Roof Top Air Conditioner Unit, Methods for Producing, Assembling and Installing the Roof Top Air Conditioner Unit and Vehicle with the Roof Top Air Conditioner Unit

Abstract

A roof top air conditioner unit for a vehicle, in particular a recreational vehicle, wherein the roof top air conditioner at least in part is made of expanded polypropylene (EPP). At least one stabilizing and/or connecting element of the roof top air conditioner unit is mold in the section of the roof top air conditioner unit made of EPP. Furthermore, the present invention refers to a method for producing, assembling and installing such roof top air conditioner units and a vehicle having such a roof top air conditioner assembly.

Description

The present embodiments refer to a roof top air conditioner unit, methods for producing, assembling and/or installing the roof top air conditioner unit and a vehicle comprising the roof top air conditioner unit.

For roof top air conditioner units provided for vehicles, and in particular provided for recreational vehicles like caravans or campers, high requirements with regard to stability and reduced weight have to be met. At the same time a reliable and quite resistant overall configuration of the roof top air conditioner unit and of its coupling to the vehicle has to be ensured.

In the past various different attempts to solve the above problem have been made. However, although known roof top air conditioner units work quite well in this regard there is still room for enhancements for a roof top air conditioner unit in order to solve all the above problems in a satisfactory manner at once.

Accordingly, the problem to be solved by the present embodiments provides a roof top air conditioner unit as well as corresponding methods for production, assembling and/or installing the roof top air conditioner unit as well as a vehicle equipped with the roof top air conditioner unit overcoming all the above problems at once.

According to the present embodiments, a roof top air conditioner unit for a vehicle, in particular for a recreational vehicle, is made at least in part of expanded polypropylene (EPP), wherein the roof top air conditioner unit has at least one stabilizing and/or connecting element mold in the section of the roof top air conditioner unit made of EPP.

Due to the favorable material properties of EPP providing the roof top air conditioner unit made at least in part of EPP results in a light weight and robust configuration. The stabilizing elements are further stabilizing the structure of corresponding sections of the roof top air conditioner unit and improve the overall stability of the roof top air conditioner unit. The connection elements, moreover, provide a reliable solution to couple the corresponding section of the roof top conditioner unit to other sections or elements of the roof top air conditioner unit or to the vehicle. As the stabilizing and/or connection elements are directly mold into the EEP, a reliable connection between the stabilizing and/or connection elements and the corresponding section of the roof top air conditioner unit is realized. In particular, the stabilizing and/or connection elements are configured to both stabilize the overall construction of the roof top air conditioner unit and to connect various sections or elements of the roof top air conditioner unit to each other and to connect the roof top air conditioner unit to the vehicle.

According to some embodiments of the roof top air conditioner, there is at least one housing and/or one base pan at least in part, but optionally completely made of EPP.

The housing and/or the base pan of the roof top air conditioner unit are the largest parts thereof, which is why providing these parts substantially made of EPP results in a high reduction in weight of the overall roof top air conditioner unit.

According to a further embodiment, the at least one stabilizing and/or connecting element is a nut configured to be engaged with a corresponding fastening means for assembling and/or installing the roof top air conditioner unit.

Nuts are a well-known and reliable solution of providing the stabilizing and/or connecting element.

According to a further embodiment, the at least one stabilizing and/or connecting element has at least one stabilizing protrusion extending transversely to a longitudinal direction of the stabilizing and/or connecting element. In particular, the at least one stabilizing and/or connection element has a t-beam shaped form. In addition thereto or alternatively, the at least one stabilizing and/or connecting element has at least one coupling bore provided therethrough to increase the contact area and the interlocking between the stabilizing and/or connecting element and the corresponding section of the roof top air conditioner unit made of EPP.

Such features allow to improve the coupling between the stabilizing and/or connecting elements and the corresponding section for the roof top air conditioner unit made of EPP.

According to some embodiments, the at least one stabilizing and/or connecting element is made of metal.

Metal, in general, is a well-known material that is easy to process and very robust. Thus, in according to some embodiments, metal depicts one choice as material for the stabilizing and/or connecting elements. However, other materials may be utilized.

