NL1032692C2 - Container and method for keeping plant material. - Google Patents

Description

Container and method for keeping plant material

The invention relates to a container and also a method for keeping vegetable material.

Such containers are known, for example, for growing vegetable material. In general, such containers comprise a container with a horizontal surface around it, which can be arranged around the usage opening at the top of the container and / or can connect various containers, for example in a tray. In use, the container of the container is filled with a substrate in which or on which vegetable material, for example a seed, a cutting or a cultivator, is planted. This vegetable material is then developed by, inter alia, supplying the substrate with food. This feed is often sprayed as a liquid or dissolved in a liquid from above over the container and the vegetable material. The disadvantage here is that a portion of the feed does not end up in the container with the substrate and the vegetable material, but in addition to it.

The object of the invention is to remedy or at least reduce this drawback. To this end, the invention is distinguished in that the surface around the holder is inclined to the holder. Thus it is achieved that food that would otherwise end up next to the container still flows or flows or rolls to where it is intended, namely at the substrate and the vegetable material. In a preferred embodiment thereof, the surface is inclined so that liquid flows on the surface to the container.

In a further embodiment of the invention, the surface is straight. This can be advantageous when manufacturing the container. Namely, similar containers are in fact manufactured according to a method based on injection molding, for which a mold must be manufactured. With certain processing methods that are used in the manufacture of such a mold, straight surfaces are easier to realize. In an alternative embodiment, the surface is curved. In a further alternative embodiment, the surface is hollow when viewed from the top side of the container.

As a result, under the action of gravity, liquid acquires a greater acceleration as the liquid on the surface is further removed from the container. This prevents liquid from being sufficiently inhibited by friction with the surface to remain on the surface. In a further embodiment of the invention, a drain opening is arranged in the container on the underside thereof, in use. Excess liquid can flow out of the container through this discharge opening and the vegetable material does not "drown".

In a further embodiment of the invention, an additional holder is connected to the surface. This embodiment is particularly advantageous with a container that comprises more than one container. Such containers are frequently used, for example, in the cultivation of vegetable material in the form of a culture tray. Such a container comprises a plurality of containers with a surface between the individual containers. The distance between the holders in such a container is determined by the space that the plant material needs to be able to develop. As a result of the qualitative improvement of substrates, containers with increasingly smaller dimensions can be used. This, together with the required distance between the containers, has the consequence that the surface 3 between the containers increases and that, when spraying the container, more liquid can end up next to the containers, instead of therein. Because the surface between the container and the additional container is inclined to the container, all liquid that ends up between the container and the additional container flows to the container. A container with a plurality of containers can thus be realized, wherein - despite the greater distances between the smaller containers - all liquid which ends up between neighboring containers ends up in one of the neighboring containers. In an additional embodiment thereof, an additional surface is arranged between the surface and the additional container, which surface is preferably inclined towards the additional container such that liquid on the additional surface flows to the additional container. This measure has the advantage that all liquid which ends up between the container and the additional container is distributed between the two containers. The additional surface, like the surface, can also be realized in various alternative embodiments: straight, curved, hollow.

In an embodiment of the container with an additional container and an additional surface, in which both the surface and the additional surface are in use hollow, a sharp transition occurs between the surface and the additional surface, on which liquid cannot remain and then to one of the container or the additional container must flow, flow, or roll.

In a further embodiment of the invention with additional container, at least one aeration opening is provided between the container and the additional container in at least one of the surface and the additional surface. The ambient air can move freely through this aeration opening. With this aeration opening and the above-described discharge opening in the holder, the possibility is provided for achieving the same ambient air conditions at the top and bottom of the substrate.

The invention also relates to a method for keeping vegetable material comprising the steps of providing a holder and providing vegetable material in the holder. The method differs from the known techniques by guiding liquid (or other means) to the container, which would otherwise end up next to the container. This can be achieved, for example, by arranging a flexible cloth around the container and pushing the cloth up as soon as it is filled with liquid, as is known with a sunscreen filled with water by the rain. Thus, the liquid which has ended up on the cloth next to the holder nevertheless ends up in the holder.

The present invention will be further elucidated hereinbelow on the basis of an exemplary embodiment, which is schematically shown in the accompanying figures. This is a non-limitative exemplary embodiment. In the figures: - fig. 1 shows a perspective view of a container with one holder, - fig. 2 shows a perspective view of a container with a plurality of holders, and - fig. 3 shows a perspective detailed view of the container of figure 2 .

