DE202006003754U1 - heat exchangers - Google Patents

Abstract

Heat exchanger for water-cooled network cabinets with a housing (6) having an air inlet side (7) for an exhaust air stream and an air outlet side (8) for the cooling air from the heat exchanger (2), and in which two heat exchanger elements (3, 4) to form a Air inlet open gap (5) are arranged at an angle to each other,
characterized,
the heat exchanger elements (3, 4) have separate cooling water connections (13, 14) for a redundant design of the heat exchanger (2),
that in the intermediate space (5) between the two heat exchanger elements (3, 4) a partition wall (10) is arranged, and
in that the dividing wall (10) moves from a position for acting on the two heat exchanger elements (3, 4) with the exhaust air flow into a blocking position for air-technical blocking of one of the two heat exchanger elements (3, 4) and acting on the respective other heat exchanger element (4, 3) Exhaust air flow is adjustable.

Description

The The invention relates to a heat exchanger for liquid-cooled network cabinets according to the preamble of claim 1.

Known heat exchangers for liquid-cooled network cabinets Air-liquid heat exchanger, in particular air-water heat exchangers, which for exhaustion high power losses from the network cabinets, especially server cabinets suitable are.

Out DE 20 2004 006 552 U1 and WO 2005/104 642 A1 and from the website "CoolTherm" the company KNÜRR AG is a liquid-cooled server cabinet is known, which has an air-water heat exchanger in the lower area and thus below the superposed server. The heat exchanger is connected to the building network, the water inlet temperature is about 12 ° C and the entire waste heat is dissipated through the cooling water circuit to the outside without affecting the room climate. The air in the cabinet is guided in a closed circuit, whereby advantageously equal long flow paths are realized by all servers. The cooling air is sucked from the heat exchanger at a temperature of 20 to 25 ° C from the blowers of the server front and discharged at the back with an elevated temperature. This exhaust air is extracted behind the servers and forced downwards into the heat exchanger with the aid of fans through an exhaust duct in the rear door of the cabinet.

Of the known CoolTherm server cabinet with the bottom side arranged Air-water heat exchanger guaranteed high cooling capacities above 4 to 6 kW per cabinet, allowing high-performance server built-in and server cabinets with a very high packing density, also in juxtaposition in Data centers and the like can be set up.

At server cabinets for high availability data centers There is an increasing demand for all functionally critical components redundant design. For example, the CoolTherm server cabinet Fans arranged in n + 1 redundancy. The air-water heat exchanger As a purely passive component, it has a relatively low failure probability on. However, there is no 100% reliability.

The Liquid cooling package (LCP) cooling concept the company RITTAL (see internet appearance of the company RITTAL, product catalog HB31 / system air conditioning) allows heat exchange side the training of redundancies. The LCP includes a cooling rack, which side of a server cabinet or between two server cabinets arranged and up to three or four air-water heat exchanger cooling modules, which one above the other are arranged, can accommodate. In an arrangement of two server cabinets with an LCP between these cabinets and one lateral LCP each, the middle LCP provides redundancy for each the right and left server cabinet

This cooling system has due to the lateral arrangement of the heat exchanger modules or the cooling rack a greater risk of leakage up and is as well with a larger Platzbe may connected and sufficient because of the larger width not the pitch of Cabinet rows in data centers.

Of the Invention is based on the object, an air-liquid heat exchanger to develop, which is redundant and also a compact Easy to assemble, maintain and leak-proof in a network cabinet, especially in a server cabinet. At the same time, the redundant heat exchanger is compatible with the previously used in the CoolTherm server cabinet, efficient air-liquid heat exchanger be.

According to the invention Problem solved by the features of claim 1. Advantageous and advantageous embodiments are in the subclaims and included in the figure description.

One The basic idea of the invention is compatibility and redundancy by a suitable arrangement of two heat exchanger elements in one casing of the heat exchanger to reach and the two independent heat exchanger elements with separate Cooling water connections too Mistake. It is advantageous if the two heat exchanger elements, which For example, designed as independent pipe / lamella blocks could be, each detachable to the supply and return connected by separate lines of a cold water network or a recooler can be.

