ITBO990001A1 - INTEGRATED SECTOR WITH DIFFERENTIATED HEATING AND AIR CONDITIONING SYSTEMS. - Google Patents

Abstract

The apparatus is realized mounting on two divided sectors of a setting our square body a cooling air plant (A) consists of a refrigerating cycle with cooling compression and heat exchangers acting with electricity with air or water cooling and a heating plant (B) consists of an incorporated fuel burner and/or a radiator with water circulation and/or resistance. Said plants (A) and (B), with schemes and form of the elements for a solution of the least dimensions, to be setting out on the inside square face of the central part of a sheet metal body (1) and to be delimited by a separator (2) with poser line (3) for the electric current to feed a power switchboard (4). <IMAGE>

Description

Description of the Patent for Industrial Invention entitled: "INTEGRATED COMPARTMENT WITH DIFFERENTIATED HEATING AND AIR CONDITIONING SYSTEMS".

DESCRIPTION

The object of the result is a new type of apparatus for the treatment of incident air in the rooms of modern rational building, residential and non-residential, with a compartment integrated into a box-like frame for setting and containing differentiated heating and air conditioning systems. according to screens and typology of components for a solution of minimum encumbrance, thus determining the satisfaction of incoming air treatment needs in the compartment through the use of a single setting means on the external wall occupying approximately the same space currently required by the heating unit alone. In particular, in indirect buildings, residential and non-residential, while the centralized or single heating system is part of the work supplied by the manufacturer, the unplanned and single ambient air conditioning angles are the responsibility of the tenant. And, since the narrow wall spaces present in the rooms of this current building determine, with the installation of the display parts of the ambient air conditioning system, a considerable reduction in the space useful for setting up compendiums of essential use and furniture in general, the problem arises for manufacturers of making the aforementioned parts, reducing the useful wall space, according to forms of reduced bulk. The system, in order, by implementing a solution to the problem by creating a single display part for both systems, variously available on the wall or recessed on external masonry and occupying, as already mentioned, a space currently required for the heating unit only, determines a technological innovation of the sector mainly by realizing: 1) a general reduction in size of the components and in the layout of the system leading to a considerable decrease in production and installation costs; 2) a high reduction of the overall space of the display part on the wall; 3) the possibility of implementing the room air conditioning system in rooms already equipped with heating units without having to use another display space on the wall; 4) the possibility of using integrated schemes systems prepared on a square setting basis in the arrangement of minimum encumbrance thus determining an operational simplification and a reduction in management costs. More generally, the system in order makes it possible to equip rooms with no entrances with heating and air conditioning systems and to install the room air conditioning system in others already equipped with the related heating system, eliminating heating units such as radiators, radiators and convectors; all using either the setting space of the heating unit to mount the integrated compartment in order or otherwise using the pre-existing box of the heating unit frame already present. In this way, allowing the use of pre-existing heating systems by replacing the traditional radiator and using the same hot water circulation pipes for heating through a specific built-in radiator. The appliance in particular can also be equipped with an autonomous internal burner, in this case allowing the elimination of all the hydraulic system necessary for the circulation of hot water for heating with the elimination of the main boiler and all its connection systems, including the elimination of masonry works for the installation of pipes and more, over time eliminating various problems and maintenance from encrustations and oxidations. enclosures and fans. Essentially, the system can be created by mounting on distinct sectors of a square-based setting surface of a box-shaped frame: electricity with air or water cooling; (B) a room air heating system implemented by means of a built-in fuel burner and / or a water circulation radiator and / or electrical resistance. In the theoretical embodiment of the system, the integrated compartment is set up, according to diagrams and shape of the components for solutions of minimum encumbrance, on the internal square wall of the central part of a sheet metal frame body 1, operating the containment, with spaces (A) and (B) delimited by a separator partition 2 with an electric current derivation line 3 feeding a control panel 4. In the space (A), relative to the cooling system, an air conditioning system is in operation. arriving air with a refrigerating compressor 5 for the compression of a refrigerant fluid through a pipe 6 into a condenser 7 from which, through a lamination member 8, the fluid passes to the vapor state inside an evaporator 9, cooling down and then return to the refrigeration compressor 5 via line 10. While the hot air coming from the environment is pushed by a fan through the evaporator 9 to which and heat cooling down to then return to the environment through special slits. Then the heat absorbed by the evaporator 9 is disposed of by the condenser 7 by means of a forced passage of air given by a fan 12 through a hole 13 present in the masonry for extraction from the outside. The air is then discharged through a pipe 14- In the space (B), relating to the heating system, there is a large heating system where, again via the power supply line 3 feeding the control panel 4, it is fed a fan 15 which draws air from the outside through a wall hole 16 and forces it, through a pipe 17, into a burner 18 where the flow of hot air reaches a sealed chamber 19 overheating it. The combustion fumes, through the pipe 20, are expelled to the outside through a duct 21 which crosses the external structure, thus discharging. The abundant air is taken by a fan 22 and forced into a sealed chamber 19 where it overheats and then escapes through suitable slits. The embodiment of the compartment in order and operating system are illustrated purely by way of indication and as such not limitative of the invention to the drawings of Tables 1, 2, 3 and 4. In Table 1 fig. 1 is a schematic view of a setter 1 showing the block diagrams of the spaces (A) and (B) of the integrated compartment. In Table 2 fig. 2 is a section view A-A 'for observing the air circulation diagram in the air conditioning system provided in the space (A) of the setting 1. In Table 3 fig-3 is a section view B-B' for the observation of the air circulation diagram in the heating system provided in the space (B) of the setter 1. In Table 4 fig. 4 is a side perspective view of the integrated compartment in order mounted on the wall in the representation of the filtering wall for an identification of the components used.

