WO2023080865A1 - Innovation in drip irrigation systems - Google Patents
Innovation in drip irrigation systems Download PDFInfo
- Publication number
- WO2023080865A1 WO2023080865A1 PCT/TR2022/050467 TR2022050467W WO2023080865A1 WO 2023080865 A1 WO2023080865 A1 WO 2023080865A1 TR 2022050467 W TR2022050467 W TR 2022050467W WO 2023080865 A1 WO2023080865 A1 WO 2023080865A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- irrigation
- organizer
- pipes
- irrigation pipes
- mentioned
- Prior art date
Links
Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G25/00—Watering gardens, fields, sports grounds or the like
- A01G25/02—Watering arrangements located above the soil which make use of perforated pipe-lines or pipe-lines with dispensing fittings, e.g. for drip irrigation
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/22—Improving land use; Improving water use or availability; Controlling erosion
Definitions
- the invention relates to drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant to be irrigated.
- Irrigation is the process of artificially delivering the water that plants need but cannot be met by natural precipitation.
- irrigation is the process of delivering water to plants in a controlled manner. Irrigation provides protection against possible drought and an increase in food production.
- Today, many irrigation systems such as surface irrigation, sprinkler irrigation and drip irrigation systems are used.
- Drip irrigation systems ensure that water is transmitted directly to the root part of the plant to be irrigated in the form of droplets. Efficient and effective use of water is ensured by giving water to the root zone of the plants or its surroundings. Thanks to the drip irrigation systems, the water can be used with high efficiency without evaporation and overflow etc.
- the drip irrigation system is widely preferred in modern agriculture.
- the amount of water can be easily adjusted according to the plant.
- drip irrigation systems can be easily used for fertilizing the soil.
- Drip irrigation systems are usually laid on the soil.
- Various weeds appear on the soil over time. In order not to reduce the fertility of the soil, it is necessary to clean the weeds that come out. However, the soil needs to be aerated at certain times by ploughing or hoeing.
- the soil should be hoed and/or mixed.
- Fertilizers contain substances such as nitrogen, phosphorus and potassium. Nitrogen, in particular, is a volatile substance. The nitrogen used in the fertilizer content evaporates when it comes into contact with the sun. After fertilizing, the field should be mixed. However, other substances such as potassium and phosphorus are also wasted when not mixed into the soil.
- drip irrigation systems are frequently used especially in irrigation of large trees and in greenhouse applications.
- the drip irrigation pipes must be removed from the ground in order not to be damaged.
- the soil when fertilizing, the soil must be mixed so that the fertilizer does not fly away.
- the drip irrigation pipes laid on the soil surface must be carefully removed or pulled left and right without damaging them. Drip irrigation pipes can become unusable by being bent or even tom during the lifting or pulling process.
- the drip irrigation pipes used in the prior art are laid randomly, especially on the soil. Particularly in places containing plants such as saplings and trees, too many drip pipes are used. When too many drip pipes are used, they can become entangled and knot together. In addition, since the pipes are flexible, they do not stand properly and it is not possible to enter by car such as tractor.
- the drip irrigation pipes used in the prior art can flutter around as a result of natural events such as wind and storm. It is necessary to rearrange the irrigation pipes that do not stand properly.
- the mentioned irrigation pipes are dispersed too much as a result of both natural events and human factor. Since it is not possible to fix the scattered irrigation pipes every day, users continue to irrigate haphazardly after a while. If the plant is given more water than it needs by watering indiscriminately, the plant may get sick. In addition, water is wasted by giving too much water and the electricity used to transport the water to that garden is also wasted. The plant may grow more slowly and/or the yield from the plant may decrease due to the lack of water given or not given correctly. In the prior art, there is no product that holds the drip irrigation pipes together and ensures that the water is used more effectively.
- drip pipes can remain under leaves and weeds.
- the pipes must be checked to see if they are damaged.
- the mentioned control process is done by manually lifting the pipes one by one. During the inspection process, the pipes can break and break apart. In addition, the mentioned control process takes a lot of time, especially in large gardens.
- the purpose of the invention is to obtain a drip irrigation system that allows more effective and efficient irrigation by ensuring that water and/or fertilizer reach the right location, in the right amount.
- Another aim of the invention is to obtain a drip irrigation system that allows fertilization and soil mixing to be done easily.