According to the invention, a separating wall is adjustably arranged in an air space which is open on the air inlet side and which is formed by the heat exchanger elements arranged at an angle to one another. This partition can be pivoted from a position in which both heat exchanger elements are acted upon with the exhaust air to be cooled and which is before given to a middle position, in a Blockadestellung. The Blockadestellung leads to a cover each one of the two Wärmetauscherelemen te and thus to an air-technical blocking the exhaust air supply, with the result that in each case the other heat exchanger element is acted upon by the entire exhaust air flow.

It is procedurally provided, that in normal operation, the two heat exchanger elements of a Coolant, preferably from cold water from the building network or from cooling water from a special cooling water network of the data center, and acted upon by the exhaust heat applied to the exhaust air become. The adjustable partition is in normal operation in the middle position and the over an air inlet side into the heat exchanger reaching exhaust air flow is distributed to both heat exchanger elements. The through both heat exchanger elements flowing Air enters as cooling air from the two heat exchanger elements in an air outlet space and is the servers to be cooled and / or similar Supplied components.

in the Case of a fault the partition is adjusted in the blockade position. A disturbance can the failure of a heat exchanger element, for example, due to leakage or clogging. Another incident is in case of failure of a cooling circuit given, in which the connected heat exchanger element is no longer with cooling water can be supplied. If a cooling circuit fails, can through a temporary Swiveling the air deflector, the entire exhaust air flow through the heat exchanger element be routed, which is connected to the intact cooling circuit. The server cabinet can continue to operate until the fault is rectified become. It is only the air deflector to pivot so that a ventilation block the exhaust air supply to the heat exchanger element with the disturbed Cold water supply guaranteed is. Prerequisite is an independent cooling water supply of the two heat exchanger elements, which especially in high availability data centers is advantageous.

In a preferred embodiment are the two heat exchanger elements cuboid shaped and arranged such that the air inlet side gap in horizontal section V-shaped and the air outlet space are formed approximately W-shaped. In the Usually, the air inlet side of the heat exchanger housing is at one in a server cabinet, for example, arranged on the bottom side, heat exchanger according to the invention at the back of the cabinet and an air outlet side of the heat exchanger housing is arranged in the front cabinet area. The heat exchanger is thus from the back of the cabinet flows in the direction of the front side with air. However, it is also the inverted arrangement or a 90 ° modified arrangement with inclusion the cabinet side walls possible.

Conveniently, is the adjustable in the air inlet side space partition arranged vertically and according to the vertical longitudinal side the identically formed heat exchanger units, which the approximately V-shaped Limit the gap and, if necessary, the partition be covered, dimensioned, so that the required "unilateral" blockage for the exhaust air flow guaranteed is.

It is advantageous that the partition around a vertical pivot axis can be adjusted, which in the space, but close to the air outlet space is arranged. Conveniently, can the pivot axis in the area of almost aneinan dergrenzenden, formed vertical inner edges of the two heat exchanger elements be.

If the two heat exchanger elements each on a separate, horizontally adjustable support element can be arranged, each support element with the arranged heat exchanger element and independent pulled out of the heat exchanger housing from the other support element become. In case of a fault due to a defect of one of the heat exchanger elements, for example in the case of leakage or clogging, the defective heat exchanger element after separation from the cooling water system pulled out of the heat exchanger housing, dismantled and repaired or replaced by a new element. A business interruption is not required, and the removal the heat loss from the exhaust air flow takes place completely in the second, operable heat exchanger element, Once after a pivoting movement of the partition, the defective heat exchanger element is covered.

Conveniently, is the lower part of the heat exchanger housing of a condensate / Leckwasserauffangwanne formed, which continuously may be formed and connected to a condensate drain pipe. In this way, a leakage risk is minimized or almost impossible.

It is advantageous if the partition in the normal operation realizing Middle position and possibly also in the two possible Blockadeestellungen can be fixed. This ensures that that a change The position of the partition can not be accidental.

Basically, the partition wall after loosening the attachment or a lock from the center position by hand or by means of a drive, for example, a gas spring or an electric motor in the blocking position ver be presented. In the same way then the provision can be carried out in the center position, when the fault is corrected and again the normal operation can be performed by acting on both heat exchanger elements.

Conveniently, are in the range of the two heat exchanger elements and their cooling water supplies Sensors for a fault detection and to trigger from sturgeon or warning signals, in particular flow and leakage sensors, arranged. The pivoting of the partition to block the each no longer operational heat exchanger element takes place after the warning signal manually or by means of drive. It can also be provided an automatic adjustment of the partition.

