Cultivation

专利摘要:
Summary Cultivation system (1) comprising a spiritless cultivation path (2), which comprises by number of supporting means (5) on which what is cultivated is moved after stretching the cultivation path under illumination from by several illumination units (7). Specifically with the present cultivation system, at least one of the lighting units (7) is movably arranged to and from a position (9), where this is intended to emit light, to and from a position at at least one supporting means (5) where the lighting unit can is connected to the supporting means (5), whereby a movement of the lighting unit (7) can take place with the supporting means (5) to and from an arbitrary position after the cultivation path has been stretched.
公开号:SE1300528A1
申请号:SE1300528
申请日:2013-08-07
公开日:2015-02-08
发明作者:Peter Johansson
申请人:Peter Johansson；
IPC主号:

专利说明:

TECHNICAL FIELD The present invention relates to a cultivation system according to the claims. BACKGROUND OF THE INVENTION AND KNOWLEDGE TECHNOLOGY Cultivation of plants has traditionally taken place in the open air, which has led to the quality of, and the amount of, the cultivated being affected by variations in climate, weather and wind. The effect of the weather on the quality and quantity of what has been grown means that even growers have had to sell the free-grown before it has been harvested. Nowadays, customers demand to a much greater extent, especially in countries with a higher-developed trading system and logistics, because what is grown has the same quality (looks the same) regardless of good or bad weather. In order to achieve a more even quality, it has become quite common to grow different types of plants in a controlled environment.
A salt of Astadkomma cultivation in an environment that is less exposed to the variations of the water is cultivated in greenhouses. Traditional greenhouse cultivation, however, has the disadvantage that what is cultivated occupies a large area in use. In urban environments, that 'land prices per unit area At. hogre An in the countryside, dad & cultivation takes place in the open air or in traditional wax houses only to a limited extent (small scale).
With urbanization and an increasing number of traffic problems in many countries, it has become more difficult to transport pre-grown food, such as vegetables and other plants, to the city centers. An increased environmental awareness among customers has also created a desire for cultivation to take place as locally as possible. NAnincla problems and Increased environmental awareness have in turn led to an increased need (interest) to cultivate near or in urban environments. With previously known methods of cultivation, this has been difficult and costly to cultivate in, or in connection with, cities.
In order to increase the cultivated amount of frog per unit area of land, or floor space in greenhouses, different types of cultivation systems have been developed where cultivation takes place at several vertical levels. For example, patent specification US3327425 describes a variant of a cultivation path which comprises essentially horizontal cultivation loops which are located at different vertical levels. However, the cultivation path described in the patent specification differs from the construction in accordance with the present patent application, which is based on Age technology. The construction further does not include technology with which lighting units can be moved with the load path, load-bearing means or other component of the cultivation path entering the cultivation system. Another example of known cultivation paths is described in the patent specification SE 467643. The patent specification describes a cultivation path for agricultural, forestry and garden products. The cultivation path comprises a number of support members which can be pivotally mounted between a framework and at a distance from each other which support means are connected to each other via chains or the like. Through the construction, a breathless serpentine-shaped web is obtained. The serpentine-shaped cultivation path forms in a side view a number of essentially V-shaped loops and the artificial light is arranged to illuminate the advanced plants in the respective V-shaped loop mainly from above. The construction has the disadvantage that it is space consuming. Furthermore, the cultivation system according to the patent specification has the disadvantage that it is time-consuming to replace lamps and the like in this cultivation system lacks a device with which replacement of lamps or the like can take place easily or automatically.
The Swedish patent SE535207 describes a variant of a cultivation path which is enclosed in a movable unit such as, for example, a container or the like. The construction in accordance with the patent specification provides a good opportunity to control the climate during cultivation. The construction according to the patent specification differs from the construction in accordance with the present patent application. The construction according to the patent specification comprises at least one V-shaped loop. The cultivation path according to the patent specification also has the disadvantage that it lacks a function and device, in accordance with the present patent application, with which lamps or lighting units can be quickly replaced if they are affected by faults.
There are a number of problems with the cultivation systems described in the patents, where cultivation takes place at different vertical levels. For example, there are problems with access to no components in the cultivation path in connection with service and maintenance. For aft possible access to service and maintenance hays service corridors and the like at the sides of the cultivation track. The service fingers have the disadvantage that they take up floor space and vertical space above them.
A specific problem with existing types of cultivation paths which include several loops at different vertical levels is the responsibility of replacing lighting units, lamps, fluorescents and the like. When replacing lamps or servicing lighting units, this is done from previously mentioned service corridors or the like. In the case of larger cultivation systems, the replacement of lighting units such as lamps in the higher covered loops takes place at relatively high heights leading to ladders and the like, which entails obvious risks of fall damage. 3 With compact systems that are mounted in containers and the like, the replacement of lighting units causes problems. For example, disassembly of certain components may be required before it is possible for a person to replace a lighting unit. The process can also mean that production must be stopped and the cultivated is picked from the cultivation system.
With the development of LED technology, the dimensions of lighting units have decreased, which has led to less space-requiring luminaire solutions being developed. This development has unexpectedly meant that cultivation systems can be made even more compact. If the cultivation system is compact and comprises a plurality of horizontal cultivation loops, this entails an additional problem with the replacement of the light-emitting units.
The main object of the present invention The main object of the present invention is to create an improved cultivation system which solves or reduces at least one of the above-mentioned problems. The spirit is raised with a cultivation path in accordance with the claims.
Brief Description of the Figures The invention will now be described in more detail in the following detailed description with reference to the accompanying schematic drawings which, by way of example, show the presently preferred embodiments of the invention.
Figure 1 schematically shows a variant of the existing cultivation system which comprises lighting units which can be replaced and moved with the supporting means of the cultivation path.
Figure 2 shows schematically how the change of lighting unit takes place.
