Paned windows and doors in which there is a plurality of peltier cells

Abstract

There is provided a paned window or door structure in which a plurality of Peltier cells are present. The paned elements have a frame with a fixed portion (2) and a mobile portion (2) in which at least one double glazing unit (3) is present, it being provided that in the interspace present in the double glazing unit, at an edge that is arranged in the mobile portion (2) of the frame, a plurality of Peltier cells (11) are present. The Peltier cells are in contact with an element for dissipating heat towards the outside (12), made of optimal heat conduction material, which has a portion thereof (12) arranged at the external surface of the door or window. On each of the cells (11), a sheet is superimposed made of material with high heat conductivity, acting as a heat sink (13) for dissipating towards the interior of the double glazing unit.

Claims

1. A paned window or door structure including a system for environmental climate control, said paned window or door structure including a frame (2) having a fixed frame portion (2) and a mobile frame portion (2) wherein said mobile frame portion (2) defines a recessed channel having an upper limit and adapted to receive therein a perimetric edge of a double glazing unit (3) which defines between the glass panes a gap (3), said environmental climate control system comprising: in combination, a plurality of Peltier cells (11) arranged along the perimetric edge of said double glazing unit (3) and disposed within the gap (3) between the glass panes of said double glazing unit (3), a first heat sink element (12) disposed in contact with a lower surface of said Peltier cells (11) for thermal dissipation towards an exterior formed from a material of high heat conductivity and having a portion (12) arranged at an outer surface of said mobile frame portion (2), a second heat sink element (13) disposed in contact with an upper surface of said Peltier cells (11) for thermal dissipation towards the gap (3) between the glass panes of said double glazing unit (3) formed from a material of high heat conductivity, said combination of Peltier cells (11), first heat sink element (12), and second heat sink element (13) being disposed at the perimetric edge of said double glazing unit (3) so as to not project above the recessed channel upper limit of said mobile frame portion (2); and an electric circuit (4) for supplying electric power to said Peltier cells (11) including first contacts (20) arranged on said fixed frame portion (2) and complimentary second contacts (20) arranged on said mobile frame portion (2), and an inverter (9) adapted to invert the electric power supplied to said Peltier cells (11) so as to reverse a heating/cooling mode between the upper and lower surfaces of said Peltier cells.

2. The paned window or door structure according to claim 1, wherein said electric circuit (4) for powering said Peltier cells (11) is powered through a power supply (6) adapted to convert alternating current from electrical mains (7) into direct current.

3. The paned window or door structure according to claim 1, wherein said electric circuit (4) is powered through a battery of photovoltaic panels (10), and a charge regulator (11) for determining the power supply voltage of said circuit, said charge regulator being connected to a DC accumulator (32).

4. The paned window or door structure according to claim 1, wherein electric current to said Peltier cells (11) is provided via contact elements (20) having first contacts (20) arranged on said fixed frame portion (2) which contact with second contacts (20) arranged on said mobile frame portion (2), said second contacts (20) having contact portions (21) adapted to slide in a seat (22) in relation to the contact generated between second contacts (20) and first contacts (20) arranged on said fixed frame portion (2).

Description

(1) These and other characteristics of the invention shall be described hereinafter in detail, with reference to some embodiments of the invention, with the help of the attached drawings, wherein:

(2) FIG. 1 illustrates a schematic view of a paned door and window obtained according to the invention, supplied through an electrical power supply system;

(3) FIG. 2 illustrates the same door and window, supplied through photovoltaic panels;

(4) FIG. 3 illustrates a transverse sectional view of a portion of a door and window according to the invention, which operates during summer;

(5) FIG. 4 illustrates the same door and window, which operates during winter;

(6) FIGS. 5, 6 and, respectively, 7 and 8 show two views of the mobile and fixed contacts for supplying current to the Peltier cells present in a door and window according to the invention;

(7) FIG. 9 illustrates an overall views of said two contacts.

(8) With reference to FIG. 1, it is observed that a paned door and window 1 according to the invention (but the description below may easily refer to any type of paned door and window) has, as usually, a frame 2, with a fixed portion 2 and a mobile portion 2, in which there is at least one double glazing unit 3.