If pivoted the movable partition against one of the heat exchanger elements is and prevents the air flow through this heat exchanger element, so that the entire air flow is directed through the other heat exchanger element will be the servers, switches and built in a cabinet so on with the cooling air from the flowed through Heat exchanger element provided. To provide a uniform cooling air supply to the server to reach Air guide elements, which preferably adjustable and also as flaps can be trained in the air outlet space and / or in the cabinet area after the air outlet arranged from the heat exchanger housing be. The unilaterally exiting cooling air flow can through the Air guide over the entire cabinet width is steered and "spread" to the uniform cooling air supply to ensure the server and the like.

Around the full cooling capacity in case of accident with an operational Heat exchanger element to ensure, it may be appropriate the fans for the exhaust air flow with an increased To operate speed. The cooling air flow can then be raised against an increase Flow resistance can be maintained. There is also the Possibility, a server cabinet or network cabinet with a redundant heat exchangers with a lower rated cooling capacity to specify. In any case, the servers built into the cabinet can and similar Components without interruption at a sufficient cooling capacity until the fault is rectified continue to be operated. A business interruption is not required.

This also applies in the case of replacement of a heat exchanger element with pulled out Support element and an open Closet door. The Built-in server and the like then suck the ambient air from the installation room, which does not have heated exhaust air is charged. The exhaust air supplied with the power loss Server is cooled in the second, operable heat exchanger element, the is called, refrigerated and thermally neutral blown into the ambient space. It is advantageous that the service technician outside the cooling air flow can work because the air supply to the defective heat exchanger element interrupted by means of the partition wall pivoted in the blocking position is.

The adjustable partition can over its vertical pivot axis out in the direction of the air outlet side extended be up to a cover of the air outlet side or up to the front door of the Wardrobe rich. At least in the air outlet space is the extended partition fixed and divides together with the pivoting partition the heat exchanger in two almost equal sizes Areas.

In a development of the heat exchanger and a network cabinet, in particular a server cabinet, in which the inventive redundant heat exchangers is arranged, the heat exchanger housing is air outlet side separated by two covers, which the respective heat exchanger element are assigned and formed, for example, flap or door-like could be, covered. The cupboard door can be shortened then be formed. For example, the bottom edge of the cabinet door can be close to reach to the top cover of the heat exchanger housing. An advantage of this training is that the cabinet door is not open must be when a heat exchanger element must be pulled out to remedy a defect. An air intake deleted from the installation room of the cabinets.

It is appropriate if air outlet side of each heat exchanger element can be provided with a locking element which, when pulled out Heat exchanger element prevents ambient air in the supply air duct of the cabinet and in the server case arrives. The blocking element can as an additional flap or as formed horizontally adjustable or displaceable plate and arranged, for example, on the heat exchanger housing or led be. The two the heat exchanger elements associated locking elements are suitably independent of each other actuated.

When exchanging a heat exchanger element, the respective cover or flap or door is first opened in order to be able to pull out the support element with the heat exchanger element, while the cover of the second, operable heat exchanger element remains closed. The entire cooling air flow out This second heat exchanger element can then, conveniently in the blocking position befindlichem blocking element and by means of guide elements, are directed to the suction area of the server in the top. After replacing the defective heat exchanger element, the air outlet side cover is closed again, lifted the locking position of the locking element and the adjustable partition wall pivoted back from its blocking position in the middle position for receiving the normal operation.

The space between the air outlet side of the heat exchanger housing and the front door of the server cabinet may include a nozzle for deflecting the cooling air flow. Such a diffuser can in principle like the in DE 20 2004 016 492 U1 described and exemplified in the 3 to 5 be shown guide device formed. According to the two heat exchanger units and a one-sided cooling air flow in case of failure, it is expedient to form the spoiler in one piece or in two parts, in which case a vertical separating element can be arranged in the middle and in alignment with the fixed partition. The fixed part of the partition can also be an integrated part of this air guiding apparatus in an alternative embodiment. The diffuser may be disposed on the heat exchanger housing or on the inside of the front door of the cabinet. When arranged on the heat exchanger housing, the air guide should be releasably secured so that the extraction of the heat exchanger elements is ensured.

