DD212871A1 - ARRANGEMENT FOR HEAT EXTRACTION FROM CLOSED GEHAEUSEN - Google Patents

Abstract

The invention relates to an arrangement for heat removal from closed housings in which loss heat generating devices are arranged in several levels. The arrangement should be simple and adaptable to differently designed devices and assemblies as well as to narrow the space for storage. In the operating according to the heat exchange principle arrangement, the devices and assemblies are launched depending on the constructive execution and heat development by suitable execution of the internal forced circulation with cooled air. According to the invention, the inner air duct 6 is divided by at least one horizontal partition 3. Each sub-channel 13 has the cabinet inside over at least one Ansaugoeffnung 16; 18 and a Ausstroemoeffnung 17, on which at least one fan 9 is mounted so that the Kuehlkoerper the components to be cooled 11; 12 and / or the assemblies 7; 8; 10 are arranged even in sucked from the channel 6 Kuehlluftstrom.

Description

• Title of the invention. "

Arrangement for dissipating heat from closed housings

Field of application of the invention

The invention relates to an arrangement for dissipating heat from closed housings in which heat loss generating devices are arranged in several levels. "

Characteristic of the known technical solutions

There are various arrangements for heat dissipation from closed electronic cabinets according to the heat exchange principle known.

From DE-OS 17 90 054 (H 05 K 7/20) an arrangement for cooling of cabinets is known * At least one side of the cabinet are the interior of the outer space dust-tight final heat exchange elements arranged A fan system performs the heated air in the cabinet against the inside and a second fan system the ambient air against the outside of the heat exchange elements. The inside air is guided from above, the ambient air from below against the heat exchange elements. The fan unit for the cabinet interior air is under the cabinet roof

and arranged for the outer circuit in the lower Teil.des cabinet. With this arrangement no "heat esters" can be eliminated. From solutions operating according to the Y / heat exchange principle, solutions are also known which enable a targeted dissipation of heat from multi-level assemblies.

From DD-PS 147 182 (H 05 K 7/20), an arrangement for heat dissipation from switching or control cabinets is known, which contains a heat exchanger according to the countercurrent principle · The inner circuit is formed by a channel containing holes in the Suction nozzles open, whose openings are arranged above devices with special heat development (warm! Star) · The suction nozzles can be arranged adjustable and at different places of the inner channel ·

It is known from DD-PS 148 707 (H 05 K 7/20), a cooling arrangement for dust and splash-proof electronic cabinets containing heat exchangers in the cross flow principle · This arrangement includes a plurality of horizontal heat exchange units, each arranged over a plane with electronic assemblies and each other This arrangement has the disadvantage that a relatively large loading space is lost through the channel system with the several Y / märmärmaustauscheinheiten.

From DE-OS 21 47 388 (H 05 K 7/20), a rack assembly for electronic devices with a special ventilation unit is known · This arrangement is designed so that in the middle and on the sides of a unit consisting of horizontally arranged assemblies each vertically tubular spars are mounted, of which the middle

Holm on both sides and the side rails only at the. Module side have openings. The cooling air is directed through the spars and through the openings in these on the modules. This arrangement is not applicable to single - vessel vessels as they must be connected to a central ventilation unit.

Object of the invention

The aim of the invention is to provide a simple arrangement for heat dissipation from closed enclosures, this arrangement must be adaptable to different running devices and assemblies with different heat loss in several levels and the assembly space little eing

t.

Explanation of the essence of the invention

The technical problem which is solved by the invention.

The invention has for its object to provide an arrangement for heat dissipation of closed housings according to the Yvärmeaustauschprinzip in which heat loss generating devices are arranged in several levels and the devices and assemblies 3 ^e after constructive design and heat generation by suitable design of the inner forced circulation with cooled air be streamed ·

Features of the invention

In an arrangement for heat dissipation from closed

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senen housings in which loss-heat-generating devices are arranged in several levels, which is designed as a door, wall or part of a door or wall heat exchanger, which is flowed through in an inner circuit of the heated inner air and in an outer circuit of the cool outside air , as well as containing at least zv / ei fan, wherein a channel is formed in the inner circuit by a cover, this channel is divided according to the invention by at least one horizontal partition · Each sub-channel has the cabinet inside at least one suction port and one outflow, wherein the outflow at least a fan is mounted so that the heatsink of the assemblies to be cooled and / or the assemblies themselves are arranged in sucked out of the channel cooling air flow · In an embodiment of the invention, a sub-channel has at least two suction openings, which is located at the greatest possible distance from the Ausstr möffnung with the mounted fan located. The interior of the cabinet is divided by at least one horizontal partition wall ·

It is expedient that the horizontal intermediate wall is extended so that it replaces the partition wall of the channel.

According to one embodiment of the invention, the intake ports of the subchannels are arranged directly above one another and the outflow ports with the mounted fans are arranged on the sides of the subchannels facing the intake ports.

