MODULAR ELEMENTS COMPRISING INTEGRATED AIR CONDITIONING UNITS AND ADAPTED TO REPLACE FAÇADE PORTIONS OF BUILDINGS IN CORRESPONDENCE WITH AT LEAST ONE FLOOR OF THE BUILDINGS AND CORRESPONDING PROCESSES FOR REMOVING AND REPLACING THE FAÇADE PORTIONS WITH THE MODULAR ELEMENTS

Abstract

Modular element adapted to replace a portion of the façade of a building in correspondence with at least one floor of the building, comprising an air conditioning unit and a channeling system, wherein the channeling system is configured to receive a fluid from an external fluid source, and comprises at least one first channel entering the air conditioning unit, and wherein the air conditioning unit comprises: a mechanical ventilation element configured to generate an air inflow into the building and an air outflow from the building, and to exchange heat therebetween; a hot and/or cold air diffusion element configured to heat and/or cool the air inflow using the circulating fluid in the first channel and to introduce the air inflow inside the building; an electronic control element configured to control the hot and/or cold air diffusion element and the mechanical ventilation element.

Description

The present invention relates to a modular element comprising an integrated air conditioning unit and adapted to replace a façade portion of a building in correspondence with at least one floor of the building and a corresponding process for removing and replacing the façade portion with the modular element.

TECHNICAL FIELD

In the construction sector, it is known that the restructuring and renovation of a building in order to improve the performance, functionality, image and comfort thereof may require several separate interventions. In fact, an intervention is often necessary to replace the façade of a building and a further separate intervention to renovate the heating and/or cooling system of the building in order to adapt to the new energy classes and to improve the comfort of the interior environment. The need to carry out separate interventions can result in higher costs for the building owner and simultaneously increase the duration of the renovation works and unforeseen events during the construction site works.

It is also known that, while renovating the façade of a building, which involves the replacement of portions of the façade, the entire building is usually cleared of the occupants and furnishings thereof for as long as the construction site works are in operation.

Considering therefore the long duration of the entire renovation works of the building, all this entails a significant inconvenience, as well as a significant loss of income if the building is leased and/or usufruct if owned. These costs are in addition to the actual costs of renovating the façade and the building as a whole.

AIM OF THE INVENTION

The object of the invention is to provide a modular element comprising an integrated air conditioning unit and adapted to replace a façade portion of a building in correspondence with at least one floor of the building which allows the building to be renovated both aesthetically and energetically, meeting formal and functional needs.

An object of the invention is also to present a building renovation process which allows to restore the façade of the building without compromising habitability during both the removal and replacement of the portions constituting the façade.

This and other objects, which will become clearer from the following description, are achieved by the modular element and the process according to the invention, which are characterized in accordance with the claims set forth below.

Advantages of the Invention

The advantage achieved with the invention is that of allowing both the aesthetic and energetic renovation of the building with a single coordinated intervention on the outer casing rather than through non-coordinated construction works.

At the same time, the invention allows the enhancement of the building through a contemporary architecture which is more aesthetically appealing. In addition, the invention allows to eliminate the inconvenience and/or loss of income resulting from the need to have the property free of occupants, as conventionally occurs in the application of building renovation processes in accordance with the prior art.

Still advantageously, the invention allows to reduce construction site intervention costs and contingencies.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described further with reference to some of the practical embodiments thereof, given by way of non-limiting example only, illustrated in the accompanying drawings in which:

FIG. 1 shows a perspective, exploded view of a modular element in accordance with the invention;

FIG. 2 shows a perspective view of the modular element of FIG. 1,

FIG. 3 shows a schematic view, in vertical section, of a multi-storey building, in which the first steps of the process are implemented with the arrangement of the separation bulkhead of the construction site area on each floor and the removal of portions of the façade to be replaced;

FIG. 4 shows a schematic view, in vertical section, of a multi-storey building, where the further steps of the process are implemented in which modular elements are installed;

FIG. 5 shows a schematic perspective view of a renovated building façade portion according to the process of the invention in which modular elements in accordance with the invention are installed.

DETAILED DESCRIPTION

With reference to the aforementioned figures, FIGS. 1 and 2 show a modular element 11 adapted to replace a portion 8a of the façade 8 of a building in correspondence with at least one floor A, B, C, D of the building. Preferably, such modular element 11 has a surface extension corresponding to the portion 8a of the façade 8 to be removed. Alternatively, the modular element 11 may have a surface extension different than the surface extension of the portion 8a of the façade 8 to be removed in order to meet functional needs.