(9) A main characteristic of the device according to the invention lies in the fact that, as better observable in the FIGS. that follow, in the frame there is a plurality of Peltier cells. In order to power supply the latter, an electric circuit 4 is provided with at least two conductors 4, 4, which power supply said Peltier cells through contact pairs, respectively fixed and mobile 20, 20, respectively present in the fixed frame 2 and mobile frame 2. Said contacts 20, 20 shall be better illustrated and described hereinafter.

(10) The electrical circuit 4 is supplied through a power supply unit 6, which transforms the alternating current coming from the electrical mains 7 (through a usual electricity meter 8) in direct current.

(11) Reference 9 indicates an inverter, capable of inverting the direction of the current that supplies the Peltier cells, essentially to pass from the summer position to the winter position in that, as known, according to such inversiongiven that the Peltier cells are of the reversible typethe surfaces of the plates of the aforementioned invert their cold/hot state.

(12) FIG. 2 shows a door or window according to the invention, but power supplied through a battery of photovoltaic panels 10 in this case.

(13) In this case, as usual, they serve as support for the electrical power supply of the mains 7; a load regulator 11 is advantageously provided, adapted to accurately determine the electric circuit 4 supply voltage, said load regulator in turn being connected, in a per se known manner, to an direct-current accumulator 32.

(14) FIG. 3 shows that, according to the invention, it is provided for that the Peltier cells 11 be arranged in the interspace 3 present in the double glazing unit 3 at an edge of the aforementioned, arranged in the mobile frame 2.

(15) This figure also shows that the cell 11 is power supplied by the two conductors 4 and 4.

(16) This Peltier cell is surmounted, at the inner part of the double glazing unit, by a first heat sink 13, made of material with high heat conductivity. Conversely, below the cell 11, interposed between it and the mobile frame 2 of the double glazing unit, a further heat sink 12 is present, also made of high heat conductivity material, which also continues towards the exterior with the portion 12 thereof acting as a heat sink, surmounting a portion of the external surface of the mobile frame 2.

(17) In practice, in the operation of the device illustrated in FIG. 3, which essentially refers to summer, the surface of the Peltier cell 11 arranged towards the double glazing unit is intended to be cooled, determining the cooling of the air contained in the double glazing unit and thus the introduction of cold air towards the interior of the environment closed double glazing unit.

(18) At the same time, the heat generated in the hot surface 11 of the Peltier cell is brought towards the exterior, to be dispersed through the portion 12, which acts as a heat sink towards the external.

(19) Obviously, the surface 11 of the cell, which is on the contrary cooled, introduces the cold air into the double glazing unit through an inward heat sink 13.

(20) Conversely, with reference to FIG. 4, which refers to the operation of the device in winter, it is immediately observable that the polarity of the conductors 4 and 4 is now inverted, this determining that towards the interior there is now the hot air (arrows F), same case applying to the interior of the double glazing unit through an inward heat sink 13.

(21) This is obviously due to the fact that the Peltier cell 11 has the surface 11 towards the interior of the hot double glazing unit, while the face 11 arranged towards the edge of the frame is cold and the cold air is taken towards the exterior through the portion 12, which acts as an outward heat sink.

(22) Tests carried out allowed verifying that by using a suitable number of Peltier cells, it is possible to obtain ideal climate control of the environment, said cells being inserted in the doors and windows.

(23) Advantageously, it was verified that each door is advantageously provided with two Peltier cells continuously supplied with a current of about 1 A to about 4 Vcc. This regardless of whether one wishes to cool or heat the environment, obviously with reference to a normal temperate climate. However, there is no construction, structural or functional limitation to having a higher number of Peltier cells on each door, in relation to possible more extreme climates in which the environment to be climate-controlled is placed.

(24) FIGS. 5 to 9 advantageously show that the supply of the electrical current to the Peltier cells is guaranteed through electrical currents, of per se known type, indicated in their entirety with reference 20, having portions 20 arranged on the fixed frames 2 (FIG. 1), while the portions 20 are arranged on the mobile frames 2 (FIG. 1).

(25) The mobile portions 20 have contacts 21 intended to slide in their seat 22, in relation to the contact generated between the aforementioned and the corresponding fixed contact portions 20.