In a further embodiment of the invention, the roof and / or the floor is part of the heat exchange surface. In an advantageous embodiment of the second embodiment of the invention, the cover on the

Cabinet interior side in the amount of the partition wall a louver,.

 embodiment

The invention will be explained in more detail below using an exemplary embodiment.

Pig. 1: schematic representation of a first embodiment of the invention _?

Pig. 2: Schematic representation of a second embodiment of the invention

The embodiments of the invention according to Pig. 1 and 2 operate on the principle of an air-to-air heat exchanger. The invention will be explained using the example of a cabinet for electronic devices in two embodiments. But it is also suitable for heat dissipation from other closed enclosures in which heat loss generating devices are arranged in several levels. According to the embodiment, the heat loss of assemblies 7; 8th; 10; 11; 12 in five levels, with the. Heat dissipation takes place in two separate circuits. According to the invention, the heat dissipation of the assemblies 7; 8th; 10; 11; 12 also occur in more than two separate circuits. The heat dissipation takes place according to Pig ·· 1 and 2 for the assemblies 11; 12 in a circuit and for the assemblies 7 »S; 10 in another circuit · The division into internal circuits takes place according to the viewpoint of dissipated heat (power loss) and fluidic structure of the module. According to the embodiment forms the back door or _e back wall of the cabinet, the main part of the heat exchange surface 2 of the heat exchanger. Additionally in

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They heat exchange surface are after. Pig · 1 the roof 1 and after Pig · 2 the roof 1 and the bottom 20 included · In an advantageous embodiment of the invention, the heat exchanger is constructed so that it is constructed as a rear door · A circumferential seal, 14 ensures the sealing of the shock wave zwi , Sohrankinnenraum and heat exchanger to the environment. With the rear door open with the heat exchanger is a free access to the modules 7; 8th; 10; 11; 12 available. This is a particular advantage of the arrangement according to the invention. In Pig. 1 enters the cooling air in the vicinity of the bottom 20 of the cabinet in the outer channel of the v / poor exchanger. The cooling air is sucked in by a fan. »The air outlet openings are located on the front of the roof 1. The heat exchange surface 2 forms the interface between the outer and the inner channel and includes the surface of the roof 1 with a. The inner air side of the heat exchanger forms by covers 15, which are part of the heat exchanger and therefore firmly connected to this, an inner air duct 6 · The covers 15 and thus the inner air duct has suction openings 16; 18 and outflow openings 17, on each of which a fan ^ 9 is mounted, which is an integral part of the pivoting rear door * The inner air duct 6 is divided approximately in the middle of the cabinet by an approximately horizontal partition wall 3 in two sub-channels .'13. Of course, more than one partition wall 3 can be inserted if it is the heat development of the assemblies 7; 8th; 10 and 11; 12 and require their fluidic structure. The same applies to the approximately horizontal partition 4, which separates the Schrankimienraum 19 »The partition 4 can also be extended so that it replaces the partition wall 3 of the inner air duct 6. For

The arranged between the top wall of the cabinet 19 in the upper part of the cabinet interior 19 arranged assemblies 7, 8 with high power loss and unfavorable aerodynamic design, such as very tight printed circuit boards in a cassette are about the sub-channel 13 of the inner air duct 6 directly vented »Between the two assemblies 7; 8 is a connection shaft 22 which has openings in the region of the ventilated assemblies 7, 8 above and below and in the region of the fan 17 · There is a shaft, which allows direct ventilation of the assemblies 7, 8, without having to accommodate them in addition by panels in a closed shaft .. By dispensing with a shaft installation of all assemblies 7, 8, 10, and 11, 12 less effort and more favorable service conditions are achieved · Below the module, one module is 10 mi The upper inner circuit of the air to be cooled takes place through the fan 9 on the outflow opening 17, which contains the heated air from the ends of the cover 15 facing away from the fan 9 Suction openings 16; sucks, leads to the heat exchange surface 2 for cooling over and this again on the discharge opening, the assemblies 7; 8 directly ventilated. Thus, the same fan 9 for the forced convection at the heat exchange surface 2 and the assemblies 7; 8th; 10 used. The path for the upper part of the circuit at the heat exchange surface 2 is shorter in itself and the cooling air in the outer circuit already heated, but this is compensated by including the surface of the roof 1 in the heat exchange surface 2. »

In the lower part of the cabinet are. The modules to be cooled 11; 12, For example, those with heat sinks, which are flowed directly from the air flow of the fan 9. A connection shaft 22 is not appropriate · The fan 9 fulfills the same dual function as that of the upper circuit. It is mounted on the outflow opening 17 and sucks the heated air through the intake ports 16; 18 through the assemblies 11; 12 or on their heat sinks past the Y / märmeaustauschfläche 2 over »The suction ports 16; 18 are located at the greatest possible distance from the discharge opening 17 with the mounted fan 9. In assemblies with Leiterplattenbestükkung 7; 8 these should be so arranged above one ^another}, that a slot is formed together with the connecting shaft · According to exemplary embodiment, the assembly 11 '; 12 at their backsides vertical cooling fins, which are flowed through by the air flow from the fan 9 at an angle of about 90 ° · The air flow splits and the air then flows up and down along the cooling fins · A small part of the air flow is between the assemblies 11; 12 blown and passed through them. According to the desired effect, the distance between the assemblies 11; 12 · With a small distance between these assemblies 11; 12 more air flows along the heat sinks and only slightly through the assemblies 11; 12 itself. At a large distance more air flows through the assemblies 11; If one of the assemblies 11 or 12 has only a slight evolution of heat, only the assembly 11 or 12 with the large heat generation / direct flow, with the other assembly 12 or 11 is cooled only slightly. When dimensioning the distance between the discharge opening 17th

