BE895008A - Solar energy captor with static transparent liquid - has hermetically sealed liq. chamber between double or triple glazing panels - Google Patents

Abstract

The collector can store solar energy or light energy from outside the building as well as energy produced by internally heating the building. It redistributes the energy through the building without using hot water or hot air distribution circuits. The collector has a series of glass housings mounted in a battery which may define part of the building e.g. the walls. The housings may be double or triple glazed and define an internal chamber filled with static water.

Description

       

  i

  
Miss Chantal ROCKX

  
225, avenue des Croix du Feu, 1020 Brussels

  
and

  
Mr. Michel BECART

  
25, rue Alphonse Renard, 1060 BRUXELLES

  
The sensor object of the present invention differs

  
sensors currently designed or used by

  
many innovations.

  
Indeed the sensors currently used are made

  
by means of a box with one side facing

  
daylight and solar heat, this face generally being produced by means of a glass plate

  
or a synthetic glass allowing light to pass through

  
or solar heat in the case and hitting a

  
wall at the bottom of the box, generally black and absorbent but in any non-transparent manner, the properties of which allow the capture of calories and the heating of this

  
makes a circuit of water or air circulating 3 inside

  
of the box and in conduits supplying the habitat

  
in water or hot air. These sensors are therefore not designed

  
to capture heat from the home and

  
redistribute it towards this one which strongly limits its use during periods of sunshine

  
reduced ... / ...

  
2 These sensors, once this natural source of energy has disappeared, become completely inoperative, the water or air circulating in the sensors and the pipes immediately cooling down.

  
These sensors never supply the housing directly, but only by means of ducts or pipes, which makes the installation expensive and all the more difficult to absorb as the materials used and the places where they can be placed. train

  
to a deterioration by the action of the acids of hydrocarbons, of limestone carried by polluted water and air. By the design of these sensors we can consider that these have only a function of capturing solar calories and of immediate and indirect redistribution of them so that they do not constitute in any way real accumulators of calories capable of redistribute these towards the home once the source of light or natural heat has disappeared.

  
Current design sensors using fragile and rapidly degradable materials

  
can in no case be used as building materials for a home such as walls, partitions,

  
 <EMI ID = 1.1>

  
at the bottom of the box cannot let in natural light, nor could they be used to

  
the production of decorative elements that can be used inside or outside such as panels, partitions, balcony elements, etc. while assuming the capacity of a redistributor of calories.

  
Nor could they constitute an accumulator <EMI ID = 2.1>

  
3 calories able to keep these and store them by redistributing them after the natural solar heat or natural light have disappeared.

  
The sensor object of the present invention completely modifies the capacities of sensors currently known by the fact that it is entirely constituted by walls of natural or refractory glass forming a box hermetically welded after the interior chamber is filled with a liquid. special, static and transparent so that the box and the liquid together form a sensor which is completely transparent on both sides. As a result, this sensor will therefore allow natural light to pass into the habitat or vice versa, artificial light from the habitat.

  
outwards. The special static and transparent liquid contained in the interior chamber of the hermetic box constitutes an element capable of capturing, absorbing, storing calories both from outside the habitat and those from inside of it

  
so that it doubles its storage capacity

  
calories and it will keep those calories even if

  
external or internal heat sources disappear by redistributing them slowly towards the habitat when the ambient temperature of it decreases.

  
This sensor formed by an airtight glass box containing the special static liquid constituting

  
 <EMI ID = 3.1>

  
for decades by resisting attacks by chemicals, acids, hydrocarbons, limestone carried by air or water. It will also be fireproof, resistant to high and low temperatures while maintaining intact its transparency capacity 4 for capturing, storing and redistributing calories to the habitat

  
By design, this sensor must not use fragile, rapidly degradable materials or water or air distribution circuits for its operation. Since the static liquid from the sensor directly transmits its calories to the habitat.

  
This sensor with two or three walls will retransmit natural light from the outside at all times or conversely the artificial light from the inside in an equal or even superior way to double or triple glazing.

  
This sensor can be used as glazing placed behind the windows of the home while ensuring

  
transparency through the glass and assuming its sensor functions.

  
This sensor can be produced by means of three glass walls, forming two boxes and having

  
two airtight, non-communicating interior chambers, one containing the special static and transparent liquid, the other capable of containing

  
dry air or be evacuated. In that case

  
this transparent sensor can be placed in a window, door, dome or element frame

  
verandas, greenhouse, etc. In this case it will complete its qualities of transparency, capture, storage,

  
and redistribution of calories to the habitat

  
by the fact that it will also constitute a very important barrier against noise coming from the outside It will greatly reduce the risks of heat loss inside to the outside and the penetration of cold air from the outside will interior.