- Another aim of the invention is to obtain a drip irrigation system that avoids waste in the fertilization process.
- Another aim of the invention is to obtain a drip irrigation system that allows the drip pipes to be controlled quickly and in a healthy way, especially in tree gardens.
- Another aim of the invention is to obtain a drip irrigation system that enables the protection of water resources by using water more effectively.
- Another aim of the invention is to obtain a drip irrigation system that allows plants to grow faster by watering effectively.
- Another aim of the invention is to obtain a drip irrigation system that saves electricity consumption by using water more effectively.
- the drip irrigation system developed to achieve the mentioned purposes include at least one organizer (10) which ensures that the irrigation pipes (20) are laid on the soil (T) properly in order to provide a more effective irrigation and fertilization process, and ensures that when needed, more than one irrigation pipe (20) can be removed at once without being broken by connecting the said irrigation pipes (20) to each other, contains at least two slots (11) large enough for the said irrigation pipes (20) to enter, and whose diameter and wall thickness can be arranged according to the irrigation pipes (20) currently used, and which is positioned between the said irrigation pipes (20).
- Attached Figure - 1 is the top perspective view of the linear drip irrigation system.
- Figure-2 is the detail view of the linear drip irrigation system.
- Figure-3 is the top perspective view of the spiral drip irrigation system.
- Figure-4 is the detail view of the spiral drip irrigation system.
- Figure-5 is the top perspective view of the alternative spiral drip irrigation system.
- Figure-6 is the detail view of the alternative spiral drip irrigation system.
- Figure-7 is the top perspective view of the organizer.
- Figure-8 is the side view of the organizer.
- Figure-9 is the top perspective view of the organizer.
- Figure- 10 is the A-A cross-section of the organizer.
- the invention relates to drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant (B) to be irrigated.
- the drip irrigation system which is the subject of the invention, includes an irrigation pipe (20) and an organizer (10).
- the soil (T) where the plants (B) are located must be cleared of weeds on it at certain times of the year and the soil (T) must be hoed or ploughed so that it can breathe.
- the soil (T) must be mixed by a tool such as hoe etc. in order to mix the said fertilizer into the soil (T) without evaporation.
- hoeing is difficult for the reasons mentioned above. Irrigation pipes (20) may be damaged during the hoeing process. In order to prevent the said irrigation pipes (20) from being damaged, the irrigation pipes (20) must be completely removed and re-laid. Again, during the removal or re-laying of the irrigation pipes (20), the said irrigation pipes (20) may be broken and/or ruptured.
- irrigation pipes (20) are laid on the ground properly with the help of the organizer (10). Again, with the help of the organizer (10), it can be easily lifted from the soil (T) and operation can be carried out under it without damaging the irrigation pipes (20).
- the organizer (10), which is the subject of the invention, is used in the arrangement of irrigation pipes (20).
- the organizer (10) connects the irrigation pipes (20) to each other and prevents the said irrigation pipes (20) from being messy.
- effective irrigation of the plant (B) to be irrigated is ensured.
- Irrigation pipes (20) of various diameters and wall thicknesses can be used in drip systems.
- the irrigation pipe (20) with a diameter of 16 mm generally has a wall thickness of 0.9-1.0 mm.
- the irrigation pipe (20) with a diameter of 20 mm has a wall thickness between 1.1 mm and 1.35 mm.
- the diameter and thickness of the organizer (10) may vary according to the diameter and thickness of the irrigation pipes (20).
- the slot (11) is of such a size and shape that the irrigation pipes (20) can just enter. Irrigation pipes (20) are passed into the slot (11).
- the organizer (10) is made of flexible plastic derivative material. Said passing process is done by slightly stretching the organizer
- the dimensions and shapes of the slot (11) may vary according to the irrigation pipe (20) used.
- the wall thickness of the organizer (10) can be changed depending on demand and need.
- the organizer (10) has a wall thickness of 1.5 mm-2.00mm for 16mm diameter and 2.00mm-2.5mm for 20mm diameter. Thanks to the fact that the organizer (10) is thicker and more durable than the irrigation pipes (20), it can be easily lifted without breaking the said irrigation pipes (20).
- the organizer (10) has a larger wall thickness than the irrigation pipes (20) it carries, in order to ensure that more than one irrigation pipe (20) can be easily lifted at once without breaking.
