AIR-CONDITIONING DEVICE

Abstract

The invention relates to an air-conditioning unit (1) for installation on a roof (100). A plurality of functional components (2, 3, 4, 5, 6) is arranged in a housing (10). Furthermore, the housing (10) has an attachment side (11) for installation. The air-conditioning unit (1) includes two support arms (20) which support a functional component (3) such that the one functional component (3) is arranged higher with respect to the attachment side (11) than other functional components (2, 4, 5, 6). The invention resides in that the two support arms (20) laterally encompass the at least one functional component (3) so that each support arm (20) supports a different side of the at least one functional component (3), in that the two support arms (20) each support the at least one functional component (3) in the area of a face side (21), and in that the two support arms (20) each have the shape of a capital letter “S” in that each support arm (20) has two face side portions which are positioned at different heights, and one portion connecting these two portions.

Claims

1. An air-conditioning unit (1), the air-conditioning unit (1) being configured for installation on a roof (100), the air-conditioning unit (1) including a plurality of functional components (2, 3, 4, 5, 6), the functional components (2, 3, 4, 5, 6) being arranged in a housing (10), the housing (10) having an attachment side (11) for installation on the roof (100), the air-conditioning unit (1) including two support arms (20), the two support arms (20) supporting at least one functional component (3) of the plurality of functional components (2, 3, 4, 5, 6) such that the at least one functional component (3) is arranged higher with respect to the attachment side (11) than other functional components (2, 4, 5, 6) of the plurality of functional components (2, 3, 4, 5, 6), characterized in that the two support arms (20) laterally encompass the at least one functional component (3) so that each support arm (20) supports a different side of the at least one functional component (3), in that the two support arms (20) each support the at least one functional component (3) in the area of a face side (21), and in that the two support arms (20) each have the shape of a capital letter “S” in that each support arm (20) has two face side portions which are positioned at different heights, and one portion connecting these two portions.

2. The air-conditioning unit (1) according to claim 1, wherein at least one support arm (20) of the two support arms (20) has a C-profile, and wherein the at least one functional component (3) is partly arranged in an area encompassed by the C-profile.

3. The air-conditioning unit (1) according to claim 1 or 2, wherein the two support arms (20) are contacted with each other on the face sides by means of a terminating element (23).

4. The air-conditioning unit (1) according to any of claims 1 to 3, wherein at least one support arm (20) of the at least two support arms (20) is of a multi-part configuration and includes at least two subcomponents (25, 26, 27).

5. The air-conditioning unit (1) according to any of claims 1 to 3, wherein at least one support arm (20) of the at least two support arms (20) is of a multi-part configuration and includes three subcomponents (25, 26, 27), wherein a first subcomponent (27) forms a face side (21) of the support arm (20), which supports the at least one functional component (3), wherein a second subcomponent (26) forms another face side (22) of the support arm (20), which supports functional components (2, 4, 5, 6) of the plurality of functional components (2, 4, 5, 6) relative to which the at least one functional component (3) is arranged higher, and wherein a third subcomponent (25) serves for a connection between the first subcomponent (27) and the second subcomponent (26).

6. The air-conditioning unit (1) according to claim 4 or 5, wherein subcomponents (25, 26, 27) of the at least two or three subcomponents (25, 26, 27) consist of different materials.

7. The air-conditioning unit (1) according to any of claims 1 to 6, wherein the air-conditioning unit (1) includes an insulation component (30), and wherein the insulation component (30) encompasses some functional components (2, 4, 5) of the plurality of functional components (2, 4, 5, 6) in a thermally insulating manner, relative to which the at least one functional component (3) is arranged higher.

8. The air-conditioning unit (1) according to any of claims 1 to 7, wherein the air-conditioning unit (1) includes an encompassing component (31), and wherein the encompassing component (31) forms at least the outer sides of the air-conditioning unit (1) that differ from the attachment side (11) of the air-conditioning unit (1).

9. The air-conditioning unit (1) according to claim 8, wherein the encompassing component (31) is a thermoformed housing made from a plastic material.

