FR3026274A1 - JARDINIERE PROMOTING VEGETABLE GROWTH - Google Patents

Abstract

This planter has at least one side wall (3) and a bottom wall (2) defining a receiving volume, open on one side, a substrate (19) for cultivating at least one plant (6). It comprises a member (12), removable, at least partially closing the opening of the volume of the planter and in that the member (12), in the closure configuration, is not in contact with the substrate (19) and delimits a buffer zone (17) separating the substrate (19) from the outside.

Description

The present invention relates to a planter favoring the growth of plants. Here, the term "plants" should be understood as designating decorative plants, flowers, shrubs, small trees or vegetables, whether these plants are intended for private or public use, for example for urban flowering . Thereafter, the terms "plants" and "plants" will be used interchangeably. The term "planter" denotes a container, of varying shape and size, made of a material resistant to external conditions, for example polymers, terracotta, concrete or other. This container is intended to receive plants and to ensure their growth. For this, it is necessary that the plants have a regular irrigation. In fact, the limited amount of substrate, usually soil or potting soil, confined to the volume defined by the gardener, implies that the water supply for the plants must be regular and, in any case, more important than for a plantation in the ground. Garden planters, such as those disclosed by EP-A-1 645 179 or EP-A-1 295 526, equipped with a double bottom forming a reserve of water, are thus known. This reserve can also be located in double side walls, such as those of the planter described in EP-A-2 018 804. It turns out that even with such water reserves, when the gardener is outside the Evaporation is important and impacts the amount of water available to the plant. In addition, an outdoor gardener is subject to climatic hazards and, in particular, thermal differences. These thermal differences are even more penalizing for the plants that they are amplified by the nature of the material constituting the gardener. In other words, a planter in a plastic material, so polymer, will tend to amplify the high or low temperatures. As a result, garden plants are more prone to dieback, or at least to have low growth due to increased sensitivity to climatic conditions and water requirements.

The invention aims more particularly to overcome these disadvantages by proposing a planter favoring the growth of plants, while being simple to manufacture and use. To this end, the invention relates to a planter comprising at least one side wall and a bottom wall delimiting a receiving volume, open on one side, of a substrate for cultivating at least one plant, characterized in that it comprises a member, removable, at least partially closing the opening of the volume of the planter and in that the member, in the closure configuration, is not in contact with the substrate and defines a buffer zone separating the substrate from the outside.

By producing such a member, a buffer zone is defined above the substrate, formed by air, providing on the one hand a thermal insulation between the outside and the substrate and, on the other hand, limiting the evaporation by the presence of the organ which, de facto, promotes condensation. According to advantageous but non-mandatory aspects of the invention, such a planter may include one or more of the following features: the closure member is made of at least two parts. - The shutter member is made in one part. - The member is provided with at least one orifice ensuring the passage of plants between the substrate and the outside. - The body is provided with at least one water passage between the outside and the inner volume of the planter. - The body is provided with a central hole for the passage of a carrier mat, to position several planters on several levels. - At least one locking member in translation ensures the blocking of the insertion of the shutter member in the volume of the planter to a predefined height. The invention will be better understood and other advantages thereof will appear more clearly on reading the description of various embodiments of the invention, given by way of non-limiting example and with reference to the following drawings in which: - Figure 1 is a top view of a planter according to one embodiment of the invention, before the establishment of a closure member and a culture substrate, a double bottom being in position in the planter, - Figure 2 is a top view, on the same scale, of the planter of Figure 1, a shutter member being in place on the planter, the plants are not illustrated for more 3 is a top view, on the same scale, of a constituent part of the closure member illustrated in FIG. 2 and FIG. 4 is a sectional view along line IV. IV in Figure 2, on the same scale, plants being illustrated schematically and the planter being represented without double bottom for more readability. Figure 1 illustrates a planter 1 according to one embodiment of the invention. Here, the planter 1 globally has a hemispherical shape. It comprises a bottom wall 2 and at least one side wall, in this case a circular wall 3 whose free edge 4, continuous, is not rectilinear but corrugated. This edge 4 defines an opening 5 to access the internal volume V of the planter 1. Here the planter has a double side wall, which contributes to the insulation. Alternatively, it is a single-walled planter. In use configuration, that is to say with plants 6 in place in the internal volume V containing a substrate 19, the planter 1 being positioned so that the plants 6 are visible by an observer while having access to light for their growth, the planter 1 rests on the ground or on another support by its bottom wall 2. The opening 5 is then oriented upwards relative to the ground or the support. In other words, the orientation of the opening 5 is adapted to ensure growth of the plants.