- the number of slots (11) on the organizer (10) can vary depending on demand and need.
- the upper surface of the slot (11) is left open for easy positioning of the irrigation pipe (20).
- the slot (11) has a substantially circular shape. Thanks to its substantially circular shape, the irrigation pipe (20) fits completely into the slot
- the slot (11) can also be found in different geometric shapes.
- the slot (11) ensures easy positioning of the irrigation pipe (20) and that it does not come off.
- the cross-section A-A of the slot (11) is larger than a semicircle, that is, the distance “R” is greater than the distance “t” . Since the “R” distance is greater than the “f ’ distance, the irrigation pipe (20) is locked inside the slot (11).
- the drip irrigation pipes (20) must be constantly checked to see if they are damaged. Since the organizer (10) is connected to more than one irrigation pipe (20), it ensures that more than one irrigation pipe (20) is controlled at once. In addition, the irrigation pipes (20) can be broken and punctured when they are checked one by one and do not remain in their old order. Thanks to the organizer (10), especially the irrigation pipes (20) under the leaves and grass are controlled quickly and in a healthy way. The organizer (10) enables more irrigation pipes (20) to be controlled at the same time. Said organizer (10) is ensured that many irrigation pipes (20) are lifted from the soil (T) at once by being connected to the tree where it is used via a rope, wire, etc. In this way, soil (T) mixing, aeration, hoeing etc.
- the organizer (10) can be lifted from the ground by using one or more support rods. Since the organizer (10) is more durable than the irrigation pipes (20), it is not used with rope, wire, etc. It can be easily removed without being damaged by the auxiliary tool. When only the irrigation pipes (20) are removed without the organizer (10), the said irrigation pipes (20) are broken and damaged.
- one organizer (10) can be fixed to each other with another organizer (10) through the slots (11) on it. In this way, more irrigation pipes (20) can be controlled at once.
- a drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant to be irrigated and is characterized in that; including at least one organizer (10) which ensures that the irrigation pipes (20) are laid on the soil (T) properly in order to provide that water and/or fertilizer reach the right location, in the right amount, and ensures that, when needed, more than one irrigation pipe (20) can be removed at once without being broken by connecting the said irrigation pipes (20) to each other,
Abstract
A drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant to be irrigated and is characterized in that; including at least one organizer (10) which ensures that the irrigation pipes (20) are laid on the soil (T) properly in order to provide that water and/or fertilizer reach the right location, in the right amount, and ensures that, when needed, more than one irrigation pipe (20) can be removed at once without being broken by connecting the said irrigation pipes (20) to each other, - which contains at least two slots (11) large enough for the said irrigation pipes (20) to enter, and whose diameter and wall thickness can be arranged according to the irrigation pipes (20) currently used, and which is positioned between the said irrigation pipes (20).
Description
Innovation in Drip Irrigation Systems
Technical Field
The invention relates to drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant to be irrigated.
Prior Art
Irrigation is the process of artificially delivering the water that plants need but cannot be met by natural precipitation. In other words, irrigation is the process of delivering water to plants in a controlled manner. Irrigation provides protection against possible drought and an increase in food production. Today, many irrigation systems such as surface irrigation, sprinkler irrigation and drip irrigation systems are used.
Drip irrigation systems ensure that water is transmitted directly to the root part of the plant to be irrigated in the form of droplets. Efficient and effective use of water is ensured by giving water to the root zone of the plants or its surroundings. Thanks to the drip irrigation systems, the water can be used with high efficiency without evaporation and overflow etc.
The drip irrigation system is widely preferred in modern agriculture. The amount of water can be easily adjusted according to the plant. In addition, drip irrigation systems can be easily used for fertilizing the soil.
Drip irrigation systems are usually laid on the soil. Various weeds appear on the soil over time. In order not to reduce the fertility of the soil, it is necessary to clean the weeds that come out. However, the soil needs to be aerated at certain times by ploughing or hoeing. In addition, after the fertilization process, the soil should be hoed and/or mixed. Fertilizers contain substances such as nitrogen, phosphorus and potassium. Nitrogen, in particular, is a volatile substance. The nitrogen used in the
fertilizer content evaporates when it comes into contact with the sun. After fertilizing, the field should be mixed. However, other substances such as potassium and phosphorus are also wasted when not mixed into the soil.