Claims (2)

CLAIMS 1) Integrated compartment with differentiated heating and air conditioning systems characterized by the fact that the system can be realized by mounting a cooling system for the ambient air on distinct sectors of a square-based setting plane of a frame box ( A) implemented by means of a refrigerant compression cycle of refrigerant and heat exchangers, running on electricity with air or water cooling and a system. heating of the arriving air (B) implemented by means of a built-in fuel burner and / or a water circulation radiator and / or electric resistance. These systems (A) and (B), according to layouts and shape of the components for solutions of minimum encumbrance, are set on the internal square wall of the central part of a sheet metal frame body (1) and are delimited by a separator partition (2 ) with an electric current derivation line (3) feeding a control panel (4). 2) Integrated compartment with differentiated heating and air conditioning systems, as per claim 1), characterized by the fact that in the theoretical form of realization of the system in space (A), relative to the cooling system, a system is in operation air conditioning unit with a refrigerating compressor (5) for the compression of a refrigerant fluid through a pipe (6) into a condenser (7) from which, through a lamination member (8), the fluid passes to the state of vapor inside an evaporator (9) cooling and then returning to the refrigeration compressor (5) through line (10) .While the hot air coming from the arrident is pushed by a fan (11) through the evaporator (9) to which it transfers heat as it cools and then returns to the environment through special slits. Then the heat absorbed by the evaporator (9) is disposed of by the condenser (7) by means of a forced passage of air given by a fan (12) through a hole (13) in the masonry for extraction from the outside. The air is then subsequently discharged through a pipe (14). In the space (B), relating to the heating system, there is an incident heating system where a fan (15) is powered which takes air from the outside through a wall hole (16) and forces it in through a pipe ( 17), in a burner (18) where the flow of hot air reaches a sealed chamber (19) overheating it. The combustion fumes, through the pipe (20), are expelled to the outside through a pipe (21) which passes through the external wall structure, thus discharging. The ambient air is taken by a fan (22) and forced into a sealed chamber (19) where it overheats and then escapes through special slits.