According to some embodiments, a method for producing a roof top air conditioner unit for a vehicle, in particular for a recreational vehicle, comprises the steps of

• • casting the roof top air conditioner unit at least in part out of expanded polypropylene (EPP) and
  • molding at least one stabilizing and/or connecting element of the roof top air conditioner unit into the section of the roof top air conditioner unit made of EPP.

These steps in particular are performed as one production step, i.e. at the same time. The method thus allows to achieve the above-described roof top air conditioner unit and thus the thereto related advantages (see above).

According to some embodiments at least the housing and/or the base pan of the roof top air conditioner unit is at least in part, but optionally completely cast out of EEP, the at least one stabilizing and/or connecting element is provided as nut configured to be engaged with a corresponding fastening means for assembling and/or installing the roof top air conditioner, and/or the at least one stabilizing and/or connecting element is formed from metal.

A method for assembling and/or installing a roof top air conditioner unit or a roof top air conditioner unit produced with a method comprises the step of engaging at least one fastening means of the roof top air conditioner unit with the at least one stabilizing and/or connecting element.

This method results in a configuration for the roof top air conditioner unit having the above-described advantages.

According to some embodiments, a vehicle, in particular a recreational vehicle, comprises a roof top air conditioner unit or a roof top air conditioner unit produced with a method.

Such a vehicle has the above described advantages related to the roof top air conditioner unit.

A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following description when considered in connection with the accompanying drawings, wherein:

FIG. 1 is an inclined spatial view of a base pan of a roof top air conditioner unit according to an embodiment;

FIG. 2 is a front view of the base pan of FIG. 1; and

FIG. 3 is a side view of the base pan of FIGS. 1 and 2.

In the following, an exemplary embodiment is described with reference to the accompanying drawings.

In FIG. 1, a base pan 1 of a roof top air conditioner unit and the corresponding stabilizing and/or connecting elements are illustrated.

Besides the base pan 1, the corresponding roof top air conditioner unit has various other elements like the ones of a cooling circuit (not illustrated) and a top housing/cover. However, as the principle structure of roof top air conditioner units is well known and of no specific importance for the present disclosure, for the sake of brevity, only the special technical features will be described in more detail.

The base pan 1 has a base section 2. The base pan 1 further has a frame section 3, the frame section 3 being circumferentially coupled to the base section 2 to form an inner area of the base pan 1. Further, the base pan 1 has a special installation configuration 4 provided on the base section 2. The installation configuration 4 has various different sections for coupling other elements of the roof top air conditioner unit to the base pan 1, dividing the inner area of the base pan 1 in various distinct sections. These sections are provided to accommodate distinct elements of the roof top air conditioner unit, etc.

As the concrete structure of the installation configuration 4 highly depends on the individual setup of the roof top air conditioner unit and is not directly linked to the present embodiments, for the sake of brevity a detailed description of the various illustrated sections of the installation configuration 4 is omitted.

In the illustrated embodiment the whole base pan 1 is made of expanded polypropylene (EPP). Using EPP for the base pan 1 results in a light weight overall configuration. Moreover, EPP is extremely resistant to external environmental influences like humidity or UV-radiation.

As illustrated in FIGS. 2 and 3, the various stabilizing and/or coupling elements 5 are illustrated with doted lines. A plurality of stabilizing and/or coupling elements 5, in the present embodiment in particular 12 (but also other numbers are possible), are mold into the EPP of the base pan 1. By using the stabilizing and/or coupling elements 5 the base pan 1 can be coupled to other elements of the roof top air conditioner unit like the cover thereof.

Here, the stabilizing and/or connecting elements 5 are provided in the technical design of a basically t-beam shaped metal sheet nuts 5 which is mold in the frame section 3 of the base pan 1. Each of the metal sheet nuts 5 has an additional fastening strap 6 with a threaded fixing bore 7 as well as two coupling bores 8a, 8b. As is illustrated in FIG. 2, each threaded fixing bore 7 is aligned with a through hole 9 within the frame section 3 of the base pan 1. Hence, fastening means (not illustrated), like for example screws, can be guided through the through holes 9 an threaded with the threaded fixing bores 7 of the metal sheet nuts 5 in order to couple other elements of the roof top air conditioner unit to the base pan 1 or the base pan 1 to the vehicle.