Today, drip irrigation systems are frequently used especially in irrigation of large trees and in greenhouse applications. During the cleaning of weeds on the soil and aeration of the soil, the drip irrigation pipes must be removed from the ground in order not to be damaged. However, when fertilizing, the soil must be mixed so that the fertilizer does not fly away. During the mixing process of the soil, the drip irrigation pipes laid on the soil surface must be carefully removed or pulled left and right without damaging them. Drip irrigation pipes can become unusable by being bent or even tom during the lifting or pulling process.
The drip irrigation pipes used in the prior art are laid randomly, especially on the soil. Particularly in places containing plants such as saplings and trees, too many drip pipes are used. When too many drip pipes are used, they can become entangled and knot together. In addition, since the pipes are flexible, they do not stand properly and it is not possible to enter by car such as tractor.
The drip irrigation pipes used in the prior art can flutter around as a result of natural events such as wind and storm. It is necessary to rearrange the irrigation pipes that do not stand properly. The mentioned irrigation pipes are dispersed too much as a result of both natural events and human factor. Since it is not possible to fix the scattered irrigation pipes every day, users continue to irrigate haphazardly after a while. If the plant is given more water than it needs by watering indiscriminately, the plant may get sick. In addition, water is wasted by giving too much water and the electricity used to transport the water to that garden is also wasted. The plant may grow more slowly and/or the yield from the plant may decrease due to the lack of water given or not given correctly. In the prior art, there is no product that holds the drip irrigation pipes together and ensures that the water is used more effectively.
In tree gardens, drip pipes can remain under leaves and weeds. The pipes must be checked to see if they are damaged. The mentioned control process is done by
manually lifting the pipes one by one. During the inspection process, the pipes can break and break apart. In addition, the mentioned control process takes a lot of time, especially in large gardens.
Purpose of the Invention
The purpose of the invention is to obtain a drip irrigation system that allows more effective and efficient irrigation by ensuring that water and/or fertilizer reach the right location, in the right amount.
Another aim of the invention is to obtain a drip irrigation system that allows fertilization and soil mixing to be done easily.
Another aim of the invention is to obtain a drip irrigation system that avoids waste in the fertilization process.
Another aim of the invention is to obtain a drip irrigation system that allows the drip pipes to be controlled quickly and in a healthy way, especially in tree gardens.
Another aim of the invention is to obtain a drip irrigation system that enables the protection of water resources by using water more effectively.
Another aim of the invention is to obtain a drip irrigation system that allows plants to grow faster by watering effectively.
Another aim of the invention is to obtain a drip irrigation system that saves electricity consumption by using water more effectively.
The drip irrigation system developed to achieve the mentioned purposes include at least one organizer (10) which ensures that the irrigation pipes (20) are laid on the soil (T) properly in order to provide a more effective irrigation and fertilization process, and ensures that when needed, more than one irrigation pipe (20) can be removed at once without being broken by connecting the said irrigation pipes (20) to each other, contains at least two slots (11) large enough for the said irrigation pipes (20) to enter, and whose diameter and wall thickness can be arranged
according to the irrigation pipes (20) currently used, and which is positioned between the said irrigation pipes (20).
Description of Figures
Attached Figure - 1 is the top perspective view of the linear drip irrigation system.
Figure-2 is the detail view of the linear drip irrigation system.
Figure-3 is the top perspective view of the spiral drip irrigation system.
Figure-4 is the detail view of the spiral drip irrigation system.
Figure-5 is the top perspective view of the alternative spiral drip irrigation system.
Figure-6 is the detail view of the alternative spiral drip irrigation system.
Figure-7 is the top perspective view of the organizer.
Figure-8 is the side view of the organizer.
Figure-9 is the top perspective view of the organizer.
Figure- 10 is the A-A cross-section of the organizer.
The main parts expressed in the figures are given below as numbers and names.
(B) Plant
(T) Soil
(10) Organizer
(11) Slot
(20) Irrigation pipe
R= Slot diameter t= slot upper clearance distance
Explanation of the Invention
The invention relates to drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant (B) to be irrigated. The
drip irrigation system, which is the subject of the invention, includes an irrigation pipe (20) and an organizer (10).
