The invention relates to a floor pan for connecting a roof-mounted cooling device to the roof of a switchgear cabinet for coupling an inner chamber of the switchgear cabinet to the inner circuit of the refrigerant circulation of the roof-mounted cooling device, having at least one air inlet opening aligned with the hot air outlet if the inner chamber of the switchgear cabinet and at least one air outlet opening communicating with the cold air inlet(s) of the inner chamber oft the switchgear cabinet, wherein the air inlet opening(s) and the air outlet opening(s) are provided in the base of the floor pan and are covered by ventilation grilles or ventilation louvres.
A floor pan of this type is known from DE 102 05 646 A1. That floor pan has proven to provide a simple variable air conveyance between the switchgear cabinet and the cooling device and, moreover, simultaneously to achieve and to simplify decoupling of the inner circuit and the outer circuit of the refrigerant circulation by having a simple constructional design. The floor pan may easily be adapted to the air conveyance between the interior of the switchgear cabinet and the roof-mounted cooling device and simultaneously forms the receptacle for the components of die inner circuit when the completed cooling device is coupled to the floor pan and closes the same. The inner circuit with its components is relocated into the floor pan, coupled to the interior of the switchgear cabinet and decoupled from the outer circuit of the refrigerant circulation.
However it may be the situation, that the thermal conditions in the interior of the switchgear cabinet change or that an already existing switchgear cabinet must be air conditioned better than before.
Accordingly, it is the object of the invention to improve the known floor pan in that cold air flows may be adapted to the actual temperature conditions within the switchgear cabinet even at a later date.
This object is solved by a floor pan according to claim 1. Advantageous and embodiments a subject matter of the subclaims.
According to the invention it is provided that a plurality of air outlet openings are arranged surrounding the at least one inlet opening and that at least some of the outlet openings are covered by ventilation louvres, that are pilotable about an axis running in the plane of the base and are rotatable about an axis running perpendicular to the plane of the base. Having this arrangement, a space optimized conveyance of the cold air flows is possible. By rotating the ventilation louvres, the orientation of the cold air flow may be chosen as desired, by pivoting, the cold air volume may be adjusted.
In a preferred embodiment, for a floor pan having a substantial rectangular base, it is provided that a centered air inlet opening is surrounded by four air outlet openings which are respectively arranged in a corner region in of the base.
Preferably, the ventilation louvres of any air outlet opening can be pivoted and/or rotated manually or driven by a motor independently from those of other air outlet openings. For example, a large cold air volume can actively be conveyed to thermally highly stressed areas, while other areas receive only a little flow or no flow at all.
It is particular preferred that ventilation louvres are disposed within an insert or a top part of the air ventilation openings, so that they can simply be plugged for example onto existing connecting pieces. Retrofitting or exchange is possible in a most simple manner.
According to an embodiment, the ventilation louvres for respectively one air outlet opening are coupled via a lever assembly.
It may be provided that the ventilation louvres for respectively one air outlet opening are pivot able between a first position where the air outlet opening is completely closed, and a second position, where the air outlet opening is opened to the maximum. Any intermediate position may be taken and maintained.
Finally, is may be also be provided, that the ventilation louvres for respectively one air outlet opening are continuously rotatable or can be rotated in steps.
The invention will be explained in detail below, merely by example with the aid of the appended drawings. The representations will illustrate the basic principles of the invention and are not necessarily to scale. It is shown in:
According to a preferred embodiment of the present invention, a floor pan for connecting a roof-mounted cooling device to the roof of a switchgear cabinet for coupling an interior of the switchgear cabinet to the inner circuit of the refrigerant circulation of the roof-mounted cooling device is provided with top parts 10 for air outlet openings, as shown in various illustrations in
Ring body 30 is provided with a plurality of troughs 32 at its outer surface which serve as a grip assistance for plugging top part 10 and for rotating top part 10 as needed. The angular position of ventilation louvres 22, 24, 26 may easily be varied from the interior of a switchgear cabinet by pressing on the rim region of one or several ventilation louvres 22, 24, 26.
While rotating or pivoting the louvres is done manually in the illustrated embodiment, a motor drive or another drive may be equally provided which produces these movements, optionally controlled, for example depending on prevailing temperatures and/or pressures.
Moreover, top part 10 as previously described is designed for continuous rotation. It may also be provide to design top part 10 such that a rotational movement may be performed in steps.
The features of the invention disclosed in the previous description, in the drawings and in the claims, may both individually and in any combination, be material for realizing the invention.
Number | Date | Country | Kind |
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20 2011 050 995.8 | Aug 2011 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE2012/000639 | 6/20/2012 | WO | 00 | 3/31/2014 |