10. The air-conditioning unit (1) according to claim 8 or 9, wherein a condenser fan (9a) is arranged in the encompassing component (31).

11. The air-conditioning unit (1) according to any of claims 1 to 10, wherein the air-conditioning unit (1) includes an air distributor (40), and wherein the air distributor (40) is configured to be connectable with the support arms (20).

12. The air-conditioning unit (1) according to any of claims 1 to 11, wherein the two support arms (20) support exactly one functional component (3) such that the exactly one functional component (3) is arranged higher with respect to the attachment side (11) than the other functional components (2, 4, 5, 6)

13. The air-conditioning unit (1) according to any of claims 1 to 12, wherein the at least one functional component (3) that is supported by the two support arms (20) is a condenser.

14. The air-conditioning unit (1) according to any of claims 1 to 13, wherein the functional components (2, 4, 5, 6) of the plurality of functional components (2, 3, 4, 5) in relation to which the at least one functional component (3) is arranged higher comprise a compressor (2), an expansion device (4), an evaporator (5) and/or a refrigerant reservoir (6).

15. The air-conditioning unit (1) according to any of claims 1 to 14, wherein at least one support arm (20) consists at least partly of an extruded part.

Description

[0036] In detail, there is a multitude of possibilities to configure and further develop the air-conditioning unit according to the invention. In this respect, reference is made, on the one hand, to the claims dependent on claim 1 and, on the other hand, to the following description of exemplary embodiments in conjunction with the drawings, in which:

[0037] FIG. 1 shows a schematic representation of an air-conditioning unit;

[0038] FIG. 2 shows a section taken through a schematically represented air-conditioning unit;

[0039] FIG. 3 shows a different section taken through a part of a front area of the air-conditioning unit of FIG. 2; and

[0040] FIG. 4 shows a top view of a part of the front area of the air-conditioning unit of FIG. 2 and FIG. 3.

[0041] FIG. 1 schematically shows the structure of an air-conditioning system 1 for cooling a room or space, e.g. the interior of a vehicle. The cooling circuit or refrigeration process realized therewith is described, for example, in WO 2007/042065 A1.

[0042] For the refrigeration process, a compressor 2 compresses a gaseous refrigerant, which thereby absorbs heat and is transported to a condenser 3 via a refrigerant line. The condenser 3 serves as a heat exchanger in that the heat of the refrigerant is transferred to the cooler ambient air. The ambient air is drawn in through a condenser fan 9a here and is blown out again after interaction with the refrigerant. The compressed refrigerant will condense as a result of the heat release.

[0043] The liquid refrigerant, which continues to be under high pressure, is expanded to a lower pressure in an expansion means 4, which is in the form of a throttle, for example. The refrigerant cools down in the process.

[0044] In the next step, the refrigerant reaches an evaporator 5, through which the air of the room to be cooled—that is, e.g., the interior of a caravan or a recreational vehicle—is guided by means of an evaporator fan 9b. In the process, the air transfers its heat to the refrigerant, which transitions to the gaseous state. The gaseous refrigerant finally returns to the compressor 2 so that the cooling circuit can be continued.

[0045] The circuit can also be reversed so that the unit 1 serves as a space heater.

[0046] The components described are exemplary functional components of the air-conditioning system 1 and are located partly in the interior or partly in the wall of a housing 10.

[0047] FIG. 2 schematically shows the basic appearance of the air-conditioning system 1. The air-conditioning system 1 here is mounted on a roof 100 and extends through recesses in this roof 100 to an air distributor 40 in the interior which is to be cooled by the air-conditioning system 1. If the roof 100 is part of a vehicle, the air-conditioning system 1 is fixed to the roof 100 in the direction of travel. The cavity between the air-conditioning system 1 and the roof 100 is therefore located, in the direction of travel, behind the area of the air-conditioning system 1 that rests on the roof 100.

[0048] The “S” shape - mirrored here - of the support arm 20 can be seen.