The soil (T) where the plants (B) are located must be cleared of weeds on it at certain times of the year and the soil (T) must be hoed or ploughed so that it can breathe. In addition, after the fertilization process, the soil (T) must be mixed by a tool such as hoe etc. in order to mix the said fertilizer into the soil (T) without evaporation. Where drip irrigation pipes (20) are used, hoeing is difficult for the reasons mentioned above. Irrigation pipes (20) may be damaged during the hoeing process. In order to prevent the said irrigation pipes (20) from being damaged, the irrigation pipes (20) must be completely removed and re-laid. Again, during the removal or re-laying of the irrigation pipes (20), the said irrigation pipes (20) may be broken and/or ruptured.
In the drip irrigation system, which is the subject of the invention, irrigation pipes (20) are laid on the ground properly with the help of the organizer (10). Again, with the help of the organizer (10), it can be easily lifted from the soil (T) and operation can be carried out under it without damaging the irrigation pipes (20).
The organizer (10), which is the subject of the invention, is used in the arrangement of irrigation pipes (20). The organizer (10) connects the irrigation pipes (20) to each other and prevents the said irrigation pipes (20) from being messy. In addition, effective irrigation of the plant (B) to be irrigated is ensured.
Irrigation pipes (20) of various diameters and wall thicknesses can be used in drip systems. For example; the irrigation pipe (20) with a diameter of 16 mm generally has a wall thickness of 0.9-1.0 mm. The irrigation pipe (20) with a diameter of 20 mm has a wall thickness between 1.1 mm and 1.35 mm. The diameter and thickness of the organizer (10) may vary according to the diameter and thickness of the irrigation pipes (20).
There are slots (11) opened at regular intervals on the organizer (10). The slot (11) is of such a size and shape that the irrigation pipes (20) can just enter. Irrigation
pipes (20) are passed into the slot (11). The organizer (10) is made of flexible plastic derivative material. Said passing process is done by slightly stretching the organizer
(10). The dimensions and shapes of the slot (11) may vary according to the irrigation pipe (20) used. In addition, the wall thickness of the organizer (10) can be changed depending on demand and need. In the preferred application of the invention, the organizer (10) has a wall thickness of 1.5 mm-2.00mm for 16mm diameter and 2.00mm-2.5mm for 20mm diameter. Thanks to the fact that the organizer (10) is thicker and more durable than the irrigation pipes (20), it can be easily lifted without breaking the said irrigation pipes (20). The organizer (10) has a larger wall thickness than the irrigation pipes (20) it carries, in order to ensure that more than one irrigation pipe (20) can be easily lifted at once without breaking.
The number of slots (11) on the organizer (10) can vary depending on demand and need. The upper surface of the slot (11) is left open for easy positioning of the irrigation pipe (20). The slot (11) has a substantially circular shape. Thanks to its substantially circular shape, the irrigation pipe (20) fits completely into the slot
(11). In alternative embodiments of the invention, the slot (11) can also be found in different geometric shapes.
The slot (11) ensures easy positioning of the irrigation pipe (20) and that it does not come off. The cross-section A-A of the slot (11) is larger than a semicircle, that is, the distance “R” is greater than the distance “t” . Since the “R” distance is greater than the “f ’ distance, the irrigation pipe (20) is locked inside the slot (11).
The drip irrigation pipes (20) must be constantly checked to see if they are damaged. Since the organizer (10) is connected to more than one irrigation pipe (20), it ensures that more than one irrigation pipe (20) is controlled at once. In addition, the irrigation pipes (20) can be broken and punctured when they are checked one by one and do not remain in their old order. Thanks to the organizer (10), especially the irrigation pipes (20) under the leaves and grass are controlled quickly and in a healthy way.
The organizer (10) enables more irrigation pipes (20) to be controlled at the same time. Said organizer (10) is ensured that many irrigation pipes (20) are lifted from the soil (T) at once by being connected to the tree where it is used via a rope, wire, etc. In this way, soil (T) mixing, aeration, hoeing etc. process can be done easily. In applications where there is no tree, the organizer (10) can be lifted from the ground by using one or more support rods. Since the organizer (10) is more durable than the irrigation pipes (20), it is not used with rope, wire, etc. It can be easily removed without being damaged by the auxiliary tool. When only the irrigation pipes (20) are removed without the organizer (10), the said irrigation pipes (20) are broken and damaged.