and the suction openings 16; 18 it is expedient to start from the flow resistance of the assemblies. At a high flow resistance of the assembly, the distance between the outflow and suction ports 17 and 16; 18 be low, with low flow resistance, however, the distance must be as large as possible. Then another subassembly, ζ · Β · 10, can be included in the subcircuit. It must be ensured that the flow resistances of the two partial circuits are approximately the same from the openings 17 through 18 back to 17 and 17 via 16 back to 17. Thus, an approximately uniform flow through all assemblies 7, 8, 10 is realized When determining the distance between the outflow opening 17 and the suction openings 16, 18, the different heat development of the components, assemblies and the effective heat exchange surface 2 must be taken into account.

Is the resulting power loss of adjacent modules 11; 12 so high that a direct blowing with separate fans 9 is required, should a further floor with an additional partition 3, additional partition 4 and suction and exhaust openings 16; 18; 17 for each assembly 11; 12 are executed. The number of floors and thus also the sub-channels 13 can only be increased so far as long as the available heat exchange surface 2 for each floor allows the required dissipation of heat to the outer circuit. The separation of the cabinet interior 19, a heating of the upper assembly by the lower and a mutual influence of the air currents is avoided

 The embodiment of the invention according to Pig. 2 is

It is only the differences from the first embodiment that are explained. The two subchannels 13 of the inner air duct. 6 yrerden also achieved through the partition wall 3. But since no intermediate wall 4 is present, adjoins the partition to a louver, which deflects the air streams of the two streams in the cabinet interior 19 so that their separation is substantially maintained. In each cabinet half with the modules 7; 8th; 10 and 11, respectively; 12, there is only one airflow. The outflow openings 17 with the fans 9 mounted thereon are located at the upper and lower end of the cover 15 or at the sides of the subchannels 13 opposite the intake openings 16. The intake openings 16 of the subchannels 13 are directly above one another on both sides of the partition wall 3 arranged. According to this embodiment, the assemblies 7; 8th; 10 and 11; 12 flows through the cooled inside air. The bottom 20 is included in the heat exchange surface 2. It is expedient that the assemblies 7; 8th; 10; 11; 12 as close as possible to the cover 15. The greater the distance, the greater the loss of cooling power due to the escape of the cooling air flow into the free space between module and cover 15.

The invention can be used to dissipate heat from all closed vessels, in which waste heat generating devices * reasonable arranges several levels ''

The proposed arrangement allows with little effort a heat dissipation from closed housings, as well as an adaptation to different, executed devices and assemblies with different heat loss -

Claims (7)

-11 - * invention claim 1 · Arrangement for heat dissipation from closed housing, in which heat loss generating devices are arranged in several levels, which is designed as a door, wall or part of a door or wall heat exchanger, in an inner circuit of the heated indoor air and in an external circuit of the cool outside air is flowed through, as well as containing at least two fans; wherein in the inner circuit by a cover, a channel is formed, characterized in that the channel (6) is divided by at least one horizontal partition (3) and each sub-channel (13) to the cabinet inside over at least one suction port. (16, 18) and an outflow opening (17), wherein on the outflow opening (17) at least one fan (9) is mounted so that the heat sink of the assemblies to be cooled (11, 12) and / or the assemblies (7; 8, 10) are arranged even in the cooling air flow drawn in from the channel (6), Arrangement according to item 1, characterized in that a partial channel (13) has at least two suction openings (16; 18) which are located as far as possible from the outlet opening (17) with the mounted fan (9) and the cabinet interior (19) by at least one horizontal Partition (4) is divided. - Arrangement according to items 1 and 2, characterized in that the horizontal intermediate wall (4) is extended so far that it replaces the dividing wall (3) of the duct (6). Arrangement according to item 1, characterized in that the suction openings (16) of the subchannels (13) directly above one another and the outflow openings (17) with the mounted fans (9) on the sides of the subchannels (13) facing the intake openings (16) ) are arranged. 5 »arrangement according to item 1 to 4, characterized in that the roof (1) is part of the heat exchange surface (2). 6 · Arrangement according to point T to 5 ». characterized in that the bottom (20) is part of the Y / härmeaustauschfläche (2). , 7. Arrangement according to item 1, 4, 5 and 6, characterized in that the cover (15) on the inside of the cabinet at the level of the partition wall (3) includes a louver (21). - For this 2 pages drawings -