EP1863742A1

EP1863742A1 - Liquid container

Info

Publication number: EP1863742A1
Application number: EP05714712A
Authority: EP
Inventors: Yves Kraushaar
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-03-23
Filing date: 2005-03-23
Publication date: 2007-12-12
Also published as: WO2006099750A1

Abstract

The invention relates to a liquid container for holding liquids, comprising a closed hollow body with at least one inlet/outlet opening (3). The invention is provided for holding non-carbonated liquids, and to this end, at least the sidewall (2) of the hollow body is provided with a three-dimensional honeycomb pattern (4). This three-dimensional honeycomb pattern (4) surround an energy field that it generates inside the liquid container. This energy field exerts an intensely stimulating and harmonizing effect upon the water molecules inside the liquid container.

Description

liquid container

The present invention relates to a

Liquid container according to the preamble of claim 1 ^' and its use according to claim 12.

Liquid containers basically have the task of storing liquids, i. save. Depending on the type of liquid, a wide variety of requirements are placed on the material of the liquid container, e.g. in terms of corrosion behavior or taste transfer etc.

In the food industry, liquids typically have an expiration or expiration date, i. it must often perishable liquids stored resp. get saved. The aging process of such liquids is often associated with the oxidation with the surrounding air, so that containers for longer storage of liquids are usually formed lockable. The closure also facilitates the transportability and storage of such containers.

But even with closed containers, the liquid in the container is exposed to different influences, which cause a slow change in the properties of the liquid. Especially in the storage of water has been shown that its properties change greatly purely by the storage in containers, even in a closed airtight containers. This is particularly true in relation to the living and vital energy of the water, which manifests itself through movement of the water molecules. In the natural movement of water in streams, such as in rivers or streams, the movement is constantly stimulated and leads by the swirling of the water to an increased binding of oxygen. These movements are slowed down and suppressed when storing water in conventional containers such as glass, metal or ceramic bottles, resulting in dulling of this energy in the water.

The object of the present invention was to find a container which slows or stops this Devitalisierungsprozess and receives the vital energy of the water even with static storage in the container over a long time.

This object 'is achieved according to the invention by a liquid container with the features of claim 1. Further, preferred embodiments of the inventive liquid container result from the features of the further claims 2 to 11.

In the inventive liquid container for storing liquids with a closed hollow body with at least one resp. Outlet opening, at least the side wall of the hollow body is provided with a three-dimensional honeycomb pattern. This three-dimensional honeycomb pattern builds around and in the liquid container on an energy field, which exerts a strong invigorating and harmonizing effect on the water molecules within the liquid container. By virtue of this action, the liquid, preferably water or any other non-carbonated liquid, naturally remains alive and vital over a long period of time.

Preferably, the honeycomb pattern is formed by raised or recessed lands and extends over the entire depth of the sidewall. That at least the side wall of the liquid container is formed from the honeycomb pattern. Advantageously, the edge of the honeycomb pattern can be formed from webs of equal width, while the interior of the honeycomb pattern is closed by a thinner area compared to the webs. Alternatively, wavy or spiral-like patterns may be used instead of the polygons.

Preferably, the honeycomb pattern is formed by hexagonal or octagonal polygons as basic elements which are directly connected to each other. It has been shown that straight hexagonal or octagonal polygons are particularly well suited as a basic shape for producing the honeycomb pattern. On the one hand, their geometric arrangement allows an optimal arrangement of the patterns to virtually any geometrically shaped, three-dimensional bodies and on the other assets such patterns can build a particularly strong and regular energy field.

Preferably, the liquid container has an axisymmetric basic shape with a circular

Floor area and a single, hollow cylindrical opening opposite the ground. Through the symmetry, a homogeneous energy field can be built, which is a can exert optimal effect on the liquid in the liquid container.

Preferably, the wall of the liquid container is formed convexly convex convexly outwards and the opening is at the rounded tip of the

Liquid container formed. This form supports the action of the energy field and has an invigorating character on the liquid in the liquid container. Preferably, the liquid container is constructed in one piece and consists of glass, ceramic or plastic, preferably PET. Thus, such liquid container can be produced easily, efficiently and inexpensively with known manufacturing processes. Depending on the application, preference is given to glass, ceramics or plastic.