It is conceivable that such planters can be arranged on several levels. They are then, for example, fixed at different heights on a vertical carrier mat 10, such as that shown in FIG. 4. In this case, the bottom wall 2 does not necessarily rest on a support but, for some planters, is oriented towards the opening 5 of the planter 1 located on the lower level. Such a planter is illustrated in Figures 1 to 4. In Figure 1, the bottom wall 2 receives a double bottom 7, provided with reliefs 8 perforated. Here, in Figure 1, only the double bottom 7 is visible. The reliefs 8 are, in this embodiment, arranged in a star around a central housing 9 intended to receive the carrier mat 10 shown in Figure 4. Through the orifices 11 of the reliefs 8, the roots of the plants 6 planted in the planter 1 have access to the water contained between the bottom wall 2 and the double bottom 7, this of course through the substrate 19 in which the plants are planted, in the configuration of use of the planter. It is conceivable that the invention also relates to planters without a double bottom and planters provided with another type of double bottom. FIG. 2 illustrates an embodiment of an element 12 for closing, at least partially, the opening 5 of the planter, in accordance with one embodiment of the invention. Here, the closure member 12 is adapted to close the entire area of the opening 5. It is in two parts 120, 121 identical in terms of shapes and dimensions. A single portion 120 or 121, flat and solid, is illustrated in Figure 2, it being understood that here the two parts 120, 121 are identical. Each part 120, 121 is part of a semicircle. Thus, when the two parts 120, 121 are joined by their respective straight edges 122, 123, the member 12 is substantially disk-shaped. In all cases, the member 12 has a shape complementary to that of the opening 5 of the planter 1. The member 12 is made of a rigid material, lightweight, easy to machine and inert vis-à-vis conditions environmental aspects while being plant neutral. This is, for example, polystyrene foam or other material. This member 12, in addition to its intrinsic physicochemical characteristics, in particular its thermal conductivity, has a thickness sufficient to thermally isolate the substrate present in the internal volume V from the outside when the member 12 is in position on the opening 5 of the planter 1. Advantageously, it has a thickness of between 15 mm and 60 mm. Such a thickness range ensures optimal rigidity and thermal insulation while having a bulk and a weight of the organ 12 mastered.

An opening 13, at the notched edge, is arranged in the central position of the member 12. In FIG. 2, a half-opening 13 is illustrated, knowing that the circular opening 13 is formed by the union of the two parts 120, 121 The opening 13, visible in Figure 3, is intended to allow the passage of the support mast 10 when the member 12 is in place in the planter 1. In other embodiments the shape and / or the position of the opening of passage of the mat are different, while being adapted to those of the mat. It is conceivable that when the planter 1 is not intended to be part of a set of planters on several levels, the presence of a mat 10 and therefore a housing 9 and an opening 13 are not necessary .

Circular and through orifices 14, in this case three in each part 120, 121 are here six in total, are also made in the member 12. The orifices 14 ensure the passage of the plants 6 from the internal volume V to outside in configuration of use of the gardener. In other words, it is through the orifices 14 that the plants extend outwards and are visible by an observer.