A container 1 is shown in Figure 1. The container 1 has a holder 2 with a surface 3 around it. The holder 2 has a discharge opening 4 on the underside thereof and a use opening on the upper side thereof. The container 2 is filled with substrate 5. In the substrate 5, a plant material shown as plant 6 grows. The plant 6 has 5 leaves 7, a stem 8 and a root system 9. Root 10 is shown seed 10, from which the plant 6 has developed. The surface 3 is inclined towards the holder 2, so that liquid flows on the surface 3 towards the holder 2. Figure 1 shows a space above the discharge opening and the substrate. This space is created when a part of the substrate falls out of the holder through outlet opening 4 and the rest of the substrate forms a bridge above the outlet opening 4. The advantage of this space is that a large surface is realized on the underside of the substrate. that is in contact with the ambient air. Whether such a space is created and how large this space is depends on the structure of the substrate 5.

Figure 2 shows a container designed as a culture tray 11. Culture tray 11 has a plurality of holders 2. Surfaces 14 and 15 are shown between adjacent holders 12 and 13. Surface 14 is inclined oriented toward container 12 and surface 15 is inclined oriented toward container 13.

As a result, liquid flows on surface 14 toward container 12 and fluid on surface 15 toward container 13. Thus, fluid flowing between containers 12 and 13 flows to one of the two containers.

Figure 3 shows a detail of culture tray 11 with holders 2 of figure 2. The holders 2 have outlet openings 4 on their underside. Between the holders 2 an aeration opening 16 is shown, through which ambient air can move freely. Via the outlet openings 4 and the aeration opening 16, it is possible to realize equal conditions of the ambient air on the top and bottom of the contents of the holders 2.

Figure 1 shows a plant that has developed from a seed that is planned in the substrate.

6

A plant also develops from a cutting or a breeding plant that is planted in the substrate.

In Figure 1 the sloping surface is shown straight. However, the surface can also be, for example, curved, concave or convex.

Figure 1 shows a discharge opening on the underside of the holder. This discharge opening can also be absent or be provided at a different location.

In Figure 1, the inclined surface does not form an integral part of the wall of the container. The surface can also be integral with the wall of the container.

In figure 2 the container with 112 holders is shown. These can also be more or fewer holders.

In Figure 2, the surface around each holder 15 has multiple kinks. However, the surface can also be smooth.

In Figure 3, both the discharge openings and the aeration opening are round in shape. These openings can also have a different shape, for example oval, square, rectangular, etc.

Figure 3 shows one aeration opening between four holders. Multiple vent openings may also be provided between four containers.

In figure 3 the aeration opening is shown exactly in the middle between 4 holders. An aeration opening can also be provided at a different location, for instance exactly between two holders.

In Figure 3, the holders have an octagonal shape in cross-section. The cross-section of a holder can also have a different shape, for example round, oval, square, hexagonal etc.

Figures 2 and 3 show each aeration hole in a transition between a surface and an additional surface. This is considered to be the equivalent of a 7 aeration hole provided in at least one of the surface and the additional surface.

1032692

Claims (15)

A container for holding vegetable material comprising: 5. at least one holder with a use opening on top thereof; - a surface which is arranged at least partially around the use opening, characterized in that the surface is inclined towards the holder. Container according to claim 1, characterized in that the surface is oriented so that liquid flows on the surface to the container. Container according to claim 1 or 2, characterized in that the surface is straight. Container according to claim 1 or 2, characterized in that the surface is curved. Container according to at least one of claims 1, 20. and 4, characterized in that the surface, viewed from use, is the top of the container. 6. Container as claimed in at least one of the foregoing claims, characterized in that a drain opening is arranged in the container on the underside thereof in use. Container according to at least one of the preceding claims, characterized in that an additional container is connected to the surface 30. Container according to claim 7, characterized in that an additional surface is arranged between the surface and the additional container. 1032692 Container according to claim 8, characterized in that the additional surface is inclined towards the additional container. Container according to claim 9, characterized in that the additional surface is oriented so that liquid flows on the additional surface to the additional container. Container according to at least one of claims 8 to 10, 10, characterized in that the additional surface is straight. Container according to at least one of claims 8 to 10, characterized in that the additional surface is curved. A container according to at least one of claims 8, 9, 10 and 12, characterized in that the additional surface viewed from use is the top of the additional container hollow. Container according to at least one of claims 7-13, 20, characterized in that at least one aeration opening is provided in at least one of the surface and the additional surface between the container and the additional container. 15. Method for holding vegetable material, comprising: - providing a container - providing vegetable material in the container characterized by: - guiding liquid to the container that ends up next to the container. 1 032692