Figures 3A and 3B show a variant of a load carrier which comprises a function for picking down and putting back a lighting unit.
Figure 4 shows a variant of a load carrier which comprises a function for picking down and putting back a lighting unit which comprises a stabilizing device. DETAILED DESCRIPTION OF THE INVENTION Referring to the figures, a cultivation system 1 is shown in accordance with an exemplary embodiment of the present patent application. The cultivation system 1 comprises at least one breathless cultivation path 2, the spiritless cultivation path 2 of which comprises at least a first loop 3 and preferably at least NA or several loops 3. The drawing of the loop 3, or loops, can vary within the inventive concept. Thus, the loop may comprise sections which are directed vertically, horizontally or in other directions suitable for the spirit. Sling = may comprise at least one straight and / or steep section saint in an at least one section with another form suitable for the spirit.
In order to drive around the loop of the cultivation path, this is provided with at least one drive unit 4 which faces a rotating moment which drives the spirit path. Preferably, the cultivation system comprises at least one control system (not shown in figures) with which at least one of the functions of the cultivation path is controlled.
The cultivation path is preferably intended to be used for growing plants such as plants and the like. It is also conceivable that all algae or something else is grown in the system.
Figure 1 shows a relatively stone cultivation path 2 which is preferably completely or partially enclosed in a building or other enclosure which is movable or stationary arranged. The size of the cultivation path can vary to a large extent within the scope of the inventive idea. In alternative embodiments, however, the cultivation path may advantageously be of a smaller type which can be moved in a container or the like.
The cultivation path 2 comprises a number between a framework (not shown in figures), or the like, pivotally fastened and at a distance from each other supporting supporting means (supporting means, loaders) 5 which are connected to each other via chains 6 or the like. In the exemplary embodiment, the supporting members 5 are pivotally (pivotably) connected (fixed) to the chains 6. The supporting members 5 may be placed at a constant distance, or be placed at varying distances, between each other.
For all to supply cultivation light to the cultivated, such as the plants, the cultivation path is provided with a plurality of lighting units 7 which emit artificial light. In the exemplary embodiment, the respective lighting unit 7 is suspended with, or axially connected to, at least one suspension device (connecting device) 8. Alternatively, the lighting units 7 can be positioned with other suitable lighting technology in relation to the cultivation path. The respective lighting unit 7 comprises one or more light-emitting units 7. By lighting unit 7 is meant Piretradesvis a unit which carried one or more light-emitting units. The lighting units 7 may preferably be self-supporting. The lighting units 7 according to the present invention preferably comprise LED based light sources. In alternative embodiments, the lighting units 7 may be composed of other types of light emitting units other than LEDs.
Specifically with the present cultivation system, at least one lighting unit 7 is movably arranged to and from a position 9, where these are intended to emit light, to or from a position at (alternatively on or in) at least one supporting means. With the supporting member 5, the lighting unit 7 can be moved to an arbitrary position after the stretching of the cultivation path 2. Preferably, the lighting unit 7 can be moved with the supporting member 5 to and from a position 11 in the cultivation path 2 where the lighting unit in its entirety or parts of (details, components) can be maintained and / or replaced. The cultivation path 2 can comprise several positions 11 or the lighting units 7 in their entirety or parts of (details, components) can be maintained and / or replaced.
The described technique can preferably also be used in connection with the cultivation path lighting units 7 mounted during installation (assembly or disassembly of the cultivation path). This can be done, for example, by a support member 5 being moved to at least one position 11 after the cultivation path 2 is stretched, where at least one lighting unit 7 is connected to the supporting member 5. After the lighting unit is connected to the supporting member 5, the lighting unit is moved to the supporting member 5. place after the stretching of the cultivation path 2 where the lighting unit 7 is to be installed in the connecting device 8. At the position the lighting unit is installed by moving the lighting unit from the position connected to the supporting member 5 to the light emitting position. The procedure is repeated a required number of times until the lighting units to be installed have been installed. The technology can also be used in reverse order when dismantling the lighting path. It is further conceivable that the described technology is used when moving at least one lighting unit from one lighting emitting position to another lighting emitting position.
To control the speed of the track, lighting, temperature, humidity and other parameters, the cultivation system is equipped with, or connected to, at least one control system. 6 The control system preferably consists of a previously known control system, for which reason this is not described in more detail in this patent application. In order to supply water and nutrients to plants grown in the cultivation system, the cultivation system preferably comprises at least one irrigation device (not shown in the figures).
The supporting means 5 are intended to support the cultivated and the thing in which the cultivated is grown. For example, the cultivated can be grown in a number of cultivation broths (of the cand type) which are mainly intended to be used in connection with cultivation of forest plants and the like. In alternative embodiments, the support means 5 may also be only other containers suitable for the spirit, or similar, for plants.
Specifically with the lighting units in accordance with the present invention, these are constituted by at least one unit, such as a module, which can be essentially easily taken down and set up. Preferably, the lighting units comprise at least one quick connection 12 with which the lighting unit is connected to a connection device (suspension device) 8. The system may also preferably comprise at least one quick connection for, for example, energy supply.
Referring to Figure 2, it is shown in principle how the change of lighting unit 7 takes place through the lighting units 7 being released from their connecting device (suspension device) 8 or the like and then moved to the supporting member 5 and connected or otherwise connected to the load carrier 5.
In a first embodiment shown in figure 2, the movement of the lighting units 7 from the light-emitting position (suspended layer, position) 9 takes place manually by one or more persons. The lighting unit 7 can, for example, be hooked off and laid down on the supporting member.
In this embodiment, provided that space is available, one or more persons are available at the sides of the cultivation machine. When removing lighting units, the respective lighting unit 7 is released from the light emitting position 9 by at least one person and laid down (positioned) on the supporting member 5. After the lighting unit 7 has been connected to, or connected to, the supporting member 5 crosses the cultivation path (machine) with the drive unit then moves the supporting member 5 to a position 11 where the lighting unit 7 (on the load carrier) can be easily removed from the machine. The figure shows a supporting member 5 with docking device, connecting means, positioning means or the like. In the exemplary embodiment, the docking device comprises lugs 13 or the like which position the illumination unit 7 at the supporting member 5. In alternative embodiments, it is conceivable to have a different ducting technique or technique for connecting or connecting the lighting unit to the supporting means (the load carrier). .
