DE102006010714A1 - Switch cabinet and/or rack arrangement for computer, has power supply units designed as fuel cell units, which are attached to liquid cooling device such as water cooling device, for cooling - Google Patents

Abstract

The arrangement has a switch cabinet (1) and/or rack, and a supply unit received in the cabinet and/or rack for an uninterruptible power supply. The supply part has a power supply arrangement (10) formed of power supply units, which are integrated into several groups. The supply part has a DC-DC converter arrangement (20) formed of DC-DC converter units (21, 22). The power supply units are designed as fuel cell units (11), which are attached to a liquid cooling device e.g. water cooling device, for cooling. The fuel cell units are attached to a common heat exchanger.

Description

The The invention relates to a cabinet or rack assembly with at least one control cabinet and / or rack and one inside absorbed supply part, in particular for an uninterruptible Power supply, wherein the supply part of a plurality of one or more groups of combined power supply units formed power supply arrangement and one of at least one Voltage converter unit formed voltage converter arrangement.

Such a cabinet or rack assembly with therein received power supply to the power supply is in the DE 10 204 007 728 A1 specified. In this known cabinet or rack assembly, the supply part has an arrangement of power supply units in the form of battery units, which are used in a lateral, vertical recording. By means of a feed module also used in the recording, a voltage conversion or voltage adjustment can be made by means of a power supply. The battery units have in particular due to the limited installation space on a relatively low energy capacity. In particular, it is about providing the largest possible installation space in the control cabinet unhindered and to bridge a temporary failure of the power supply or at least to maintain vital signs of computer components.

In the DE 10 2004 006 851 A1 is another cabinet or rack arrangement specified, in which the main supply is held primarily on the power grid, with an uninterruptible power supply can replace the power supply. The uninterruptible power supply with a supply part can be accommodated in a separate cabinet. For their education in detail, no further details are given.

Of the Invention is based on the object, a cabinet or rack assembly to provide the type mentioned, in the supply part if possible compact structure one possible can deliver high electrical power.

These The object is achieved with the features of claim 1. in this connection it is provided that the power supply units as fuel cell units are designed for cooling to a liquid cooling device, in particular water cooling device are connected.

The Fuel cell units can be compactly housed in the control cabinet or rack and provide environmentally friendly high electrical output. The case detrimental loss heat can by means of the liquid cooling device dissipated with high efficiency so that the compact training at high electrical power output supports becomes.

A Advantageous use results in conjunction with an uninterruptible Power supply, its complementary Components can be arranged in another cabinet.

The compact training in the control cabinet or rack in conjunction is to be accommodated with the fuel cell units components thereby favors that a group of housed in a cabinet or rack fuel cell units a common fuel cell control unit is assigned.

Further Will the packing density within the cabinet or rack thereby favors that a group of fuel cell units, a DC-DC converter arrangement associated with at least one DC-DC converter unit, wherein the number of fuel cell units is larger as the number of DC-DC converter units.

to capacity of the supply part carries additionally in that also the DC-DC converter units to the water cooling device are connected.

One advantageous construction of the cooling device in Connection with the supply part is that at least the fuel cell units of a group a common heat exchanger assigned.

Various Design variants for a powerful cooling and cheap Arrangement is achieved in that the DC-DC converter units a separate common or a separate heat exchanger assigned.

For a simple Assembly and compact design are also the measures advantageous that the one or more heat exchangers as a plate heat exchanger is / are trained.

The structure and installation are further favored by the fact that the plate of the respective heat exchanger has at least one serpentine wound, embedded in the material volume, on the flat outer sides not vortretende cooling water pipe, which at a narrow Edge side emerges on the inflow and outflow side or is accessible with connecting elements.

advantages for the Structure and the cooling function result further characterized by being undercut in a flat outside of the plate Mounting grooves and / or mounting holes are incorporated and that the fuel cell units and / or the DC-DC converter units by means of the mounting grooves and / or mounting holes and others Mounting elements directly on the flat outside of the associated plate in a tight heat-conducting contact are mounted.

The cooling is supported by that the water cooler to a recooling device connected. These measures also avoid that the space around the to be cooled Cabinet assembly by the waste heat warms up.

To a powerful cooling also bear the measures at that, a cooling water circuit for the DC converter units and a cooling water circuit for the fuel cell units are connected in parallel to each other.

A advantageous measure consists in the use of one in the aforementioned manner constructed arrangement with a supply part in conjunction with an uninterruptible power supply, preferably in another control cabinet or rack for uninterruptible power supply is arranged by consumer units.

The Invention will now be described with reference to exemplary embodiments with reference closer to the drawings explained. Show it:

1 a schematic representation of a cabinet with housed therein supply part and operating components in conjunction with the same and

2 a coolant circuit for cooling the supply after 1 ,

1 shows a control cabinet 1 with a power supply received therein for the electrical power supply of consumers with a power supply arrangement 10 containing a group of fuel cell units 11 includes, a DC-DC converter arrangement 20 , the several (here two) DC-DC converter units 21 . 22 includes a fuel cell controller 40 and a fuel cell installation device 50 , the pumps, a piping, heat exchangers, a humidification and the like. For the infrastructure of the fuel cell units 11 and is located in the lower cabinet space and extends in the present case over 18 HE. For the start of the fuel cell units, for example, batteries are available. The group of fuel cell units 11 includes six fuel cell units 11 of which three are taken side by side across the width of the cabinet interior in a receptacle of six height units, so that for the group of fuel cell units 11 a total of twelve height units in the installation space of the control cabinet 1 result. The group of fuel cell units 11 are two DC-DC converter units 21 . 22 assigned, in the present case in each case three fuel cell units 11 a DC-DC converter unit 21 respectively. 22 are assigned, ie three fuel cell units connected in series 11 are each with a DC-DC converter unit 21 connected, the subgroups of three fuel cell units 11 parallel to each other with the two DC-DC converter units 21 respectively. 22 are connected. The entire group of six fuel cell units 11 is a common fuel cell control 40 assigned to coordinate and control their function. Each of the fuel cell units 11 is designed for example for an electrical power output of about 10 KW, ie in the control cabinet 1 accommodated supply part can deliver a total of about 60 kW of electrical power. This is achieved by the special design of the cooling device as a liquid, in particular water cooling device, the 2 is shown in more detail.