Such modular element 11 comprises an air conditioning unit 14 and a channeling system. The air conditioning unit 14 is housed inside a recess 111 of the modular element 11. It should be noted that the dimensions of the air conditioning unit 14 are such as to allow the integration thereof inside the modular element 11. The channeling system comprises one or more channels, including at least a first channel entering the air conditioning unit 14. Furthermore, the channeling system is configured to receive a fluid from an external fluid source. The fluid may be a liquid or a gas.

The external source comprises pumping means for circulating the fluid inside the channeling system. The external source preferably also comprises means for heating and/or cooling the fluid. However, in some cases these means may be omitted in whole or in part. For example, in an embodiment where the fluid is a gas, such means for heating and/or cooling the fluid are only used to cool the fluid. In fact, in the case where the fluid is a gas, the heating can take place inside the modular element 11. That is, the modular element 11 may comprise a direct expansion system (not shown in the accompanying figures) for heating the gas.

In detail, the channeling system comprises one or more inlets configured to be connected to the external source so as to receive the fluid from the external source and input it into the channels of the channeling system. This fluid can therefore circulate in the channeling system, and in particular in the first channel.

The air conditioning unit 14 comprises a mechanical ventilation element 142 configured to generate an air inflow into the building and an air outflow from the building, and to exchange heat therebetween. That is, the mechanical ventilation element is configured to heat and/or cool the air inflow. Preferably, said mechanical ventilation element 142 consists of a double cross-flow exchanger for optimized and constant thermal recovery.

The air conditioning unit 14 further comprises a hot and/or cold air diffusion element 141 configured to heat and/or cool the air inflow, and thus the interior environment of the building, using the fluid circulating in the first channel and to input the air inflow into the interior environment of the building. For example, the diffusion element 141 is configured to input the air inflow into the interior of the building via an inlet facing the interior of the building when the modular element 11 is installed in the building.

The heating and/or cooling of the air inflow preferably takes place downstream of the mechanical ventilation element 142, by heat exchange between the airflow and the fluid in the first channel. The configurations of the diffusion element 141 and the first channel which allow the best heat exchange are known to those skilled in the art and will therefore not be explored here.

In addition, the air conditioning unit 14 comprises an electronic control element configured to control the hot and/or cold air diffusion element 141 and the mechanical ventilation element 142. The electronic control element allows to control the diffusion element 141 and the mechanical ventilation element 142 according to the air conditioning and thermal comfort needs of the interior environment of the building. In other words, the electronic control element allows to control the degree of heating and/or cooling of the air inflow while simultaneously controlling the air exchange in the interior environment of the building and thus the air quality inside the building.

According to a preferred embodiment of the invention, the channeling system comprises at least one second channel connectable to an internal diffusion element of the building which is distinct from the diffusion element 141 inside the modular element 11. In other words, the channeling system comprises one or more outlets connectable to the internal diffusion element of the building. The second channel is then configured to convey the fluid provided by the external source to the internal diffusion element of the building, and is preferably connected between at least one inlet and one outlet.

The internal diffusion element of the building is configured to generate hot and/or cold air using the fluid circulating in the second channel.

Advantageously, by connecting the second channel to the internal diffusion element of the building it is possible to respond to differentiated air conditioning requirements of the internal environment of the building according to the specificity of the building and of the user and to formal and functional needs.

According to the preferred embodiment of the invention, the air conditioning unit 14 comprises a drainage channel. Such drainage channel is configured to drain condensate water produced by the diffusion element 141 to the ground. Preferably, the modular element 11 comprises windows 12 embedded in the frame of the modular element 11. Still preferably, the windows 12 may incorporate curtains for protection from the sun's rays.

According to the preferred embodiment of the invention, the modular element 11 comprises panels 13 for the partial or total darkening of sunlight. That is, such panels 13 allow the window 12 to be partially or totally darkened. Such panels 13 may be arranged parallel or perpendicular to the window 12, or at intermediate angles, depending on the solar exposure of the building.

Preferably, such panels 13 include devices for generating energy from renewable sources. For example, such panels 13 may be photovoltaic panels.

Preferably, such power generation devices may contribute to the operation of the air conditioning unit 14. More preferably, such power generation devices may contribute to the power supply of the air conditioning unit 14.

According to the preferred embodiment of the invention, the modular element 11 comprises at least one shelf 15 treated with solar rays reflective coating. Such shelf 15 faces the interior of the building when the modular element 11 is installed in the façade 8 of the building. In other words, once the modular element 11 is installed in the façade 8 of the building, reflecting the sun's rays, this shelf 15 allows to improve the diffusion of natural light and limit the risk of glare of the interior environment.

With reference to the aforementioned figures, FIG. 3 schematically illustrates the preliminary steps of the process.

The section of the building has been indicated comprehensively with the number 1 and the flooring surfaces of the floors A, B, C, D have been indicated with the number 2, while the respective ceilings have been indicated with 3. The habitable area in which the furnishings and occupants of the building may be present, also during the construction site works, has been indicated overall with the reference number 4.