The t-beam shaped form of the metal sheet nuts 5 and the coupling bores 8a, 8b are provided to increase the contact area between the metal sheet nuts 5 and the frame section 3 of the base pan 1 and thus to strengthen the coupling between them.

Although the illustrated embodiment of the stabilizing and/or connecting elements 5 is one possiblity, of course also various other configurations for the stabilizing and/or coupling elements 5 are possible.

For example, the stabilizing and/or connecting elements 5 can be provided solely as stabilizing elements being not configured to be coupled with any further fastening means. Further, the various stabilizing and/or connecting elements 5 can be made of other appropriate material than metal.

Of course, besides the t-shaped form it is possible and within the scope of the present invention to design the stabilizing and/or connecting elements in other forms and shapes including three-dimensional forms.

The illustrated embodiment has been described with reference to the base pan 1 of a roof top air conditioner unit only. However, also any other element of the roof top air conditioner unit can be made of EPP with corresponding stabilizing and/or connecting elements mold therein.

As the method for producing, assembling and installing the roof top air conditioner unit according to the present embodiments can be performed by a skilled artisan, for the sake of brevity no specific description thereof will be given here.

Finally, it is pointed out that a person skilled in the art has many possibilities of adaptation and variation of the above described embodiment according to the present invention, which, however, do not lead away from the core and consequently from the scope of protection.

REFERENCE NUMERALS

1 Base pan

2 base section

3 frame section

4 installation configuration

5 stabilizing and/or connecting elements/metal sheet nut

6 fastening strap

7 fixing bore

8 a/8b coupling bore

9 through hole

Claims

1. A roof top air conditioner unit for recreational vehicle, wherein the roof top air conditioner unit at least in part is made of expanded polypropylene (EPP), wherein the roof top air conditioner has at least one stabilizing and/or connecting element mold in the section of the roof top air conditioner unit made of EPP.

2. The roof top air conditioner unit of claim 1, wherein the roof top air conditioner unit has at least one housing and/or one base pan, wherein the housing and/or the base pan is at least in part, preferably completely made of EPP.

3. The roof top air conditioner unit of claim 1, wherein the at least one stabilizing and/or connecting element is a nut and is configured to be engaged with a corresponding fastening means for assembling and/or installing the roof top air conditioner unit.

4. The roof top air conditioner unit of claim 1, wherein the at least one stabilizing and/or connecting element has at least one stabilizing protrusion extending transversely to a longitudinal direction of the stabilizing and/or connecting element, wherein the at least one stabilizing and/or connection element preferably has a t-beam shaped form, and/orwherein the at least one stabilizing and/or connecting element has at least one coupling bore provided therethrough to increase the contact area and the interlocking between the stabilizing and/or connecting element and the corresponding section of the roof top air conditioner unit made of EPP.

5. The roof top air conditioner unit of claim 1, wherein the at least one stabilizing and/or connecting element is made of metal.

6. A method for producing a roof top air conditioner unit for a vehicle, in particular for a recreational vehicle, comprising the steps of casting the roof top air conditioner unit at least in part out of expanded polypropylene (EPP), andmolding at least one stabilizing and/or connecting element of the roof top air conditioner unit into the section of the roof top air conditioner unit made of EPP.

7. The method of claim 6, wherein at least a housing and/or a base pan of the roof top air conditioner unit is at least in part and preferably completely casted out of EPP.

8. The method of claim 6, wherein the at least one stabilizing and/or connecting element is provided as nut configured to be engaged with a corresponding fastening means for assembling and/or installing the roof top air conditioner.

9. The method of claim 6, wherein the at least one stabilizing and/or connecting element is formed from metal.

10. The method of claim 6 comprising the further step of engaging at least one fastening means of the roof top air conditioner unit with the at least one stabilizing and/or connecting element (5) to couple various elements of the roof top air conditioner unit to each other and/or to couple the roof top air conditioner unit to a vehicle.

11. A recreational vehicle, comprising a roof top; the roof top air conditioner unit at least in part is made of expanded polypropylene (EPP), wherein the roof top air conditioner has at least one stabilizing and/or connecting element mold in the section of the roof top air conditioner unit made of EPP.