In alternative embodiments such as that shown in Figure 3, the movement of a lighting unit from the light-emitting layer at the supporting member 5 takes place with a switching unit, exchange device / switching device 14 or similar device.
With the replacement device 14 at least one lighting unit 7 can be disconnected and moved down to the supporting member 5 completely or partially automatically. In the case of automatic operation, the dismantling of the respective installation of a lighting unit can take place without a person being involved, or substantially being involved, in this work.
Figures 3A and 3B show an exemplary variant of a replacement device / switching device 14 with which replacement of lighting units 7 can take place fully automatically or partially automatically. The exchange device 14 comprises at least one high and submersible unit which is moved to the position in the cultivation path where a lighting unit is to be moved from the light emitting position (in the figure the suspended position) 9 and moved to (in the figure down on) the load carrier 5. When changing, the exchange device / switching device 12 a lighting unit 5 while releasing a quick connection for electricity and, where applicable, water (not shown in figures). After delta crossing the machine slightly frantically or baked, after which the lighting unit 7 is connected to the supporting member (a loader) 5. Or all the lighting unit 7 is connected to the supporting member 5, the supporting member is moved with the lighting unit 7 to a position after the track is stretched where it can maintained or lifted out of the machine. Figures 3 and 4 also show a tankable quick connection between the lighting unit and the connection device (suspension device) 8. Quick connection (quick connection) preferably also comprises a quick connection device for supplying electrical energy to the lighting unit.
In the exemplary embodiment, the replacement device / switching device 14 comprises at least one connecting member 16 to the supporting member 5, at least one raised and lowerable platform 17 or the like and at least one operating unit 18 with which a raising or lowering of the platform 17 can take place. The exchange device / switching device 14 comprises in 8 the exemplary embodiment at least one drive unit. For example, this can be electrically driven with energy dissipation from, for example, at least one accumulator. The drive unit can in alternative embodiments be compressed air driven or driven by another technology suitable for the spirit.
Transmission of control signals to the exchange device / switching device 14 can, for example, take place wirelessly or on an arm for the purpose in an appropriate manner.
Referring to Figure 4, a stabilizing device 19 is shown which is intended to limit, or prevent, a rotation of the supporting member in relation to the attachment points in connection with the lighting unit 7 being moved from, or to, the light-emitting position (taken down or set up) . The stabilizing device 19 is connected in the exemplary embodiment between the general supporting member 5 (which has or is to be connected to a lighting unit) and at least one adjacent second supporting member 5. The figure shows an exemplary embodiment of the stabilizing device 19 where it comprises at least one stabilizing stand (arm ) against at least one first adjacent supporting member 5 and at least one second stabilizing stand (arm) 21 against at least one second adjacent supporting member 5. The arms 20 and 21 may comprise of two or more parts which may be rotatable about a common axis of rotation with the function of the length of the interconnected arms may vary. In alternative embodiments, it is also conceivable for the first arm 20 and the second arm 21 to be telescopically arranged on board. In alternative embodiments, the stabilizing device 19 can alternatively be connected to the chain 6 or to another finely painted component in the cultivation path.
In alternative embodiments, it is conceivable for the relocation of lighting units 7 to a position 11 where replacement or repair can take place with a separate loop or the like. By separate loop is meant a loop which is not used for moving loaders with cultivated plants.
It is further conceivable that a specifically developed backing member 5 or other type of listening device is used to lift down and lift up the lighting units. When changing or maintaining the lighting unit, it is mounted to the cultivation track. If the maintenance or replacement has taken place, the specifically forward-carrying support member, or other four-movement device, can be removed.
The function of fully or partially automatic replacement of the lighting unit is especially useful and time-saving if the cultivation path is enclosed in a limited space such as, for example, a cultivation system which is completely or partially enclosed in a movable unit such as a container, movable building or other movable part. unit. The change of lighting unit can take a much longer time with the state-of-the-art technology.
If the movable unit is a container, this can be a standardized 20-foot ISO container which is adapted to the present purpose of enclosing the cultivation path. In alternative embodiments, other types of inclusions may be used. The length, width and height of the container are not limiting for the present invention but can vary greatly within the scope of the present invention. Thus, other sizes of standardized containers can be used as well as specially developed movable enclosures suitable for the purpose.
The movement of the cultivation system can take place in a number of different ways. For example, this can be done with a boat, truck or with another vehicle suitable for use and transport.
A major advantage of the cultivation system which is wholly or partly enclosed in a movable unit is that the cultivation system can be in operation during the movement of the cultivation system.
In alternative embodiments, it is conceivable that the described technique, with which a transfer of at least one lighting unit from one position to another position can be performed, is used to transfer any other type of component or any other types of components (module or modules). in the cultivation system from at least one position to at least one other position in (or at) the cultivation system.
In the detailed description of the present invention, structural details may be omitted which will be apparent to one skilled in the art to which the subject matter relates. Such obvious construction details to the extent required for a proper function to be obtained for the present invention.
Although certain preferred embodiments have been described in detail, variations and modifications within the scope of the invention may become apparent. for the person skilled in the art within the line and all such are considered to fall within the scope of the appended claims.
Advantages of the Invention The present invention achieves a number of advantages. The most important advantage is that at least one of the above-mentioned disadvantages, with known types of cultivation systems, is eliminated or reduced.
An amian advantage of cultivation in a controlled and closed environment is all unwanted variations and quality fluctuations are eliminated. Cultivation becomes a process that can be run time after time with the same results and outcomes, which in more modern markets offers great advantages in the form of Yang proportions and a safer and more even quality. Odds in the closed million mean that the risk of pest infestation is eliminated or substantially reduced.
The design of the cultivation system further means that this can be compact and the cultivation system entails a high production per unit volume. 11

