Light reflecting flower pillars

专利摘要:
Lighter fl echoing flower pillar (1) built with a conical outer shell (2) with several outwardly arched sides. The conical outer shell (2) has on the inside convex surfaces (15) where the incident light (10) re-reflects (ll) and diverges towards a transparent bowl (4) and re-reflects (11) the light further backwards towards the convex inner of the conical outer shell (2). surface (15). The light is also transmitted (12) through the transparent bowl (4) and spread to a transparent pot (5) placed in the bowl (4) which in turn reflects (l l) back the light which finds its way both downwards and upwards in the flower pillar (l).
公开号:SE1100269A1
申请号:SE1100269
申请日:2011-04-11
公开日:2012-10-12
发明作者:Christer Johansson
申请人:Creny Ab；
IPC主号:

专利说明:

The invention It is therefore an object of the present invention to provide a flower pillar which, in harmony with the combination of its external design and its unique inner pots, spreads and reflects the light down into the flower pillar and up to the flowers and plants and which on a easily solves many of the above problems. The brighter fl ekterten flower column is built with a conical outer shell with ett ert outward-curved sides. The conical outer shell, which preferably has twelve sides, has a convex surface on the inside where the reflecting incident light diverges towards a transparent bowl the light further back towards the convex surface of the conical outer shell. The light is also transmitted through the transparent bowl and spread to a transparent pot placed in the bowl, which in turn reflects back the light that finds its way both downwards and upwards in the flower pillar.
Description _: The flower pillar consists of three components. On the one hand, a conical outer shell with a number of upwardly curved sides (preferably twelve). Secondly, a conical transparent bowl which is adapted and immersed in the conical outer shell, so that the bowl rests in the middle against the inner surfaces of the conical outer shell and at a height so that the upper edge of the bowl ends up at the same height as the upper edge of the conical outer shell. A conical transparent pot is placed in the transparent bowl which follows the spherical surface of the transparent bowl.
The transparent pot is provided with projecting tumor formations, so that a space is formed between the transparent bowl and the transparent pot, both around and at the bottom. The height of the transparent pot is adjusted so that its upper edge ends up at the same height as the conical outer shell and the upper edge of the transparent bowl.
The structure of the flower pillar with the conical transparent bowl and the transparent pot means that you get a self-irrigation function where the plants absorb the amount of water they need. The indication of the amount of water is done by means of a simple fl otter which is placed in the space between the conical transparent bowl and the transparent pot. In the flower column, ventilation ducts are formed between the inner corner of the conical outer shell and the transparent bowl so that there is an exchange of air around the transparent bowl. 10 15 20 25 30 The flower pillar can be built on in its lower part with an extended pillar part, which can be straight or flared at the bottom. For outdoor use, the flower pillar can be anchored in the ground so that it is stable with a pipe, or the like, which goes up a bit in the conical outer shell, where a bracket, which keeps the flower pillar straight, connects in the conical outer shell. When the flower pillar is used outdoors, holes are drilled a bit up from the bottom in the transparent bowl, so that rainwater does not remain in the bowl.
The consistent conical shape of the flower pillar means that it can be used all year round without the risk of freezing.
Due to the unique structure of the flower pillar, an unexpected optical effect arises, as the conical outer shell on the inside has a convex surface where part of the incident light reflects and diverges towards the conical transparent bowl, which means that the light is reflected back towards the conical outer shell convex surface. Some of the light is transmitted through the transparent bowl and spread to the transparent pot placed in the bowl, which in turn reflects back the light that finds its way both downwards and upwards in the flower pillar. The transparency in both the transparent bowl and the transparent pot allows for very good light conductivity and means that the luminance, given the dark green background that the plants form, gets the visual impression of lifting the light out of the flower pillar. Depending on the observer's viewing angle, the flower pillar lights up in different ways. The good light distribution in the flower pillar makes the plants thrive better, grow faster and more lush.
An embodiment of the invention is described in the following and illustrated in the accompanying drawing, which according to Fig. 1 shows a view of the conical outer shell of the flower column.
