact with water droplets.

On the other hand, fastening jaws 312 and 322 at which the front end and the rear end of the slot part 330 are coupled are formed on both the rear part of the front frame 310 and the rear frame 320, respectively, and the cutting jaws 312 and 322 are cut off. Parts 313 and 323 are formed, and installation grooves 314 and 324 are formed on both sides of the incisions 213 and 323 along the longitudinal direction.

Here, the installation grooves 314 and 324 are inserted with tap straps 315 and 325 in which through holes are formed at regular intervals along the longitudinal direction.

At this time, a screw hole is formed at regular intervals at the front end and the rear end of the slot part 330, and the screw hole is formed to correspond to a through hole formed in the tab straps 315 and 325, and the slot part 330 is fixed using a fixing bolt. It is fixed to the front frame 310 and the rear frame 320, respectively.

And, the slot portion 330 is formed with a slot 332 at regular intervals, the slot 332 is a module member constituting each electronic device is inserted and fixed, the front end of the module member 410 This is installed, the upper and lower ends of the front plate 410 is provided with a detachable member 420 that is fixed to the frame 310.

Here, the detachable member 420 is the top and bottom of the front plate 410 formed on one side of the clamp-shaped fixing portion 422 and the fixing portion 422 so as to be detachable from the entire frame 310. It is made of a coupling portion 424 for coupling using a bolt or the like.

At this time, a locking projection 318 is formed along the lengthwise direction of the entire frame 310, and a locking projection 423 is formed on the fixing unit 422 to correspond to the locking projection 318. The cross section of 423 is formed in a sawtooth shape.

Accordingly, when the module member is fixed, when the module member is pressed in the direction of the slot 332, the locking protrusion 423 is inserted into the locking jaw 318 and can be easily fastened. By pressing the handle (not shown) formed on the locking projection 423 to be spaced apart from the locking projection 318, it is possible to easily separate the module member from the slot 332.

Meanwhile, as illustrated in FIGS. 8 to 10, a heat sink 510 is further provided between the upper guide member 210 and the lower guide member 220, and one side surface of the heat sink 510 is an inner surface of the enclosure. It is provided to be in contact with.

Here, the heat sink 510 is formed to bend the metal plate having good thermal conductivity so that the recesses and the convex portions are alternately positioned, and the heat sink fixing bar 520 is inserted into the recess forming the heat sink 510 to insert the heat sink 510. It is fixed to abut against the inner surface of the enclosure.

At this time, the upper fixing groove 214 and the lower fixing groove 224 are formed on the lower surface of the upper guide member 210 and the upper surface of the lower guide member 220 to correspond to each other at regular intervals along the longitudinal direction. The upper and lower portions of the heat sink fixing bar 520 protruding to the upper and lower portions of the heat sink 510 are inserted into the upper fixing groove 214 and the lower fixing groove 224, respectively, to fix the heat sink 510.

Here, since the depth of the upper fixing groove 214 is formed deeper than the depth of the lower fixing groove 224, when fixing the heat sink 510, the upper portion of the heat sink fixing bar 520 is an upper fixing groove ( After first inserting in 214, the lower portion of the heat sink fixing bar 520 is inserted into the lower fixing groove 224 so that it can be easily inserted.

In addition, the heat sink fixing bar 520 is formed to have a weight greater than a certain amount to prevent the heat sink fixing bar 520 from being separated from the upper fixing groove 214 and the lower fixing groove 224 by its own weight.

Of course, a spring for elastically supporting the heat sink fixing bar 520 to the lower side of the upper fixing groove 214 may be provided.

Meanwhile, a module member is inserted into the slot 332 formed in the slot part 330, and an insertion part 610 is formed on one side surface of the module member so that the heat sink 510 is inserted.

At this time, the module member may be in close contact with the heat sink 510, or may be spaced apart at regular intervals, and the heat generated by the module member may be more quickly transferred to the heat sink 510 by the inserter 610. Will be delivered.

Therefore, the heat transferred to the heat sink 510 is radiated to the outside through the wall surface of the enclosure, so that heat generated from the module member can be discharged more quickly.

And, as another embodiment of the present invention, as shown in Figures 11 to 14, the upper guide member 210 provided on the upper side of the inner side of the housing and the lower guide member 220 provided on the lower side of the inner side of the enclosure ) And the upper guide member 210 and the lower guide member 220 are provided on the entire frame 310 and the slot portion 330 provided on the rear of the entire frame 310.

Here, the slot portion 330 is provided on the rear portion of the entire frame 310, the upper slot portion 330a installed on the upper guide member 210 and the lower slot portion installed on the lower guide member 320 ( 330b).

At this time, fixing plates 336 are formed at both end portions of the upper slot portion 330a and the lower slot portion 330b, and the fixing plate 336 uses the fixing bolt (not shown) to guide the upper guide member 210. And lower guide member 220.

On the other hand, the upper slot portion 330a and the lower slot portion 330b are formed with slots 332 'at regular intervals on opposite sides of each other, and the module members constituting the electronic device are inserted and removed, and the slots 332' The width of the is formed to correspond to the thickness of the module member to be installed.