权利要求:
Claims (10)
[1]
Cultivation system (1) comprising a spiritless cultivation path (2), comprising a number of supporting means (5) on which what is cultivated is moved or the cultivation path is disturbed under illumination from a plurality of illumination units (7) characterized by at least one of the illumination units (7 ) is movably arranged to and from a position (9), where it is intended to emit light, to and from a position at at least one supporting means (5) where the lighting unit can be connected to the supporting means (5) and after a movement of the lighting unit (7) can be made with the supporting means (5) to and from an arbitrary position after the cultivation path has been stretched.
[2]
Cultivation system (1) according to claim 1, characterized in that the lighting unit (7) at the light-emitting position is connected to at least one connection device (8) with at least one quick coupling (12).
[3]
Cultivation system (1) according to at least one of claims 1 or 2, characterized in that the movement of lighting unit (7) between the light-emitting position and the position at the supporting member (5) takes place with a replacement device / switching device (14).
[4]
Cultivation system (1) according to claim 3, characterized in that the exchange device / exchange device (14) comprises at least one connecting means (16) against the load carrier and at least one raised and submersible platform (17) or the like.
[5]
Cultivation system (1) according to at least one claim, characterized in that the system comprises at least one stabilizing device (19) for stabilizing the load carrier in connection with moving the lighting unit to or from the light-emitting position and to and from that position at the load carrier (5). ).
[6]
Cultivation system (1) according to at least one of the preceding claims, characterized in that the cultivation system is arranged to be movable from one cultivation site to another by the cultivation system being enclosed in a movable unit.
[7]
Method for replacing or maintaining lighting units (7) in a cultivation system according to at least one of claims 1 to 6, characterized in that at least one supporting member (5) is moved to a position near a lighting unit (7) to be replaced out or maintained, after which the lighting unit (7) is moved from the light-emitting position (9) to a position connected to the supporting member (5), after which the supporting member (5) with the connected lighting unit (7) is moved to at least one position (11). ) after stretching the cultivation path (2) where the lighting unit (7) can be maintained and / or replaced, after which the maintained and / or replaced lighting unit (7) is moved back with the supporting member (5) to a position where the lighting unit (7) can be moved from the position connected with the supporting means (5) to the light-emitting position (9).
[8]
Method for installing at least one lighting unit (7) in a cultivation system according to at least one of claims 1 to 6, characterized in that the supporting means (5) is moved to at least one position (11) after the cultivation path (2) has been stretched there at least a lighting unit (7) is connected to the supporting member, after which the lighting unit is moved with the supporting member to the position after the cultivation path is stretched where the lighting unit (7) is to be installed, after which the lighting unit is moved from the lighting unit to the position of the lighted member. the procedure is repeated the required number of times.
[9]
A method according to claim 7 or 8, characterized in that the movement of the lighting unit (7) to the position at the supporting member (5) and vice versa takes place manually.
[10]
Method according to claim 7 or 8, characterized by the movement of the lighting unit (7) to the position at the supporting member (5) and vice versa with an exchange / changing device (14). 8