Of the Connection of the heat exchanger elements on a cold water network of the building, a special cooling water network the data center or a recooler for a coolant can optionally be designed air inlet or air outlet side. if the detachable Connections made by quick couplings, the compound can when pulling out a heat exchanger element automatically, drip-free and sealingly solved and when pushing in the heat exchanger element be restored.

Of the inventive redundant heat exchangers is not limited to use in network cabinets and server cabinets, but can basically for all cooling concepts and cooling arrangements be used. The advantages are complete redundancy at a relatively low level of design and manufacturing technology Effort. A network cabinet, especially a server cabinet, which with the heat exchanger according to the invention can be provided in case of failure in the region of one of the two heat exchanger elements or in the cooling water network continue to operate. Also, the replacement of a defective heat exchanger element Can work without interruption and without difficulty and without special hurry to be made.

The Invention will be further explained below with reference to a drawing; in these show in a schematic representation

1 a perspective view of a redundant heat exchanger according to the invention with a partition in the middle position for normal operation and with partially removed housing;

2 a heat exchanger according to 1 but with a partition wall in the blockage position provided for an interference and

3 a network cabinet with a redundant heat exchanger according to the invention and with a partition in Blockadestellung and an extracted heat exchanger element.

The heat exchanger 2 of the 1 to 3 has a housing 6 which is in the area of a top cover 26 and a side wall 28 has been broken away for a clearer presentation. In the case 6 are two heat exchanger elements 3 . 4 arranged at an angle to each other, such that a V-shaped gap 5 between the heat exchanger elements 3 . 4 is trained. Here are the identically formed heat exchanger elements 3 . 4 with vertical inner edges 15 in the area of an air outlet side 8th the heat exchanger housing 6 arranged almost adjacent to each other, so that exhaust air, which at the opposite Lufteistrittsseite 7 of the heat exchanger 2 in the gap 5 passes through the two edgewise arranged heat exchanger elements 3 . 4 to be led.

In the gap 5 is a partition 10 arranged, which about a vertical pivot axis 11 to the right and left until it touches the respective vertical inside long side 19 the heat exchanger elements 3 . 4 is pivotable.

In 1 is the dividing wall 10 arranged for normal operation in a central position. The at an open air inlet side 7 entering exhaust air (black arrow) is through the partition wall 10 divided and enters both heat exchanger elements 3 . 4 , is cooled down here and passes as cooling air into an air outlet space 9 and over the air outlet side 8th of the heat exchanger 2 in a supply air duct (not shown) and is sucked by the fans of the server, which are each arranged in a housing.

The partition 10 is aligned vertically and to cover the gap 5 each bounding, vertical longitudinal sides 19 the heat exchanger elements 3 . 4 dimensioned. In this embodiment, the heat exchanger elements 3 . 4 formed cuboid and lie with their narrow longitudinal sides on bottom side support elements 16 . 17 on.

At the air inlet side 7 are detachable connections 13 . 14 for a separate connection of the heat exchanger elements 3 . 4 arranged on the cold water network of the building or on a recooler. The connections 13 . 14 for the flow and return of a refrigerant, such as cold water from the cold water network of the building, are advantageously designed as quick couplings.

The separate support elements 16 . 17 are in this embodiment support plates, which almost adjoin each other and which can be pulled out separately forward (see 3 ). In the 1 shown partition 10 represents due to the symmetrically arranged heat exchanger elements 3 . 4 also the dividing line of the supporting elements 16 . 17 dar. Below the support elements 16 . 17 is a condensate / leak water drip tray 18 arranged, which may be connected to a condensate drain pipe (not shown).

In 2 is the heat exchanger 2 shown in a major accident. In the event of a fault in one of the two connected cooling water circuits 13 . 14 or in one of the heat exchanger elements 3 . 4 , which leads to an interruption of the cooling water supply, is the dividing wall 10 pivoted against the failed heat exchanger element, which in 2 the left heat exchanger element 4 is. The pivoting of the partition 10 , which can be done manually, mechanically or automatically (not shown), takes place up to the blockage position, in which the air flow completely to the heat exchanger element 3 is redirected. In the embodiment of 2 lies the dividing wall 10 at the heat exchanger element 4 and covers the air inlet side 19 from. The in the gap 5 inflowing exhaust air is now exclusively through the operable heat exchanger element 3 guided and the exiting cooling air passes through the air outlet space 9 and the air outlet side 8th of the heat exchanger 2 , For example, via a supply air duct 21 ( 3 ) to the servers of a server cabinet.

