ES2347741A1 - Refrigeration system and construction insulation. (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

It consists in obtaining refrigeration and insulation, for domestic and industrial use, using a projected cell mass, low thermal conductivity on different types of supports and surfaces, the energy of the sun (7), wind (8) and a minimum of resources. And mechanical and electronic elements (4), (5), (6). Cooling is obtained by controlled cycles of wetting and evaporation of water, in the cell mass projected on different types of surfaces (1), the back of said surfaces, by convection absorb the latent heat (2) and expel it to the outside (3). The thermal insulation of the surfaces is produced by the low coefficient of thermal conductivity k of the projected cell mass. (Machine-translation by Google Translate, not legally binding)

Description

Cooling and insulation system buildings.

The present invention relates to a system of cooling and thermal insulation, thanks to which they are achieved notable improvements in relation to the current systems of known refrigeration so far, whose improvements affect the reduction of electricity consumption, and also the air quality of Refrigerated spaces for human use.

Background of the invention

Cooling systems are known domestic and industrial and its high electricity consumption, in addition affect air quality because they modify its humidity relative, it is known that many people do not tolerate their stay well in refrigerated areas. Thermal and acoustic insulation in the construction for human use is a very important element, and in Many complex occasions in its realization. To avoid some disadvantages of this type of cooling and insulation has been Realized the present invention, the fundamental characteristics of the system are the following: Low projected cell mass coefficient of thermal conductivity k, electrical consumption in mode low and sustainable refrigeration with the possibility of being fed by photovoltaic solar energy, and the non-alteration of humidity relative air in the rooms or rooms cooled by the cooling and insulation system.

Description of the invention

The cooling and insulation system of constructions is sustainable due to its low power consumption, and this based on the following criteria: Projection on different surfaces and supports of a low conductivity cell mass thermal k, insulating in nature. Cooling by water evaporation, sunlight reflection, for it The following elements are involved: A series of layers of dough preferably white cell, are projected on a certain surface to be cooled or insulated, such as roofs of sheet metal or fibrement in industrial buildings, farms, houses or other support or surface.

The projection is done in thin layers to time intervals between layers to avoid deforming the structure of the above, the time interval between layer and layer is variable depending on the drying of the previous one, by way of example a roof of industrial building in summer in full sun 30-40 minutes between layers is enough, the Projection of cell mass is done by pressurized air generating small independent flakes in each layer. The spesor in millimeters obtained by the multilayer projection results in to a structural formation of small irregular flakes attached each other chaotically, therefore the structure is doubly porous, first because each flake projected, by the own nature of the cellular mass that composes it and its dimension, It is very absorbent.

And secondly because many are generated gaps by the chaotic union between flakes. If the cell mass projected is exposed to solar radiation, preferably should be white, this way you get a diffuse reflection of about 70%. The described cell formation is very absorbent, in 2 millimeters thick retains approximately 0.75 liters of water per square meter, this quality is decisive to occlude and subsequently evaporate the water. The method of evaporation cooling is based on the change of state gaseous liquid in our case water. It is known that a liter of evaporated water produces approximately 540 K. refrigerators. The evaporation of retained water, is produced by acceleration to the that atoms are subjected by latent heat at the base or projected support, said acceleration is transmitted to the water and this It is forced to evaporate, thus slowing down the speed of the atoms and therefore the cooling of the support occurs projected and by convection of the ascending air inside, the Refrigeration is transmitted to the environment. The cooling system and construction insulation described reaches yields by square meter between 20 and 70%, depending on the humidity relative air, wind speed and solar radiation. By way of an example, an industrial building of 100 square meters that the cooling system has been applied to its sheet metal cover and insulation of buildings and with a wall and roof exposed to sun, a relative humidity of 20%, an outside temperature of 45 degrees Celsius and a wind speed of 10 km. Hour, the indoor temperature ranges between 25 and 27 degrees centigrade

The cooling and insulation system of constructions for its operation has a drip net or spray that is actuated by an electro-valve, dependent on a humidity control circuit, which handles to automatically maintain a pre-determined moisture in the cell mass. Drip or spray devices, electro-valves and humidity control, are commonly known and there is a wide variety for each type of request.

Brief description of the drawings

For the best understanding of how much is left described herein, some drawings are attached in the which, by way of example only, represent the system of building cooling and insulation. In these drawings the Figure 1 is a graphical view of the system and Figure 2 corresponds to a practical realization.

Description of a preferred embodiment

The embodiment referred to in the illustration on page 8 figure 2, corresponds to an application practice of the cooling and insulation system of constructions motive of the invention, which we will describe: It is about cooling the interior of an industrial building, for this the colored cell mass has been projected on the roof or roof white (1), a water sprinkler is also installed on the deck (4) plus a humidity sensor or detector, both devices have connected to the control box (6). The system for your operation requires a water outlet (5) and a light point for connection to the control box. Once described and listed the elements that make up this installation of refrigeration, we will describe its practical operation: commissioning is done by the switch located in the control box (6) once placed in running position, gives start the operation of the cooling system and building insulation. If the humidity detector detects lack thereof, the electro-valve located in the control box (6) opens its water passage to the sprinkler (4) the which is responsible for moistening the cover (1), until again the pre-programmed humidity detector, and order the closing of the electrovalve. Once moistened the cover starts evaporation, due to latent heat (2) of the interior of the ship, solar radiation (7), speed of wind (8) and relative humidity. In this way by convection excess heat is removed from inside the ship. Yes what I know you want to have thermal insulation on the roof or roof, it proceeds to place the switch in the stop position in this way the projected mass due to its structure, density and low coefficient of Thermal transmission k acts as thermal insulator.

Claims (2)

1. Construction cooling and insulation system, characterized by being able to produce cooling and insulation on the supports where it is applied, the system is based on the following principles: light reflection, being white, insulating for being formed by multiple layers of small white cellular cement flakes, produced by the mixing and beating of cement, water and surface active agents, which are pumped and driven by hose to the projection nozzle, which by blowing air, breaks the micro aerated mass, producing this breakage the formation of micro-aerated cement flakes that are projected with time intervals to achieve a union with each other by small points, in this way the kinetic transmission of solar energy is low because it contains holes between the junctions of the flakes, The cooling occurs when the support where the application was made is moistened with water or other coolant. The humidification system can vary depending on the support, size and use that is given to the building cooling and insulation system, it can be done with mini sprinklers, diffusers, nebulizers and wicks of water capillary absorption fiber in contact with the projected mass , and its subsequent evaporation by the action of wind, sun or mechanical ventilation. The resulting cell formation due to its thousands of holes is able to absorb and retain water due to the capillary effect of the holes and the cellular structure of the flakes. The basis of the composition is: cement, water, and foaming surfactants. 2. Procedure of formation of the system of refrigeration and insulation of constructions characterized by the projection of the mass in the support at sufficient time intervals, so that each layer does not deform the previous one, this is done in repeated cycles. The number of layers ranges between four and ten, thanks to this training procedure the system can be applied to different supports both vertically and horizontally, and on various materials, walls, ceramics, sheet metal among others, in case it is not compatible The adhesion of the support to be applied is previously applied with a primer of resins or rubber with sandblasting. Among other practical uses, the system is applied to roofs of houses, commercial and industrial buildings, construction booths, containers.