TR2021014815A2 - Sapling Growing Pot with Self-Irrigation System - Google Patents

Abstract

Buluş, kurak veya her zaman sulama olanağı bulunmayan tarımsal alanlarda fidan/bitki yetiştirmekte kullanılan, zaman içerisinde fidanın ihtiyaç duyduğu suyu/nemi sağlayan kendinden sulama sistemine sahip fidan yetiştirme kabı (A) ile ilgilidir. (Şekil-2)The invention relates to the seedling growing container (A) with a self-irrigation system that provides the water/moisture needed by the seedling over time, used for growing seedlings/plants in arid or agricultural areas where irrigation is not always possible. (Figure-2)

Description

TARIFNAME Kendinden Sulama Sistemine Sahip Fidan Yetistirme Kabi TEKNIK ALAN Bulus, kurak veya her zaman sulama olanagi bulunmayan tarimsal alanlarda fidan/bitki yetistirmekte kullanilan, zaman içerisinde fidanin ihtiyaç duydugu suyu/nemi saglayan fidan Bulus özellikle, bahsedilen fidan yetistirme kabi üst kapaginda olusturulan yagmur suyu kirma ve toplama alanlari, aktarilan suyun sizdirmazligini ve üst kapagin ana gövde üzerine yataklanmasini saglayan ara kapak, ana gövde alt kisminda konumlandirilmis topraga su ve nem iletimini saglayan su iletim elemani (fitil) ile ilgilidir. DESCRIPTION Sapling Growing Container with Self-Irrigation System TECHNICAL FIELD Invention, seedlings/plants in arid or agricultural areas where irrigation is not always available. a sapling that is used for growing and that provides the water/moisture needed by the sapling over time. In particular, the invention deals with the rain water formed on the said seedling growing container top cover. breaking and collecting areas, sealing the transferred water and the top cover on the main body. The intermediate cover, which provides bedding, is positioned on the lower part of the main body, and water and It is related to the water transmission element (wick) that provides moisture transmission.

TEKNIGIN BILINEN DURUMU Dünya topraklarinin 1/3'ünü kurak ve yari kurak sahalar olusturmaktadir. Yillik yagisi 300 mm ve altinda olan yerler kurak, yillik yagisi 300-600 mm arasinda alanlar yari kurak olarak kabul edilmektedir. Bu alanlarda yagis azligi, buharlasmanin ve gece ile gündüz arasindaki sicaklik farklarinin yüksek, bagil nemin düsük olmasi agaç/bitki gelisimini sinirlandiran önemli faktörlerdir. KNOWN STATE OF THE TECHNIQUE Arid and semi-arid areas constitute 1/3 of the world's land. Its annual oil is 300 mm and below are dry, the annual precipitation is between 300-600 mm, semi-arid. It is accepted. The lack of precipitation in these areas, the evaporation and the difference between day and night. High temperature differences and low relative humidity limit tree/plant growth. are important factors.

Günümüzde, özellikle kurak ya da her zaman sulama olanagi bulunmayan tarimsal alanlarin agaçlandirilmasinda karsilasilan en büyük problem agaçlarin susuzluk ve bagil nem miktarinin düsük olmasi nedeniyle kurumasi ya da istenilen gelisimi göstermemesidir. Bu kurak ya da sulama imkani olmayan alanlara dikilen fidanlarin yetisebilmesi için fidanlarin su ve nem ihtiyacinin karsilanmasi gerekmektedir. Today, agricultural areas that are especially arid or not always irrigated The biggest problem encountered in afforestation is the lack of thirst and relative humidity of trees. it dries out or does not show the desired development due to its low amount. This In order for the seedlings planted in arid or irrigable areas to grow, the seedlings must be watered. and moisture needs must be met.

Mevcut teknikte yapilan literatür arastirmasinda, kurak ve her zaman sulama imkani patent incelendiginde, sistemin su ihtiyacinin sürekli olarak belli zaman araliklarinda hazneye su ilave edilmesi ile karsilandigi, yagmur-kar suyunun sisteme kazandiran bir yapinin bulunmadigi anlasilmaktadir. Ayrica kap içerisinden topraga/bitki kökünün gelisecegi alanlara su ve nem geçisini saglayan yapinin verimsiz (kap içerisindeki suyu çabuk tüketme) çalistigi için kisa araliklarla su ilavesi gerektirdigi anlasilmaktadir. In the literature research conducted in the current technique, the possibility of dry and always irrigation When the patent is examined, it is seen that the water requirement of the system is continuously sent to the reservoir at certain time intervals. of a structure that provides rain-snow water to the system, which is met with the addition of water. it is understood that it is not found. In addition, the soil / plant root will develop from the container. inefficient structure of the structure that provides water and moisture passage to the areas (do not consume the water in the container quickly) It is understood that because it works, it requires water addition at short intervals.