These servers are in the in 2 shown operating state of the redundant heat exchanger 2 solely with cooling air from the one heat exchanger element 3 provided. A business interruption to repair a defect or to carry out a repair is due to the redundant design of the heat exchanger 2 not mandatory.

In 3 is one with the redundant heat exchanger according to the invention 2 equipped server cabinet 20 shown, the heat exchanger 2 bottom side and below an interior 25 is arranged. From the server cabinet 20 , whose right front corner area is broken away for clarity, are parts of the base frame 29 , a top cover 30 with cable entry 31 and vertical mounting posts 24 shown. The vertical installation spars 24 serve among other things, the installation of the server (not shown). Front side is a supply air duct 21 for the cooling air (bright arrows) from the heat exchanger 2 and at the back an exhaust duct 22 with fans, of which only openings 23 in a wall 27 the exhaust duct 22 are shown formed.

The defective heat exchanger element 4 is together with the associated support element 17 on the front side of the heat exchanger 2 and thus from the server cabinet 20 pulled out and can be replaced or repaired in this position.

If the front cabinet door over the entire height of the cabinet 20 is sufficient (not shown), this must be opened. The interior 25 of the cabinet 20 Stacked servers (not shown) supply during this time with the room air, which is suitable due to the closed-circuit cooling air in the individual cabinets for cooling. The entire exhaust air is in the heat exchanger element 3 cooled and passes as cooling air over the front open cabinet in the room.

The heat exchanger according to the invention 2 of the 1 to 3 is in the air outlet area 9 with a fixed partition 12 provided, which as an extension of the pivotable partition 5 can be trained. This fixed partition 12 protrudes in this embodiment on the air outlet side 8th of the heat exchanger 2 and extends almost to the front door (not shown) of the cabinet 20 of the 3 ,

Dashed is in 3 an alternatively trained cabinet indicated, which is a shortened front door 33 as well as a cover 35 at the heat exchanger 2 and a blocking element 37 having.

The front, shortened door 33 of the cabinet 20 extends to the heat exchanger housing 6 or to the top cover 26 and the arranged in blocking position, horizontally aligned blocking element 37 , The blocking element 37 is the left heat exchanger element 4 assigned, which with the cover open 35 with the support element 17 to remove a defect from the cabinet is pulled out. The one in the right Heat exchanger element 3 cooled air is due to the fixed partition wall 12 , a cover of the right heat exchanger element 3 , which is not shown, but in the operating position of the side wall 28 to the fixed partition 12 and to the top cover 26 is enough, in the To air duct 21 directed. Due to the locking element located in the blocking position 37 There is no exchange with the room air.

In the area of the heat exchanger element 3 a locking element is also provided, which in 3 However, may not be arranged in the locked position and the sake of clarity is not shown.

A locking device for the pivotable partition 10 in the middle position according to 1 and in the two possible block orders with coverage of one of the two heat exchanger elements 3 . 4 according to 2 is not shown for reasons of clarity, and also sensors and air guiding devices in the region of the air inlet side and in the region of the air outlet side are not shown.

Claims (18)

