BE1018502A3 - PROBIOTIC SOLUTION FOR PROTECTING A SURFACE AND METHOD USING SUCH SOLUTION. - Google Patents

Abstract

Probiotic solution (1) for protecting a surface, characterized in that the solution consists of water (2), a culture of benign bacteria (3) or other benign microorganisms, whether or not in trace form.

Description

Probiotic solution for protecting a surface and method using such a solution.

The present invention relates to a probiotic solution for protecting a surface and method using such a solution.

It is known that on surfaces of walls, structures and installations a biofilm can form in which microorganisms nestle in a hard extracellular matrix consisting of polysaccharides and proteins, and in which the microorganisms are difficult to combat by biocides, because they in the biofilm are 10 to 1000 times less sensitive to biocides.

Such a biofilm is a growth pole of microorganisms that can cause visual contamination, for example in joints, or discolorations such as by molds in cooling installations. The microorganisms can also give rise to odor.

Traditionally, such contamination is addressed through chemical cleaning and disinfecting measures using chemical biocides, such as bactericides and fungicides.

However, this traditional approach has more than one disadvantage.

A disadvantage is that the biofilm allows a low penetration of these biocides.

Another disadvantage is that the chemicals used ultimately cause a burden on the environment, and are also corrosive to materials.

Yet another disadvantage is that these biocides can lead to mull tires and tente microorganisms.

An additional disadvantage is that the treatment must be considered time-consuming, expensive and unhealthy.

Another disadvantage is that the effectiveness of the treatment is often temperature dependent and cannot be applied in all seasons and circumstances.

The present invention has for its object to provide a solution to the aforementioned and other disadvantages, in that it offers a surface protection using a probiotic solution consisting of water containing a culture of benign bacteria, or other benign microorganisms, whether or not in track shape.

By benign we mean that the microorganisms: - are not genetically manipulated; - are edible for humans; - toxicologically and dermatologically safe for humans; - do not cause skin hypersensitivity or irritation; - do not cause eye irritation; - do not show acute oral toxicity; - do not cause any damage to the mucous membranes.

An advantage of this invention is that the surface protection offers a semi-permanent and probiotic protection layer, which can be renewed quickly and easily.

Another advantage is that this surface protection dissolves or at least penetrates the biofilm.

Yet another advantage is that this surface protection forms a preventive buffer against attack, by preventing or reducing microorganisms other than the probiotic microorganisms used.

An additional advantage is that the surface protection can be applied from an aqueous carrier without organic solvents, and this in an easy and inexpensive way, in any season and on any surface.

Optionally, a colored pigment can also be added to the probiotic solution, which is environmentally friendly, such as a clay-based pigment.

The probiotic solution can optionally also be kept colorless by using a colorless pigment or by omitting a pigment.

Optionally, odor-releasing ingredients can also be added to the probiotic solution that are not harmful to the probiotic microorganisms, such as menthol or other fragrances.

An additional advantage is that the pigments that are added provide a desired visual aspect. For example, a white pigment can be added for use in wall panels and structures, such as in the food industry and in cold stores. For example, a green pigment can be used for the protection of heat exchangers, evaporators, cooling installations and HVAC (heating, ventilation and climate control) installations. A colorless pigment can also be added for the treatment of tiles, joints in sanitary and hygienic applications and in evaporators.

Preferably, a binder, such as an environmentally friendly latex, is added to the aqueous solution of the probiotic microorganisms to promote the stability and processing of the solution.

The method by which the probiotic solution can be applied to the surface to be protected can use a roller, a paintbrush, or a spraying device.

In a preferred embodiment, the surface to be treated is pre-treated with a probiotic cleaning solution. The probiotic cleaning solution contains soaps with a degreasing action but also already a starting culture of the organism of the probiotic solution which is later applied to the surface. Pre-treatment with biocides must be avoided.

Examples of treatable surfaces are wall panels and ceilings, concrete walls, metal structures, heat exchangers, evaporators, leak pans and air handling units.

An important advantage of this method is the savings that are possible with this surface protection: an inexpensive visual refresh is offered; panel renewal can be avoided; return of fungi can be prevented; - compliance with HACCP audits (Hazard Analysis & Critical Points) can be offered; - savings on cleaning of - 75% can be achieved; a long-term care plan with maintenance treatments according to intervention schedules is offered.

With the insight to better demonstrate the characteristics of the invention, a preferred embodiment of the invention is described below as an example without any limiting character, with reference to the accompanying drawings, in which: Figure 1 schematically shows the composition of the probiotic solution ; Figure 2 shows the methods for applying the probiotic solution to a surface.

Figure 1 shows schematically the composition of the probiotic solution 1: the ingredients consist of water 2, a culture of benign micro-organisms 3, optional nutrients 4 for the micro-organisms, optionally a binder 5 and optionally a pigment 6.

Figure 2 shows the methods with which that probiotic solution 1 can be applied to the surface, in particular with a roller 7, with a paintbrush 8, or with a spraying device 9.

The operation of the probiotic surface protection is very simple and as follows. The benign micro-organisms 3 colonize the surface and protect it against ingestion by unwanted organisms. If they are already present, they are pushed back by the benign microorganism 3, as long as the benign microorganisms 3 have nutrients 4 at their disposal. The surface is therefore biologically stabilized.

The ingredients used are environmentally friendly because they consist of water 2, benign micro-organisms 3 such as Bacillus subtilis, pigments 6 based on clay that are not environmentally harmful, and natural nutrients 4 for the micro-organisms. Optionally a binder 5 is added such as an environmentally friendly latex.

Environmentally harmful ingredients, such as organic solvents, are not used.

The method of applying the probiotic composition to the surface uses a roller 7, a paintbrush 8 or a spraying device 9, wherein the probiotic solution 1 is usually applied in two to three layers.

Optionally, the surface can be pretreated with a probiotic cleaning agent that is biocide-free, contains degreasing soap components and also contains a starter culture of the microorganisms used in the probiotic solution 1, which is subsequently applied.

The present invention is by no means limited to the exemplary embodiment and shown in the figures, but a composition according to the invention can be realized in all kinds of variants with all kinds of techniques without departing from the scope of the invention.

Claims (11)

Probiotic solution (1) for protecting a surface, characterized in that the solution consists of water (2), a culture of benign bacteria (3) or other benign microorganisms, whether or not in trace form. Probiotic solution (1) according to claim 1, characterized in that it contains nutrients (4) for the benign microorganisms (3) present in the solution. Probiotic solution (1) according to one of the preceding claims, characterized in that an environmentally friendly binder (5) such as a latex is added to it. Probiotic solution (1) according to one of the preceding claims, characterized in that the solution contains a colored pigment (6) that is environmentally friendly. Probiotic solution (1) according to claim 4, characterized in that the pigment (6) is a clay-based pigment. Probiotic solution (1) according to claim 4 or 5, characterized in that the solution is colorless by the use of a colorless pigment (6), or by omitting a pigment. Probiotic solution (1) according to one of the preceding claims, characterized in that as a benign microorganism at least in part Bacillus subtilis spp. is used. Probiotic solution (1) according to one of the preceding claims, characterized in that the solution contains odor-giving components that are not harmful to the microorganisms (3) present. Method for protecting a surface, characterized in that it uses a probiotic solution (1) according to one of the preceding claims, which is applied to the surface to be protected. Method according to claim 8, characterized in that the aqueous probiotic solution (1) is applied with a roller (7), a paintbrush (8), or a spraying device (9). Method according to claim 9, characterized in that the surface to be protected is pretreated with a probiotic degreasing cleaning solution that is biocide-free and already contains a culture of the microorganism to be applied.