Fig. 2 shows a cut-away perspective view of the flower pillar.
Fig. 3 shows a view from above of the Épâ flower pillar.
Fig. 4 shows an example of the light scattering in the flower column.
Lighter ter echoing flower pillars according to figures 1, 2, 3 and 4 and may represent the construction form used in the example referred to here. 10 15 20 25 30 Light-lifting flower pillars according to figure 1 show a view of the conical outer shell (2) of the flower pillar which, preferably, is built up with twelve upwardly curved sides (3). The figure also shows a top view of the upwardly curved sides (3) and a bit down in the conical outer shell (2). The conical outer shell (2) of the flower column can be built on in its lower part with an extended column part (9), which can be straight or flared at the bottom.
Light-reflecting flower pillars according to figure 2 show a cut-away perspective view of the flower pillar (1) with the conical outer shell (2) and the outwardly arched sides (3). In the figure, the conical outer shell (2) is cut a bit down according to the dark section (7).
A conical transparent bowl (4) is adapted and immersed in the conical outer shell (2), so that the bowl (4) rests in the middle against the inner surfaces (15) of the conical outer shell (2) and at a height so that its upper edge (16) ends up at the same height as the upper edge (17) of the conical outer shell (2). In the transparent bowl (4) a conical transparent pot (5) is placed. This follows the spherical surface of the transparent bowl (4). The transparent pot (5) is provided with projecting tumor formations (6), so that a space (20) is formed between the transparent bowl (4) and the transparent pot (5), both around and at the bottom. The height of the transparent pot (5) is adapted so that its upper edge (18) ends up at the same height as the upper edge of the conical outer shell (2) and the transparent bowl (4).
Lighter fl echoing flower pillar according to figure 3 shows a top view of the flower pillar (1) with the conical transparent bowl (4) immersed in the conical outer shell (2) so that the bowl (4) rests in the middle (19) against each of the conical outer surfaces (15) of the outer shell (2). The weight of the bowl (4) and planted plants are then taken up, in the case described here, on twelve vertical contact surfaces. The figure also shows how the conical transparent pot (5) is placed in the transparent bowl (4). The transparent pot (5) is provided with projecting tumor formations (6), so that a space (20) is formed between the transparent bowl (4) and the transparent pot (5), both around and in the bottom, which is provided with holes, so that the water can enter. Furthermore, it is shown how ventilation ducts (8) are formed in the flower column (1) between the inner corner (21) of the conical outer shell (2) and the transparent bowl (4) so that an air exchange takes place through the flower column (1). 10 15 20 25 30 Lighter fl echoing flower pillar according to figure 4 shows an example of the light scattering in the flower pillar. The incident light (10) is reflected (11) against the conical outer shell (2) which on the inside has a convex surface where the incident light (10) reflects (11) towards the conical transparent bowl (4) so that the light is reflected (11 ) back towards the convex surface of the conical outer shell (2). Some of the light is transmitted through the transparent bowl (4) and; spread to the transparent pot (5) placed in the bowl (4), which in turn reflects: (1 1) back the light that looks both downwards and upwards in the flower pillar (1). The transparency of both the transparent bowl (4) and the transparent pot (5) allows for very good light-conducting power and means that the luminance, given the 'dark green background that the plants form, gives the impression of lifting the light out of the flower pillar. Depending on the observer's viewing angle, the flower pillar lights up in different ways.
The invention has been described in accordance with the preferred formulation and embodiment, and it is to be understood that certain substitutions and modifications may be made without departing from the spirit. The example now described shows how the conical outer shell is constructed with twelve sides. Of course, it can have both smaller and smaller sides, without departing from the inventive concept. Likewise, the transparent conical pot can be divided into sections for planting different flowers and plants in the same flower column. The transparent conical pot can also be replaced with another form of. pot that does not have to be completely transparent.
The flower pillar can also be built with a vertically divided semi-conical outer shell, to be able to be connected to a wall or wall. The invention should thus not be taken as limited to what has been shown and described above, but such variants are included in the inventive concept and may be considered to be included within the scope of the appended claims.