Preferably, the liquid container has a ruby red or blue to blue-violet color resp. Tint on. It has been shown that this color choice further supports the invigorating and at the same time aseptic effect on the liquid in the liquid container.

Preferably, in the interior of the liquid container, a cavity projecting into the interior, closed to the inside cavity is formed. Preferably, an energenized material is disposed within the cavity. By arranging such a material, which is practically in the interior of the liquid and yet separated from this and thus can act from inside to outside, which can invigorating and harmonizing effect of the honeycomb pattern of the liquid container to the molecules of the liquid reinforced and preserved in particular. This further leads to the very long-lasting effect on the liquid and leaves it for a very long time in the original liveliness and vitality remain.

Should it be in the energetic sense weak or even dead or molecularly motile inactive liquids, they can be reanimated by the shaking and the associated turbulence of the liquid again or energetically alive.

Preferably, the cavity is formed by a projecting from the bottom of the liquid container upwardly cone, pyramidal or egg-shaped body whose wall is also provided with a three-dimensional honeycomb pattern. This measure also optimally supports the formation of the energy field on the liquid. Preferably, the energenized material has a rod, cone, pyramid or spiral shape and is preferably in communication with the bottom of the liquid container. Thus, for example, a rod made of this material can be easily after the production of the liquid container from the outside in the bottom area in the

Insert the cavity and, if necessary, remove it again or replace it if necessary.

Preferably, the material is tachyonized or magnetized. Tachyons are fast moving electric charged molecules and rods treated in this way have an extremely long action time of more than 1000 years. Thus, such rods must not be replaced even after long-term use, since their effect is virtually unchanged or even reduced.

According to the invention, the use of such a liquid container for the storage of water is claimed. It has been found that the effect of the liquid container according to the invention, especially on water, is very great and can ensure the storage of drinking water of constant quality over a longer period of time.

Embodiments of the present invention will be explained in more detail below with reference to figures. Show it

Figure 1 is a view of a liquid container according to the invention.

2 shows the partial section through the liquid container according to Figure 1; 3 shows the partial section through a further inventive liquid container with energenized material in the region of the container bottom.

In Figure 1, a liquid container according to the invention is shown, which specifically for the storage of water, especially drinking water, but also for each Non-carbonated liquid with optimal results is suitable.

The liquid container is in the form of a bottle with a round bottom 1, convexly outwardly curved side wall 2 and an opening 3 arranged at the top.

Virtually the entire side wall 2 from the bottom of the bottle to the spout shoulder is formed by a three-dimensional honeycomb pattern 4. In this case, the size of the honeycomb 4 varies from the bottom 2 upwards to the opening 3, in that the largest honeycomb 4 are formed in the region of the largest diameter of the bottle and, in particular, smaller in dimension in the upwardly tapered region.

The honeycomb 4 are formed by interconnected webs 5, with arranged between these webs 5 surfaces 6 to form the closed side wall 2 of the bottle.

The illustrated bottle of the invention has an octagonal or octagonal honeycomb pattern, i. the honeycomb 4 are constructed as regular octagons. The illustrated arrangement of these honeycomb 4 arise between the octagonal honeycomb 4 square interstices 7, which are also formed closed flat.

Such a three-dimensional honeycomb pattern now builds on and, especially in the bottle itself, its own natural energy field, as basically every body forms a vibrational structure due to its structure and mass and thus emits an energy field. It has now been found that the arrangement of such a honeycomb pattern as a side wall of a bottle exerts a strong invigorating and harmonizing effect on the liquid in the bottle. This particular example of water whose molecules are positively excited by the energy field in this sense.

This effect is further supported by the rounded basic shape of the bottle itself, as well as by the special color and / or material choice of the bottle. Thus, the use of ruby red or blue to blue violet colored glass has proven to be particularly suitable.

For a simple and cost-effective production, such a liquid container can also be produced well from PET (polyethylene terephthalate). For filling and pouring the liquid has such

Liquid container on a conventional, advantageously closable opening 3.