At the in 2 shown cooling device, in which therefore a liquid coolant, in particular water, is used as a coolant, the individual fuel cell units 11 from a heat exchanger 31 , which is designed as a plate heat exchanger, the liquid coolant supplied via parallel lines. The plate-shaped design of the heat exchanger 31 has the advantage that it is compact with high cooling capacity and can be accommodated conveniently in the installation space of the control cabinet. In this case, the heat exchanger 31 separated from the arrangement of the fuel cell units 11 eg in the space of the fuel cell installation device 50 or in the immediate vicinity of the fuel cell units 11 be arranged and, for example, each on a subgroup of three fuel cell units 11 be split.

The DC-DC converter units 21 . 22 be via a to the cooling path of the fuel cell units 11 parallel cooling path with the liquid coolant, preferably water, applied. For this purpose according to the embodiment according to 2 each DC-DC converter unit 21 . 22 a separate heat exchanger 32 . 33 assigned in the form of a plate-shaped cooling unit. The plate-shaped heat exchanger 32 . 33 has at least one in the material volume of the relatively thick plate of, for example, more than 1 cm thickness a serpentine embedded cooling line, which does not precede the flat outside of the plate and enters or exits at a narrow edge. On a flat outer surface of the preferably made of copper or aluminum solid metallic plate parallel to each other, undercut mounting grooves and / or mounting holes are introduced, via which the respective DC voltage converter unit 21 . 22 can be applied with other mounting elements in close contact and stable, so that a high cooling capacity of the DC converter units 21 . 22 is reached and they can be designed for a relatively high conversion power. With these measures, the group of fuel cell units 11 and the voltage converter units assigned to them 21 . 22 be made very compact despite high electrical power output.

The liquid cooling device is connected to a recooling device 30 connected outside the cabinet assembly, so that in the environment of the cabinet assembly virtually no heat loss occurs and on the other hand, a high cooling capacity is supported.

Of the Supply part becomes the electrical supply of consumers especially in connection with an uninterruptible power supply used, with the DC voltage, for example, raised to 360 volts becomes.

Claims (12)

Control cabinet or rack arrangement with at least one control cabinet ( 1 ) and / or rack and a supply part accommodated therein, in particular for an uninterruptible power supply, wherein the supply part comprises a power supply unit grouped together into a plurality of groups ( 11 ) formed power supply arrangement ( 10 ) and one of at least one voltage transformer unit ( 21 . 22 ) formed voltage transformer arrangement ( 20 ), characterized in that the power supply units as fuel cell units ( 11 ) are formed, which are connected for cooling to a liquid cooling device. Arrangement according to claim 1, characterized in that a group of in a control cabinet ( 1 ) or rack housed fuel cell units ( 11 ) a common fuel cell control unit ( 40 ) assigned. Arrangement according to claim 1 or 2, characterized in that a group of fuel cell units ( 11 ) a DC-DC converter arrangement ( 20 ) with at least one DC-DC converter unit ( 21 . 22 ), wherein the number of fuel cell units ( 11 ) is greater than the number of DC-DC converter units ( 21 . 22 ). Arrangement according to claim 3, characterized in that the DC voltage converter units ( 21 . 22 ) are connected to the water cooling device. Arrangement according to one of the preceding claims, characterized in that at least the fuel cell units ( 11 ) a group a common heat exchanger ( 31 ) assigned. Arrangement according to claim 4 or 5, characterized in that the DC-DC converter units ( 21 . 22 ) one of the heat exchanger ( 31 ) of the fuel cell units ( 11 ) separate common or in each case a separate heat exchanger ( 31 ) assigned. Arrangement according to claim 5 or 6, characterized in that the one or more heat exchangers ( 31 ) is designed as a plate heat exchanger is / are. Arrangement according to claim 7, characterized in that the plate of the respective heat exchanger ( 31 ) Has at least one schlan genförmig wound, embedded in the material volume, not on the flat outer sides of the cooling water pipe, which emerges on a narrow edge side inflow and outflow side or is accessible with connection elements. Arrangement according to claim 8, characterized in that in a flat outer side of the plate undercut mounting grooves and / or mounting holes are incorporated and that the fuel cell units ( 11 ) and / or the DC-DC converter units ( 21 . 22 ) are mounted by means of the mounting grooves and / or mounting holes and other mounting elements directly on the flat outside of the associated plate in close Wärmeleitkontakt. Arrangement according to one of the preceding claims, characterized in that the water cooling device to a recooling device ( 30 ) connected. Arrangement according to one of claims 3 to 10, characterized in that a cooling water circuit for the DC-DC converter units ( 21 . 22 ) and a cooling water circuit for the fuel cell units ( 11 ) are connected in parallel to each other. Use of an arrangement with a supply part according to one of the preceding claims in conjunction with a uninterruptible power supply.