In alternative embodiments of the invention, one organizer (10) can be fixed to each other with another organizer (10) through the slots (11) on it. In this way, more irrigation pipes (20) can be controlled at once.
A drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant to be irrigated and is characterized in that; including at least one organizer (10) which ensures that the irrigation pipes (20) are laid on the soil (T) properly in order to provide that water and/or fertilizer reach the right location, in the right amount, and ensures that, when needed, more than one irrigation pipe (20) can be removed at once without being broken by connecting the said irrigation pipes (20) to each other,
- which contains at least two slots (11) large enough for the said irrigation pipes (20) to enter, and whose diameter and wall thickness can be arranged according to the irrigation pipes (20) currently used, and which is positioned between the said irrigation pipes (20).
Claims
C L A I M S A drip irrigation systems that ensure the transmission of water in the form of droplets directly to the root part of the plant to be irrigated and is characterized in that; including at least one organizer (10) which ensures that the irrigation pipes (20) are laid on the soil (T) properly in order to provide that water and/or fertilizer reach the right location, in the right amount, and ensures that, when needed, more than one irrigation pipe (20) can be removed at once without being broken by connecting the said irrigation pipes (20) to each other,
- which contains at least two slots (11) large enough for the said irrigation pipes (20) to enter, and whose diameter and wall thickness can be arranged according to the irrigation pipes (20) currently used, and which is positioned between the said irrigation pipes (20). The organizer (10) mentioned in Claim 1, and characterized in that; the irrigation pipe (20) is made of flexible plastic derivative material to enable easier positioning in the slot (11). The organizer (10) mentioned in Claim 1, and characterized in that; including a larger wall thickness than the irrigation pipes (20) it carries, in order to ensure that more than one irrigation pipe (20) can be easily lifted at once without being broken. The organizer (10) mentioned in Claim 1, and characterized in that; including a wall thickness in the range of 1.5 mm to 2.00 mm for a diameter of 16 mm. The organizer (10) mentioned in Claim 1, and characterized in that; including a wall thickness in the range of 2.00 mm to 2.5 mm for a diameter of 20 mm. The slot (11) mentioned in Claim 1 and characterized in that; the cross-section A-A of the slot (11) is larger than a semicircle, and as a result, the “R” distance
8
is greater than the “t” distance in order to ensure easy positioning of the irrigation pipe (20) and that it does not come off. The slot (11) mentioned in Claim 1 and characterized in that; including a largely circular shape.
9
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TR2022/005853 | 2022-04-12 | ||
TR2022005853 | 2022-04-12 |
Publications (2)
Publication Number | Publication Date |
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WO2023080865A1 true WO2023080865A1 (en) | 2023-05-11 |
WO2023080865A4 WO2023080865A4 (en) | 2023-08-03 |
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ID=86241635
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Application Number | Title | Priority Date | Filing Date |
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PCT/TR2022/050467 WO2023080865A1 (en) | 2022-04-12 | 2022-05-24 | Innovation in drip irrigation systems |
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WO (1) | WO2023080865A1 (en) |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20180042187A1 (en) * | 2015-05-29 | 2018-02-15 | Garry McCaslin | Dripper Gripper |
US10999984B1 (en) * | 2017-12-31 | 2021-05-11 | Surain Industries, Inc. | Irrigation line clip and irrigation system |
CN213719162U (en) * | 2020-11-11 | 2021-07-20 | 上海北禾水土环保科技有限公司 | Saline-alkali soil organic rice irrigation device capable of increasing irrigation area |
-
2022
- 2022-05-24 WO PCT/TR2022/050467 patent/WO2023080865A1/en unknown
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20180042187A1 (en) * | 2015-05-29 | 2018-02-15 | Garry McCaslin | Dripper Gripper |
US10999984B1 (en) * | 2017-12-31 | 2021-05-11 | Surain Industries, Inc. | Irrigation line clip and irrigation system |
CN213719162U (en) * | 2020-11-11 | 2021-07-20 | 上海北禾水土环保科技有限公司 | Saline-alkali soil organic rice irrigation device capable of increasing irrigation area |
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Publication number | Publication date |
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WO2023080865A4 (en) | 2023-08-03 |
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