The effect of the honeycomb pattern can be enhanced by preferably short, rhythmic shaking the bottle with liquid therein. The arrangement of the three-dimensional honeycomb pattern on the inside of the side surface 2, a strong turbulence and thus vitalization of the liquid in the bottle is achieved. This is associated with an increased oxygen binding of the liquid, which leads to an optimal aeration of the liquid and thus allows the redox potential of the liquid to settle to an optimum value. FIG. 2 shows the partial section through a bottle according to FIG. It can be seen that the honeycomb pattern convexly extends on the inside of the side wall 2. In the example shown, the webs 5 and the surfaces 7 of the intermediate elements are formed as depressions and the surfaces 6 project as elevations easily from the side wall 2 to the inside.

Further, in this figure 2, the cavity formed by a rounded cone 8 on the bottom 1 of the bottle can be clearly seen. The surface of this cone 8 has a convex honeycomb pattern analogous to the inside of the side wall 2 of the bottle. According to the curvature of the cone 8, these honeycombs advantageously have different dimensions, ie at the tip of the rounded cone 8 the honeycombs 4 'are smaller than the honeycomb 4' ¹ in the lower region of the cone 8.

FIG. 3 shows the partial section through a further liquid container according to the invention, with the cone 8 also being partially cut in this container.

Basically, this liquid container has the same structure as the liquid container of Figure 1, respectively. Figure 2 on. From this figure it can be seen that the cone 8 surrounds a arranged in the bottom region of the liquid container cavity 9, which is closed by the bottom 1 of the liquid container. Within this cavity 9, a magnetic or Tachyon rod 10 is now preferably arranged. Tachyon rod 10 consists of an energized solid that causes non-directional energy radiation due to rapidly moving electrically charged molecules. This Tachyon rod 10 is advantageously inserted from below through the bottom 1 in the cavity and fixed to the bottom 1, so that it does not touch the wall of the cone 8. The Tachyon rod 10 can be firmly connected to the ground 1 or at most solvable resp. be exchangeably connected to the bottom 1.

Since such a tachyon bar 10 can function for a long time, up to over 1000 years, it does not need to be replaced for use in a liquid container. However, such a magnetic or Tachyon rod 10 can be reused for use in another liquid container, for example, if the first liquid container is defective or should no longer be used. For this reason, releasably securing the tachyon bar 10 to the bottom 1 of the liquid container may be advantageous.

The honeycomb pattern may be constructed with hexagonal honeycombs instead of using octagonal honeycomb 4 to achieve the same effects.

Claims

claims

1. liquid container for storing liquids with a closed hollow body with at least one resp. Outlet opening (3), characterized in that at least the side wall (2) of the hollow body is provided with a three-dimensional honeycomb pattern.

2. A liquid container according to claim 1, characterized in that the honeycomb pattern is formed by raised or recessed webs (5) and over the entire depth, respectively. Thickness of the side wall (2) extends.

3. A liquid container according to claim 1 or 2, characterized in that the honeycomb pattern is formed by hexagonal or octagonal polygons (4) as basic elements which are directly connected to each other.

4. A liquid container according to one of claims 1 to 3, characterized in that it has an axisymmetric basic shape with a circular bottom portion (1) and a single, hollow cylindrical opening (3) relative to the ground.

5. A liquid container according to claim 4, characterized in that the side wall (2) of the liquid container is convexly convex convex outwardly formed and the opening (3) is formed at the rounded tip of the liquid container.

6. A liquid container according to any one of claims 1 to 5, characterized in that the liquid container is constructed in one piece and made of glass, ceramic or plastic, preferably made of PET.

7. A liquid container according to claim 6, characterized in that it has a ruby red or blue to blue-violet, preferably transparent color resp. Coloring has.

8. A liquid container according to one of claims 1 to 7, characterized in that in the interior of the liquid container a projecting into the interior, closed to the inside cavity (9) is formed.

9. A liquid container according to claim 8, characterized in that the cavity (9) by a from the bottom (1) of the liquid container upwardly projecting conical

^■ or egg-shaped body (8) is formed, whose wall is likewise provided with a three-dimensional convex honeycomb pattern.

10. A liquid container according to claim 8 or 9, characterized in that in the cavity (9) an energized material (10) is arranged, which preferably has a rod-shaped, conical, pyramidal or spiral shape and preferably with the bottom (1) of the liquid container in Connection stands.

11. A liquid container according to claim 10, characterized in that the material is tachyonized or magnetized.

12. Use of a liquid container according to any one of claims 1 to 11 for the storage of water or other non-carbonated liquids.