LIGHT MINERAL ORGANIC INSULATION

Abstract

The summary of the utility model describes a light mineral organic insulation product that is characterized by the modification of elements found in nature and the environment which, through the process described above, lead us to obtain this insulation which Due to its characteristics and composition of the elements described and its great advantages in the use of resources that are polluting to the environment, it will generate a great impact in the construction industry because, among other advantages, costs are considerably reduced, as well as the times of installation which will optimize human resources saving man-hours because its installation is extremely simple and the materials are light and manageable.

This isolation aims to strongly promote a new generation of less aggressive proposals for the planet that will have repercussions for the benefit of future generations.

Claims

1. A constructive panel with insulation properties characterized by: a) being reconstituted from light mineral organic Insulation material; and b) such light mineral organic Insulation material being the recovery of products found in nature or being recycled of inorganic garbage that has natural fiber content.

2. A process for obtaining the constructive panel of claim 1, comprising: a) submitting all inorganic elements of the light mineral organic Insulation material through a grinding process; b) integrating all grinding elements obtained thereof with recovered or treated water until reaching their cellular level; c) by performing previous steps, obtaining a smooth paste; and d) once obtained such paste, adding a water-based binder agent.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] Characteristics of my insulation are extremely simple, as can be seen in the drawings that follow, the test carried out gives us an element in which the effectiveness of joining them is proven. The figures shown are examples of the materials and should not be considered as limiting for this utility model.

[0024] FIG. 1 This figure shows representative elements found in nature such as dry leaves, grass, wood, bark and all those elements that are found in their natural state in green areas.

[0025] FIG. 2 This figure shows waste materials that can be recycled in the process of this model, which must be derived from paper such as cardboard, newspaper, magazines, cardboard packaging and all materials that can be recycled, excluding plastics.

[0026] FIG. 3 This figure shows a water-based binder agent which is what will give the agglomerate of the materials to form the LIGHT MINERAL ORGANIC INSULATION.

[0027] FIG. 4 this figure shows the LIGHT MINERAL ORGANIC INSULATION once the crushing, mixing and compaction processes were carried out

DETAILED DESCRIPTION OF THE INVENTION

[0028] Light mineral organic insulation is a product that can be used to insulate walls and ceilings in various forms such as panels or plates of different dimensions and with different densities depending on your application, it can be used to manufacture lightweight structural walls or bulk fill in cavities or prefabricated, metal or wooden construction spaces

[0029] The invention is an insulating product comprising custom made panels that form an insulating and thermal barrier on walls and ceilings. The advantages of this insulation is an integrated mixture of raw materials that exist in abundance in nature as well as an important recovery of recycling materials that contain natural fibers that, even when processed all together and agglomerated with a minimum of binder, we have a very low product environmental impact resistant to direct fire and extreme cold conditions that provides high performance comfort.

Preferred Realization of Utility Model

[0030] Referring to the illustrations to carry out the realization of this utility model I explain in a simple way the process

[0031] With reference to FIGS. 1, 2, 3 and 4 we will detail the following steps:

[0032] A) Collection of waste found in nature

[0033] B) Collection of recycling materials composed of natural fibers (paper, cardboard, and their derivatives)

[0034] C) Mix of both materials, with a light water-based binder

[0035] D) Pressing and compacting the materials

[0036] The utility model is described in a simple way in such a way that it can be manufactured by anyone with knowledge in the field and obtain results similar to ours, the technique that corresponds to this utility model may be capable of making modifications that are not described in the present application, however, in the manufacturing process of the same, the following claims require the claimed matter.