FR2809582A1 - Method of heat insulation in room uses panels with electrostatic charge to excite air particles and cause heating - Google Patents

Abstract

The method has panels (1) or strips carrying an electromagnetic or electrostatic charges to polarize the ambient air particles. The bands or panels are juxtaposed and positioned in inverse senses to excite the air particles which circulate in the volume and produce heat for heating the room space. The panels can have a coating of quartz, silicon or mineral. The panels can be operated by a battery or low voltage source (5). An Independent claim is also included for the heating apparatus.

Description

INSULATION HEATING BY STATIC OR DYNAMIC ELECTROMAGNETIC FIELD Heating is provided by heat from combustion of oils or coal, or gas, there is also the use of electricity by convector heating resistance. Heating and transfer of calories are carried out in nature by other conversion means, such as bear hair. In fact physics tells us that electrostatic energy, static electric charge creates an electromagnetic field directly linked to static electric charges, initially due to an accumulation of electric potential difference.

The present process is the use of static electric charges and leakage currents. The values of the quantities of static charges for a given material having reached a certain potential, material saturates with electric charge, and lets electric charges flow, called leakage current. These static charges create an electromagnetic field in the surrounding airspace surrounding it, thus polarizing the particles in the air. these electrostatic fields are organized on bands or panels width for example of 10 centimeters wide, the ambient air is polarized in its bands in one direction and if creates a band juxtaposed in reverse polarization direction, the particles of the ambient air which circulate, will be agitated to polarize in the new direction of polarization. thus by constantly inverting the juxtaposed strips, the air particles are agitated, which creates heat in the space where the inverted strips are located. This principle of agitation and excitation of particles from the ambient air makes it possible to maintain the heat acquired from a room, from a volume. The constantly reversed electrostatic energy decreases heat exchange in the air, and conserves calories. structures are suitable for achieving these effects, of electrostatic field and leakage current, effects increased by electrical means of excitation, and of orientation of the electromagnetic fields. The structure of the materials is woven from natural materials such as linen, hemp or silk for example. The addition of quartz or crystals naturally maintains an electrical dynamic within this matter charged with static electricity. Indeed, the crystals are always in high frequency oscillation generate electrical effects on fibers of natural materials, which store electrical energy and distribute it on all fibers according to an oriented field. An electric supply by electric battery or a low voltage can also ensure the electric charge. These structures are combined in the form of insulating heating panels.

The present process is to create panels with the combined physics of static current and leakage. These panels are placed on the partitions or walls of a dwelling, a room or a vehicle whose atmosphere must be at a given temperature. structures created by weaving based on or natural fibers, are more effective, if a very low voltage current in continuous or alternating over-activates the orientations of the electromagnetic fields already established. A direct current, that is to say the most and the least imposed from one end to the other of the panel without alternation, can be a direct current, interrupted at a particular frequency or rhythm whose electromagnetic effects on natural fibers reinforce the thermal effects. Synthetic materials can have effects similar to natural structures. An apparatus (Fig. I) made by a person skilled in the art is a fabric which can be decorative in natural fibers and in wires allowing electricity to pass through, such as metalloplastic wire which has the property of allowing electric current to pass through and d '' be covered with a polymer or plastic retaining the static current, by condenser effect. Natural fibers or materials from the wood industry have excellent thermal effect properties under these conditions of use. On the metalloplastic wires, it is possible to insert, by impregnation or bonding, silica sand, to ensure more electrical effect and therefore heat. Silica, like other quartz oscillates at high frequency, which natural fibers translate into static electric field and oriented electromagnetic effect. This woven device (Fig. 1), a non-limiting example of embodiment, is a panel woven in width 1.5 meters wide. The aluminum wire of this fabric is in the direction of the chain, this allows for each installation of panel on a wall to have the aluminum wire in the direction of the height cut in each end low and high. An electric comb is adjusted at the bottom (2) and at the top (3) of the heating insulating panel (1). These high and low combs alternate the direct current more and less from bottom to top, and from top to bottom, alternating with a neutral zone (4) without current, in order to avoid awkward electrical short circuit connections between the more or the less from the top, with the more or less from the bottom, if the fabric was slightly deformed, the alignment of the metalloplastic threads could not be perfect. The combs are on the one hand welded to aluminum wire or the combs are with claws breaking the electrical insulation of the metalloplastic wires. On the other hand, the combs are connected to an electrical power supply box with adjustable interruption rhythm (5) to adjust the best insulation or heating effect, which gives dynamic activity to the panels. The power supply can be carried out with batteries or a regulated low security voltage obtained from the mains. The alternation of the supply of the panels, causes alternation of the electromagnetic fields of the panels thus divided in polarized section, which polarize and agitate particles of the air, which contributes to a stable temperature in slight increase in temperature. The quartz crystals bonded to the panels contribute to this activation of temperature by their own high frequency activity reflected on the natural fibers forming an integral part of the complete fabric thus formed. A variant is a simplified nonwoven device in pressed panel, made of natural fiber and quartz or silica and magnetized particles whose electromagnetic fields are perfectly oriented and alternated by polarized sections, for heating any living room.

Apparatuses and methods are useful for any ambient environment requiring thermal insulation at low cost of use or well regulated heating at low cost of operation.

Claims (1)

CLAIMS 1 - Method for heating and insulating a volume using panels or strips charged with static electric charges, made of woven material, for the electrostatic properties and directly related electromagnetic fields, which polarize the particles of ambient air , the bands charged electrostatic current oriented which juxtaposed and oriented in reverse of polarization, excite the particles of the ambient air circulate in the volume, which creates useful heat for any volume, or any room to be lived. A method according to claim 1 characterized by the addition of quartz, silica, or minerals which maintain an electrical dynamic. 3 - Method according to claim 1 characterized by electrical supply by battery or a low voltage. 4 - Apparatus for heating and volume insulation are panels placed on the partitions, the panels are made of a structure of natural materials woven such as linen, as vegetable materials, or wool for example, or synthetic materials, having 5 electrostatic properties, polarized and juxtaposed in reverse polarization, for agitating the particles of the ambient air circulating, useful structure for any ambient medium requiring thermal insulation or heating at low operating cost. 5 - Apparatus according to claim 4 characterized in that the fabric is composed of metalloplastic wire, or wire allowing the electric current to pass. 6 - Apparatus according to claim 4 characterized by the addition of silica, or quartz bonded to the panels. 7 - Simplified device according to claim 4 characterized by pressed panel and magnetized particles whose electromagnetic fields are oriented.