The rounded edge 150, 151 of each portion 120, 121 constituting the member 12 is non-circular n namely corrugated here. In this way passages 16 are made between the circular wall 3 of the planter 1 and the edges 150, 151 of the member 12 when the latter is in place on the planter 1. These passages 16 ensure the flow of water from the outside in the direction of the substrate 19 and thus allow the irrigation of the plants 6. It is conceivable that these passages 16 have dimensions and / or are such that they ensure the passage of water irrigation or rain without promoting evaporation and without permanently affecting the thermal insulation capabilities of the member 12 in place on the planter 1. In any case, regardless of the shape and / or dimensions of the opening 5 of the planter 1, the member 12 has a shape and dimensions complementary thereto. In particular, in the embodiment described, the dimensions of the member 12 are slightly greater than those of the opening 5 so as to be able to force insert the member 12, or more precisely the two parts 120, 121 constituting the the member 12, in the opening 5. Thus, the parts 120, 121 are held in position while being easily removable. For this purpose, one of the orifices 14 made in the member 12 is used as a pull handle, or such a handle, flexible, articulated or rigid is provided. In another embodiment not illustrated, the member 12 and the planter 1 are connected by a hinge or other hinge device known per se. Such a hinge device is adapted to allow the pivoting or translational movement of the closure member, or at least a portion of the latter, relative to the planter 1. In other words, in such an embodiment, the member 12 is similar to a lid, at least a portion of which is movable in rotation or in translation, in order to access the internal volume of the planter 1. In a variant not shown, the body of Shutter is in one part or in more than two parts, as needed, especially depending on the size and / or shape of the planter. As is particularly apparent from FIG. 4, when the member 12 is in the shutter configuration on the opening 5 of the planter 1, the slightly larger dimensions of the member 12 relative to the opening 5 make it possible, when the restriction of depression, by jamming, of the member 12 in the opening 5, to define a buffer zone 17 between the upper face, free, 18 of the substrate 19 and the face 20 facing the member 12. The buffer zone 17, de facto a volume with air above the substrate 19, extends over the entire area of the upper face 18 of the substrate 19 and a height H between 1 mm and 5 mm. A substrate-free buffer zone 17 is thus defined, in which the air forms a natural thermal insulator whose effect is added to the thermal insulation effect of the material constituting the element 12. as there is a thermal gradient between the substrate 19 and the air constituting the buffer zone 17, condensation is observed on the lower face 20 of the member 12. This is the condensation of the water of the evaporation contained in the stagnant air above the free face 18 of the substrate 19. This condensation thus maintains a constant relative humidity, as far as possible, in the buffer zone 17 and thus limits the loss of water by evaporation . De facto, watering is carried out, inter alia, by condensation, resulting in less compacting of the substrate and optimum conversion of nitrites into nitrates assimilated by the plant, resulting in faster plant growth and less cultivation time. greenhouse less. This culture time can be divided by two. In other words, humidity and temperature conditions are achieved in the buffer zone 17 which are favorable for the growth of the plants 6 or at least which limit the effects of the external environmental conditions on the growth of the plants contained in a planter 1. So we limit the evapotranspiration and thermal stress of plants. By way of example, tests were carried out with two identical planters 1, in shape and size, containing the same quantity of the same substrate 19 and planted, at the same time, with the same number of identical plants, namely petunias. Only one planter 1 is provided with a shutter member 12, in place all the time of the tests. After 40 days of outdoor cultivation, in June and July, the two planters received the same amounts of water and under the same conditions, a cut of the plants was carried out and the weight of biomass measured. It turns out that, for the gardener 1 witness, the weight is 990 g and for the planter equipped with the shutter member of 1452g. It has also been found that the frequency of watering is at least halved. Thus, it is shown that the organ 12 allows a significant increase in the biomass. In addition, the appearance of the plants present in the two planters was compared, before the cutting of the latter. It turns out that the planter 1 equipped with the shutter member 12 has plants whose visual appearance is better than that of the plants of the sample planter. In particular, the colors are more beautiful and the plants are devoid of stains and / or discoloration. Flowering starts earlier and ends later in the season. Although in Figure 4, for clarity, the height H of the buffer zone 17 is not to scale, and that, in reality, this height H is lower, it remains that there should be no contact between the member 12 and the substrate 19.

The height H of the zone 17 is sufficient to have an insulating effect and to promote condensation, thus the growth of the plants. For example, in a mode of implementation of the member 12 on the opening 5 of the planter 1, it is inserted in force the latter, without going beyond a light contact with the free face 18 of the substrate 19, i.e. stopping the insertion when the resistance to the insertion movement increases. By basting, via the orifices 14 or 16, the substrate 19 induces a settlement of the latter, thus a withdrawal of its free face 18 greater than the face 20 of the member 12 and c the stop of the contact between the substrate 19 and the member 12, therefore, de facto, the realization of the buffer zone 17.

In another embodiment, not illustrated, the planter 1 is provided on the inner face of its circular wall 3 with at least one locking member in translation, for example a lug, extending radially inwardly of the volume internal V of the planter 1. This blocking member limits the insertion of the closure member 12 into the opening 5 while defining a predetermined height H of the buffer zone 17.

As a variant, a set of blocking members in position or the possibility of moving this member makes it possible to define several heights H of the zone 17 in the same planter, depending on the plants and / or the environmental conditions. Of course, when placing the substrate 19, the free face 18 of the substrate 19 should be at a lower level than the locking member, in order to be able to define a height H of the buffer zone 17. planter can improve the resistance of plants, including shrubs or trees, to climatic conditions and temperature differences.

Claims (7)

1. Planter (1) having at least one side wall (3) and a bottom wall (2) defining a receiving volume (V), open on one side (5), of a substrate (19) for culture of at least one plant, characterized in that it comprises a member (12), removable, at least partial closure of the opening (5) of the volume (V) of the planter (1) and in that the member (12), in the closure configuration, is not in contact with the substrate (19) and delimits a buffer zone (17) separating the substrate (19) from the outside. 2. Planter according to claim 1, characterized in that the closure member (12) is made of at least two parts (120, 121). 3. Planter according to claim 1, characterized in that the closure member is made in one piece. 4. Planter according to one of the preceding claims, characterized in that the member (12) is provided with at least one orifice (14) ensuring the passage of plants (6) between the substrate (19) and the outside. 5. Planter according to one of the preceding claims, characterized in that the member (12) is provided with at least one passage (16) of water between the outside and the internal volume (V) of the planter (1). 6. Planter according to claim 1, characterized in that the member (12) is provided with a central orifice (13) for the passage of a carrier mat (10), for positioning several planters (1) on several levels. 7. Planter according to one of the preceding claims, characterized in that at least one translation locking member ensures the blocking of the insertion of the closure member (12) in the volume (V) of the planter (1) at a predefined height (H).