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同族专利:

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CA2923851C|2021-07-13|

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US10264737B2|2019-04-23|

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EP3030071A4|2016-12-28|

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US20160165810A1|2016-06-16|

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WO2015020578A1|2015-02-12|

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BR112016002468B1|2020-10-20|

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CN105491876A|2016-04-13|

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CA2923851A1|2015-02-12|

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CN105491876B|2019-04-02|

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SE537310C2|2015-04-07|

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EP3030071A1|2016-06-15|

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BR112016002468A2|2017-08-01|

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EP3030071B1|2021-04-21|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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SE1300528A|SE537310C2|2013-08-07|2013-08-07|Cultivation|SE1300528A| SE537310C2|2013-08-07|2013-08-07|Cultivation|

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EP14835126.5A| EP3030071B1|2013-08-07|2014-06-25|Cultivation system|

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PCT/SE2014/000089| WO2015020578A1|2013-08-07|2014-06-25|Cultivation system|

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CA2923851A| CA2923851C|2013-08-07|2014-06-25|Cultivation system with endless cultivation track and movable lighting units|

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CN201480047160.XA| CN105491876B|2013-08-07|2014-06-25|Cultivation system|

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US14/909,493| US10264737B2|2013-08-07|2014-06-25|Cultivation system|

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BR112016002468-0A| BR112016002468B1|2013-08-07|2014-06-25|cultivation system, and methods for changing and maintaining lighting units in a cultivation system and for installing at least one lighting unit in a cultivation system|