Heat exchanger for water-cooled network cabinets with a housing ( 6 ), which has an air inlet side ( 7 ) for an exhaust air flow and an air outlet side ( 8th ) for the cooling air from the heat exchanger ( 2 ), and in which two heat exchanger elements ( 3 . 4 ) forming an air space open space ( 5 ) are arranged at an angle to each other, characterized in that the heat exchanger elements ( 3 . 4 ) for a redundant design of the heat exchanger ( 2 ) separate cooling water connections ( 13 . 14 ), that in the space ( 5 ) between the two heat exchanger elements ( 3 . 4 ) a partition wall ( 10 ) is arranged and that the partition ( 10 ) from a position for acting on the two heat exchanger elements ( 3 . 4 ) with the exhaust air flow in a blockade position for air-technical blocking of one of the two heat exchanger elements ( 3 . 4 ) and loading of the respective other heat exchanger element ( 4 . 3 ) is adjustable with the exhaust air flow. Heat exchanger according to claim 1, characterized in that the position of the partition wall ( 10 ) for acting on the two heat exchanger elements ( 3 . 4 ) with the exhaust air flow is a central position and that the partition ( 10 ) in Blockadestellung each one of the two heat exchanger elements ( 3 . 4 ) covers. Heat exchanger according to claim 1 or 2, characterized in that the heat exchanger elements ( 3 . 4 ) are formed cuboid and are arranged such that the air inlet side gap ( 5 ) in horizontal section V-shaped and an air outlet space ( 9 ) is formed almost W-shaped. Heat exchanger according to one of claims 1 to 3, characterized in that the partition wall ( 10 ) arranged vertically and according to the to be covered, the gap ( 5 ) limiting, vertical longitudinal side ( 19 ) of each heat exchanger element ( 3 . 4 ) is dimensioned. Heat exchanger according to one of the preceding claims, characterized in that the partition wall ( 10 ) about a pivot axis ( 11 ) is adjustable and that the pivot axis ( 11 ) in one of the air outlet side ( 8th ) facing the region of the intermediate space ( 5 ) is arranged vertically. Heat exchanger according to one of the preceding claims, characterized in that the partition wall ( 10 ) about a pivot axis ( 11 ) is adjustable, which in the region of the almost contiguous, vertical inner edges ( 15 ) of the two heat exchanger elements ( 3 . 4 ) is arranged. Heat exchanger according to one of the preceding claims, characterized in that the heat exchanger elements ( 3 . 4 ) formed as a tube / rib blocks and each releasably connected to the flow and return ( 13 . 14 ) of independent lines of a cold water network or a recooler are connected. Heat exchanger according to one of the preceding claims, characterized in that each heat exchanger element ( 3 . 4 ) on a separate support element ( 16 . 17 ) is arranged and for repair or replacement with the respective support element ( 16 . 17 ) out of the housing ( 6 ) of the heat exchanger ( 2 ) is pulled out. Heat exchanger according to one of the preceding claims, characterized in that the lower part of the heat exchanger housing ( 6 ) is designed as a condensate / Leckwasserauffangwanne (18). Heat exchanger according to one of the preceding claims, characterized in that the partition wall ( 10 ) can be fixed and / or locked in the middle position for normal operation and / or in the intended for a malfunction, two Blockadestellungen. Heat exchanger according to one of the preceding claims, characterized in that the adjustment of the partition wall ( 10 ) manually or with Help a drive is done and, for example, a gas spring or an electric motor is arranged. Heat exchanger according to one of the preceding claims, characterized in that in the region of the two heat exchanger elements ( 3 . 4 ) and their cooling pipes ( 13 . 14 ) Sensors for a fault detection and to trigger malfunction and warning signals, in particular flow and leakage sensors, are arranged. Heat exchanger according to one of the preceding claims, characterized in that at least in the air outlet space ( 9 ) a fixed partition ( 12 ) is provided, which as an extension of the adjustable partition ( 10 ) may be formed. Heat exchanger according to one of the preceding claims, characterized in that in the air outlet space ( 9 ) and / or in a cabinet area at the air outlet side ( 8th ) of the heat exchanger ( 2 ) adjustable air guide elements for a distribution of the one-sided discharge in a bulkhead Blockadestellung cooling air flow over the cabinet width are arranged. Heat exchanger according to one of the preceding claims, characterized in that the air outlet side, an air guide is arranged, which releasably on the heat exchanger housing ( 6 ) or on the inside of the cabinet door is fixable. Heat exchanger according to one of the preceding claims, characterized in that it is in the bottom side in a cabinet ( 20 ), in particular in a server cabinet, and the cabinet door, which is located above the heat exchanger ( 2 ), for pulling out a heat exchanger element ( 3 . 4 ) for repair or change. Heat exchanger according to one of claims 1 to 15, characterized in that it on the bottom side in a cabinet ( 20 ), in particular in a server cabinet, and a front door ( 33 ) of the cabinet ( 20 ) to the top of the heat exchanger ( 2 ) is sufficient that the heat exchanger ( 2 ) separate covers on the air outlet side ( 35 ) each having a heat exchanger element ( 3 . 4 ) and are arranged vertically and that blocking elements ( 32 ) are provided, which in each case a heat exchanger element ( 3 . 4 ) and in each case after pulling out a heat exchanger element ( 4 ) can be brought into blocking position to prevent replacement of the cooled supply air with the ambient air. Heat exchanger according to one of the preceding claims, characterized in that the heat exchanger elements ( 3 . 4 ) are connected via quick couplings to the lines of a cold water network or a recooler.