  
It will eliminate the existence of cold spots generally found in aluminum chassis and this

  
 <EMI ID = 4.1>

  
5 In the case of the sensor produced by means of three

  
glazed walls forming two boxes and having two non-communicating chambers, one containing the special transparent and static liquid and the other containing dry or vacuum air it will be possible to obtain a total thickness of the assembly that it is impossible to plan for creation

  
 <EMI ID = 5.1>

  
fogging and moreover a double hunting

  
or triple glazing can in no way constitute a true accumulator of calories the air contained between the welded or non-welded panes

  
unable to perform this function or that

  
slow redistribution of stored calories

  
towards the habitat.

  
This sensor, although used mainly with the special transparent liquid, may however be colored, pigmented or made opaque by modification

  
of the composition of the special static liquid without thereby losing its ability to capture, store

  
and redistribute the calories and can therefore

  
be used as decorative panels placed inside and outside the home, it being understood that in this case it would lose its capacity for transparency.

  
This sensor used as ceiling, under ceiling, platform covering will be able to store calories ^ 1 <1> <1> rises towards the top of the rooms and be redistributed when the ambient temperature decreases.

  
This sensor, depending on the thickness of the planned glass box and the volume of the special static liquid used, will be able to produce materials such as

  
bricks, tiles, slabs, partitions,

  
roofing elements, tiles etc .; so that a community or other community, administrative, commercial or industrial building will be strong-

  
 <EMI ID = 6.1>

  
huge calorie storage capacity and

  
redistribution of these.

  
This sensor immersed in a tank containing water

  
and acting alone or placed in battery placed on

  
a habitat or outside a habitat will be able

  
store calories for warming

  
of the tank which by circulation will be able to supply the habitat or a set of habitat even after the solar action has disappeared.

  
For a better understanding of the possibilities offered by this sensor, we will say that it can be constituted by a single box (see figure I) made of natural glass (I) comprising a chamber (2) which will be made airtight after being filled with a special transparent static liquid (3) .This sensor can also be designed by means of three glass walls (see Figure 2) with two non-communicating interior chambers

  
(2 and 4) containing one of the liquid, the other of

  
dry air or vacuum.

  
That the sensor (fig. I) can be immersed in a

  
 <EMI ID = 7.1>


    

Claims (1)

7 CLAIMS by the filing of this relative invention patent to a sensor and accumulator of energy, we claim <EMI ID = 8.1> which contains in an interior chamber a liquid special transparent static hermetically sealed in this one and able to store solar energy or light external to the home but also all internal calories from internal heating habitat. 2 [deg.] The idea that although the liquid remains static in the sensor it stores internal or external calories to the habitat and is planned to redistribute them towards habitat without having to use hot water or hot air distribution circuits.  <EMI ID = 9.1> accumulated in this sensor after the natural sources of light or heat have disappeared as also any internal heat source and that these stored calories will be redistributed in habitat directly as the internal heat of the habitat will decrease. 4 [deg.] The idea that the sensor produced by transparency of its glass box and the transparency of the special transparent static liquid contained in its room will transmit natural light to the habitat as also the artificial internal light from the habitat to the outside, this transparency being equal otherwise greater than that provided by a hunting team double or triple glazing.  <EMI ID = 10.1> its basic calorie storage functions and redistribution of these can at the same time serve as glazing for windows, doors, dome, .. / .. 8 veranda, greenhouse, etc. 6 [deg.] The idea that this sensor placed behind the glass of a window, door or other glazed elements will serve as both glazing and storage and redistributor of calories to the habitat.  <EMI ID = 11.1> an identical box but whose internal chamber would contain dry air or be put under vacuum will constitute both a triple glazing, a redistributor of calories to the habitat but also a sound barrier greater than that provided by a triple glazing ordinary and a thermal barrier preventing outside cold from entering the habitat and internal calories from the habitat to escape from the habitat.  <EMI ID = 12.1> degradable will be able to keep its functional capacities for decades. Whether it will be insensitive to attacks by chemicals, hydrocarbons from limestones transported by air or water, whether is flame retardant and resists high and low temperatures.  <EMI ID = 13.1> will keep its capacity for storing calories and redistributing them even if the special liquid is made opaque, if it is colored, pigmented so that it can become decorative elements external or internal to the habitat.  <EMI ID = 14.1> glazed elements which will be provided and the volume of liquid introduced into the chamber will retain its quality as a redistributor of calories while being able to be used as a building material such as  <EMI ID = 15.1> or other roof elements so that 9 all the calories stored can directly heat the home,  <EMI ID = 16.1> in a tank containing water can on the habitat or outside the habitat heat this water and redistribute it towards the habitat or towards a whole  <EMI ID = 17.1> glazing in frames with double or triple panes welded together or not welded can only provide better sound or thermal insulation but could in no case constitute a calorie accumulator sensor and redistributor thereof comparable or equal to the glazed box object of this patent which obtains a maximum storage of calories due to the fact of the static liquid contained in its interior chamber.