According to the first step of the process, this involves the erection of a vertically extending bulkhead 5 between a flooring 2 of a floor A, B, C, D and a corresponding overlying ceiling 3.

The bulkhead 5 is removable and capable of delimiting a construction site area 6 between the inner surface 7a of the portion 8a of the façade 8 to be removed and the rear habitable area 4 which continues to be inhabited and in operation, of the floor A, B, C, D of the building where the furnishings and occupants are located.

According to the process, suspension means comprehensively indicated with the number 10 are provided, for access from the outside to an external surface 7b of the portion 8a of the façade 8 to be removed. Preferably, such suspension means 10 are arranged on the roof floor 9 of the building 1. Alternatively, such suspension means 10 are arranged on the ground, in front of the building.

This avoids the need to arrange an extensive construction site area around the building with obvious economic savings.

The third step of the process is implemented by means of the aforementioned suspension means 10, which involves the removal of the single portion 8a of the façade 8 of the façade of the floor A, B, C, D, as schematically illustrated in FIG. 3 with reference to the floor D.

Referring to FIG. 4, the fourth step of the process according to the invention involves the installation, with the use of the suspension means 10, of the modular element 11. As previously introduced, preferably, the modular element 11 corresponds in size to the removed portion 8a of the façade 8. Alternatively, the modular element 11 may be different in size from the removed façade portion 8a to meet formal and functional renovation needs. The process thus comprises a further step in which the modular element 11 is anchored to the façade 8 of the building 1 and electrical and hydraulic connections of the air conditioning unit 14 are performed. For example, the frame of the modular element 11 is connected to a corresponding floor A, B, C, D of the building, while the air conditioning unit 14 is connected to the electrical supply network of the building and the channeling system is connected to the external source, as well as to any internal diffusion elements of the building.

Subsequently, the bulkhead 5 is removed with consequent elimination of the construction site space 6 and restoration of the full and total usability of the entire floor A, B, C, D as schematically shown at the floor A of FIG. 4.

It should be noted that the process described above can be applied to replace the entire façade 8 of the building with a plurality of modular elements 11. That is, the process can be applied to replace a plurality of portions 8a of the façade 8 with a plurality of modular elements 11, thereby allowing the entire building to be renovated.

The materials as well as the dimensions of the disclosed elements may vary according to needs without thereby departing from the scope of the following claims.

Claims

1. Modular element adapted to replace a portion of the façade of a building in correspondence with at least one floor of the building, characterized in that it comprises an air conditioning unit and a channeling system, wherein the channeling system is configured to receive a fluid from an external fluid source, and comprises at least one first channel entering the air conditioning unit,and wherein the air conditioning unit comprises: a mechanical ventilation element configured to generate an air inflow into the building and an air outflow from the building, and to exchange heat therebetween;a hot and/or cold air diffusion element configured to heat and/or cool said air inflow using the fluid circulating in the first channel and to input said air inflow into the interior environment of the building;an electronic control element configured to control the hot and/or cold air diffusion element and the mechanical ventilation element; and wherein:the channeling system comprises at least one second channel connectable to an internal diffusion element of the building, and configured to transport the fluid from the external source to the internal diffusion element of the building.

2. Modular element according to claim 1, wherein said air conditioning unit comprises a drainage channel, said drainage channel being configured to drain condensation water produced by the diffusion element to the ground.

3. Modular element according to claim 1, comprising panels for the partial or total darkening of sunlight.

4. Modular element according to claim 3, wherein said panels include devices for generating energy from renewable sources.

5. Modular element according to claim 1, comprising at least one shelf treated with solar rays reflective coating, said shelf facing the interior of the building when said modular element is installed in the façade of the building.

6. Process for removing and replacing a portion of the façade of a building in correspondence with at least one floor of the building with a modular element according to claim 1, without affecting the habitability and operability of the building, characterized in that it comprises a first step wherein, inside the building, in correspondence with a floor thereof, a vertically extending bulkhead is erected between a flooring of the floor and a corresponding overlying ceiling, said bulkhead being removable and capable of delimiting a construction site area comprised between an inner surface of the portion of the façade to be removed and a rear habitable area of the floor of the building, a second step wherein suspension means are arranged for access from the outside an external surface of the portion of the façade to be removed, a third step wherein the portion of the façade of the floor is individually removed, a fourth step wherein the modular element is installed.

7. Process according to claim 6, characterized in that it comprises a further step in which the modular element is anchored to the façade and electrical and hydraulic connections of the air conditioning unit are performed.

8. Process according to claim 7, characterized in that it comprises a step of removing the bulkhead delimiting said construction site area of the floor.