[0049] The support arm 20 is configured in three parts here and has two subcomponents 26, 27, which constitute the face sides 21, 22, and a middle subcomponent 25, which causes the difference in height between the other two subcomponents 26, 27. The upper subcomponent 27 and the lower subcomponent 26 have a flat configuration so that they are components that are correspondingly simple to manufacture. Only the middle subcomponent 25 has the actual S-shape here.

[0050] The upper, or first, subcomponent 27, which faces a first face side 21, supports and thus elevates the functional component, which in this case is the condenser 3. Below the condenser 3 there is a cavity relative to the roof 100, the cavity being freely accessible to air here. Above the condenser 3, a fan 9a (i.e. a condenser fan) assigned to the condenser is arranged. The end side of the support arm 20 and thus the free end of the first subcomponent 27 is closed by a terminating element 23, which also contacts the other support arm, which is not shown here (cf. FIG. 4).

[0051] The second, or lower, subcomponent 26 is located toward the second face side 22. This subcomponent 26 carries the other functional components. Here, the evaporator 5 and the evaporator fan 9b are located in the insulation component 30. It can also be seen that the room air is taken in through a recess and, cooled by the evaporator fan 9b, is fed back into the room through another recess in the roof 100. Outside the insulation component 30, which provides thermal insulation, there are the compressor 2 and, here by way of example, a refrigerant reservoir 6. Since the compressor 2 heats up, it is thermally separated from the evaporator 5 by the insulation component 30.

[0052] The room air to be cooled is thus also passed through the insulation component 30.

[0053] In the illustrated configuration, the functional components are located on the lower subcomponent 26, but they may also be located in between, that is, between the two support arms 30. The functional components are accommodated here in an insulation component 30, which provides thermal insulation.

[0054] In an alternative configuration (not illustrated), the support arms 20 are made in one piece and are preferably extruded parts made of a steel.

[0055] The air-conditioning system 1 is connected to the roof 100 via the attachment side 11, the lower face side 22 of the support arms 20 thus also providing mechanical attachment and stability. The fixing is indicated here by two screw- or bolt-like fastening elements 41.

[0056] The other sides of the air-conditioning system 1 are formed by an encompassing component 31, which is for example a thermoformed housing made from a plastic material. This encompassing component 31 does not fulfil a holding function, but essentially only serves to protect the components proper of the air-conditioning system 1 from the environment. In the configuration shown, the encompassing component 31 in particular is also provided with a recess in which the condenser fan 9a is inserted.

[0057] In the configuration illustrated here, the encompassing component 31 (an alternative designation would be encompassing housing) ends at the level of the lower edge of the support arms 20 in the direction of the attachment side 11 or the roof 100.

[0058] The sectional view of FIG. 3 shows that the two support arms 20 each have a C-profile and that the functional component 3 rests on the areas that are encompassed by the C-profiles and are preferably also fixed there.

[0059] FIG. 4 shows the face side 21, which comprises the upper part of the capital letter “S” of the support arms 20 (cf. FIG. 2).

[0060] The functional component 3 rests laterally in the support arms 20, as shown, e.g., in FIG. 3. The two end portions of the functional components 3 are further connected with each other by means of a terminating element 23. In one configuration, the terminating element 23 here is located in the open ends of the C-profiles of the support arms 20, similar to a plug.

LIST OF REFERENCE NUMBERS

[0061] 1 air-conditioning unit [0062] 2 compressor [0063] 3 condenser [0064] 4 expansion device [0065] 5 evaporator [0066] 6 refrigerant reservoir [0067] 9a condenser fan [0068] 9b evaporator fan [0069] 10 housing [0070] 11 attachment side [0071] 20 support arm [0072] 21 face side [0073] 22 face side [0074] 23 terminating element [0075] 25 subcomponent [0076] 26 subcomponent [0077] 27 subcomponent [0078] 30 insulation component [0079] 31 encompassing component [0080] 40 air distributor [0081] 41 fastening element [0082] 100 roof