In addition, a heat sink 510 'is provided on the inner upper surface of the enclosure, and a through portion 512 is formed on the heat sink 510' to penetrate vertically, and the through portion 512 is fixedly installed on the inner upper surface of the enclosure. The bracket 522 is inserted.

Here, on the lower surface of the bracket 522, a heat sink plate fixing bar 520 'for fixing the heat sink 510' is fixedly installed, and the heat sink plate fixing bar 520 'uses a fixing bolt (not shown). The heat sink 510 'is fixed.

At this time, a heat dissipation fin 334 is formed at regular intervals on the upper surface of the upper slot part 330a, and the heat dissipation fin 334 is formed to be inserted into the recessed portion of the heat dissipation plate 510 '.

So, the heat generated from the module member installed in the slot 332 'is transmitted to the heat sink 510' through the upper slot part 330a and the heat sink fin 334, and the heat transferred to the heat sink 510 'is encased. Since it is transmitted to the outside through the upper surface of the, it is possible to quickly discharge the heat to the outside.

In addition, the upper slot part 330a and the lower slot part 330b may be integrally formed as shown in FIGS. 13 and 14 or may be assembled after being divided into two parts or parts. .

Although the preferred embodiment of the present invention has been described above, the scope of the present invention is not limited to this, and the scope of the present invention is applied to the scope of the present invention to the extent that it is substantially equivalent to the embodiment of the present invention. Various modifications can be made by those skilled in the art to which the present invention pertains without departing from the scope.

The present invention relates to a sub-rack installation structure having a heat sink inside the enclosure, and more specifically, when installing the sub-rack in the interior of the enclosure, it is possible to easily assemble to reduce manufacturing cost, as well as equipment It relates to a sub-rack installation structure having a heat sink inside the housing that can reduce the overall volume.

210: upper guide member 220: lower guide member
310: all frames 320: rear frames
330: slot part 340: fixed bar
350: separation bar 360: finish plate
410: front panel 420: removable member
510: heat sink 520: heat sink fixing bar

Claims (13)

Upper guide member provided on the upper side of the inner side of the housing,
A lower guide member provided on the lower sides of the inner side of the housing,
It is provided on each of the upper guide member and the lower guide member, and includes a slot portion in which a slot in which a module member constituting an electronic device is inserted and removed is formed,
Between the upper guide member and the lower guide member, a heat sink is provided so as to contact the inner surface of the housing.
According to claim 1,
The upper and lower guide members are provided with front and rear frames, respectively, on the front and rear portions,
The slot portion is a sub-rack installation structure having a heat sink inside the enclosure, characterized in that the front and rear ends are fixed to the front frame and the rear frame.
According to claim 2,
The upper guide member and the lower guide member are formed with a guide groove along the longitudinal direction,
A locking groove is formed at the upper and lower portions of the guide groove,
An insert portion inserted into the guide groove is formed at both ends of the front frame and the rear frame, and a locking rack is formed in the upper and lower portions of the insert portion so as to correspond to the locking groove. Installation structure.
According to claim 3,
A fixing bar is inserted and fixed to the rear end of the guide groove formed in the upper guide member and the lower guide member,
A sub-rack installation structure having a heat sink inside the housing, characterized in that a spacer bar is provided between the front frame and the rear frame.
According to claim 4,
The upper guide member and the lower guide member are provided with a finishing plate on the front surface,
Subrack installation structure with a heat sink inside the housing, characterized in that the center of the closing plate is provided with an adjustment bolt for pressing the entire frame to the rear.
delete According to claim 1,
An upper fixing groove is formed at regular intervals on the lower surface of the upper guide member,
A lower fixing groove is formed at regular intervals on the upper surface of the lower guide member,
The upper fixing groove and the lower fixing groove have a sub rack installation structure with a heat sink inside the enclosure, characterized in that the upper and lower ends of the heat sink fixing bar are respectively inserted to adhere the heat sink to both sides of the enclosure.
The method of claim 7,
A sub-rack installation structure having a heat sink inside the enclosure, characterized in that an insert is formed on the side of the module member inserted into the slot so that the heat sink is inserted.
The method of claim 7,
The sub-rack installation structure having a heat sink inside the housing, characterized in that the depth of the upper fixing groove is formed deeper than the depth of the lower fixing groove.
According to claim 1,
The upper guide member and the upper surface of the lower guide member have a sub-rack installation structure with a heat sink inside the housing, characterized in that a drain groove is formed along the longitudinal direction in a portion in contact with the inner surface of the housing.
According to claim 1,
All of the upper and lower guide members are provided with frames, respectively,
The slot portion is provided on the rear portion of the entire frame, the sub-rack installation structure with a heat sink inside the housing, characterized in that consisting of an upper slot portion installed on the upper guide member and a lower slot portion installed on the lower guide member.
The method of claim 11,
Sub rack installation structure having a heat sink inside the housing, characterized in that the heat sink fins are formed at regular intervals on the upper surface of the upper slot.
The method of claim 12,
A heat sink is installed on the inner upper surface of the enclosure, and the heat sink fins are inserted into the recesses of the heat sink to form a subrack installation structure with a heat sink inside the enclosure.

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