权利要求:
Claims (5)
[1]
Lighter fl echoing flower pillar Characterized by the fact that the flower pillar (1) is made up of three components consisting of a conical outer shell (2) with a number of upwardly curved sides (3) and a conical transparent bowl (4) that is spherically adapted and immersed in the conical outer shell (2) and wherein the third component consists of a conical transparent pot (5) which follows the spherical surface of the transparent bowl (4) and where the transparent pot (5) is provided with projecting tumor formations (6), so that a space (20) is formed between the transparent bowl (4) and the transparent pot (5), both around and at the bottom and where the incident light (10) towards the flower pillar (1) is reflected (1 1) towards the conical outer shell (2) which on the inside has a convex surface (15) where the incident light (10) reflects (11) towards the conical transparent bowl (4) whereby the light is reflected (1 l) back towards the conical outer shell (2) ) convex surface and there further part of it the incident light (10) is transmitted through the transparent bowl (4) and spread to the transparent pot (5) placed in the bowl (4) which in turn reflects (1 1) back the light which seeks both downwards and upwards in the flower column (1). ) -
[2]
Light-reflecting flower pillar according to claim 1, characterized in that the conical transparent bowl (4) is adapted and immersed in the conical outer shell (2) so that it rests in the middle against the inner surfaces (15) of the conical outer shell (2) so that the weight of the bowl (4) and planted plants are taken up in the conical outer shell (2) all vertical abutment surfaces and at a height and that the upper edge (16) of the bowl (4) ends up at the same height as the conical outer shell (2) ) upper edge (17) and where in the flower column (1) ventilation ducts (8) are formed between the inner corner (21) of the conical outer shell (2) and the transparent bowl (4) so that there is an air exchange through the flower column (1). 10 'l5 20' 25 * 3o_
[3]
Bright fl echoing flower column according to claim 1, characterized in that the height of the transparent pot (5) is adapted so that its upper edge (18) is at the same height as the upper edges of the conical outer shell (2) and the transparent bowl (4) and that the construction with the conical transparent bowl (4) and the transparent pot (5), which is provided with holes in the bottom where water can enter, whereby a self-irrigation function is obtained, where the plants absorb the amount of water they need and where further a indication (14) for the amount of water is done by means of a simple fl otter (13) which is placed in the space between the conical transparent bowl (4) and the transparent pot (5).
[4]
Lighter fl echoing flower pillar according to one of the preceding claims, Characterized by the fact that the flower pillar (1) can be built on in its lower part with an extended pillar part (9), which can be straight or flared at the bottom and where the flower pillar (1) for outdoor use is anchored in the ground , so that it is stable with a tube, or the like, going up a bit in the conical outer shell (2), where a bracket, which keeps the flower pillar (1) straight, connects in the conical outer shell (2) and when the flower pillar (1) is used outdoors, holes are drilled a bit up from the bottom in the transparent bowl (4), so that rainwater does not remain in the bowl and where the flower cone (1)'s continuous conical shape allows it to be used all year round without risk for freezing.
[5]
Lighter fl echoing flower pillar according to one of the preceding claims, characterized in that the transparency in both the transparent bowl (4) and the transparent pot (5) allows very good light conductivity and allows the luminance, given the dark green background constituted by the plants, to the visual impression of lifting the light out of the flower pillar (1) and there. depending on the observer's viewing angle, the flower column (l) lights up in different ways.

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同族专利:

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公开号 | 公开日

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SE536513C2|2014-01-21|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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法律状态:
2016-11-29| NUG| Patent has lapsed|

优先权:

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申请号 | 申请日 | 专利标题

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SE1100269A|SE536513C2|2011-04-11|2011-04-11|Light reflecting flower pillars|SE1100269A| SE536513C2|2011-04-11|2011-04-11|Light reflecting flower pillars|