Mevcut teknikte yapilan literatür arastirmasinda karsilasilan diger bir basvuru da basvurudur. Ilgili dokuman incelendiginde, gövde ve kapak olmak üzere iki ana kisimdan olusan bir yapidan bahsedilmektedir. Su sizdirmazligini ve kapagin gövde üzerine yataklanmasini, ayni zamanda da ana gövde içerisindeki suyun buharlasmasini engellemeyi saglayan bir ara kapak/yapilanma bulunmamaktadir. Ayrica ana gövde içerisindeki su ve nemin topraga/bitkiye iletimini saglayan bir fitil yapilanmasi bulunmamaktadir. Another application encountered in the literature search made in the current technique is is the reference. When the related document is examined, it is composed of two main parts, the body and the cover. a structure is mentioned. Put the watertightness and the cover on the body. bedding and at the same time preventing the evaporation of the water in the main body. There is no intermediate cover/structure that provides it. In addition, the water in the main body and There is no wick structure that ensures the transmission of moisture to the soil/plant.

Sonuç olarak yukaridaki problemlerin varligi ve mevcut çözümlerin yetersizligi kurak veya her zaman sulama olanagi olmayan alanlarda fidan yetistirmek ile ilgili teknik alanda bir gelistirme yapmayi zorunlu kilmistir. As a result, the existence of the above problems and the inadequacy of the existing solutions a technical field related to growing saplings in areas where irrigation is not possible made development necessary.

BULUSUN AMACI Mevcut bulus, yukarida bahsedilen gereksinimleri karsilayan, tüm dezavantajlari ortadan kaldiran ve ilave bazi avantajlar getiren fidan yetistirme kabi ile ilgilidir. OBJECTIVE OF THE INVENTION The present invention satisfies the above-mentioned requirements, eliminates all disadvantages. It is about the seedling growing container that lifts and brings some additional advantages.

Bulusun ana amaci kurak veya her zaman sulama olanagi bulunmayan tarimsal alanlarda fidan/bitki yetistirmekte kullanilan, zaman içerisinde fidanin ihtiyaç duydugu suyu/nemi saglayan fidan yetistirme kabi ortaya koymaktir. The main object of the invention is in agricultural areas that are arid or not always irrigated. The water/moisture needed by the sapling over time, which is used for growing saplings/plants. It is to reveal the seedling growing container that provides.

Yukarida bahsedilen amaci gerçeklestirmek üzere bulusa konu fidan yetistirme kabi; o Bahsedilen fidan yetistirme kabi üst kapaginda olusturulan aerodinamik kapak tasarimi ile yüksek sicakliklarda kap içindeki buharlasmayi engelleyen yagmur suyu kirma ve toplama alanlari, 0 Ana gövdeye aktarilan suyun buharlasmasini engelleyen ve üst kapagin ana gövde üzerine yataklanmasini saglayan ara kapak, 0 Ana gövde alt kisminda konumlandirilmis topraga temasla, bitkinin ihtiyaç duydugu su ve nem iletimini optimum seviyede saglayan su iletim elemani (fitil) ihtiva etmektedir. In order to realize the above-mentioned purpose, the subject of the invention is the seedling growing container; o The aerodynamic cover formed on the aforementioned seedling growing container top cover rain water preventing evaporation in the container at high temperatures with its design crushing and collecting areas, 0 To prevent the evaporation of the water transferred to the main body and the upper cover to the main body intermediate cover that allows it to be bedded on it, 0 By contacting the ground positioned on the lower part of the main body, the plant needs It contains a water transmission element (wick) that provides water and moisture transmission at the optimum level. is doing.

Bulusun amaci ana gövde alt ve/veya yan kisimlarinda olusturulan su iletim elemanlari ile ana gövde içerisindeki suyun, dikilen fidan için gerekli nem ihtiyacini karsilayacak sekilde sürekli velveya belirli periyotlarla topraga aktariminin saglanmasidir. Böylece hem fidanin saglikli yetismesi için gerekli nem ve su ortami saglanmakta hem de ana gövde içerisindeki suyun çabuk tükenmesinin önüne geçilmistir. The aim of the invention is to use water transmission elements formed in the lower and/or side parts of the main body. the water in the main body to meet the moisture need for the planted sapling. It is to ensure that it is transferred to the soil continuously or in certain periods. Thus, the sapling Moisture and water environment required for its healthy growth is provided, as well as inside the main body. The rapid depletion of water is prevented.

Bulusun diger amaci üst kapak üzerinde sabit açilarla olusturulan yagmur kiranlar ile yagan yagmurun hasat edilip, üst kapak üzerinde olusturulan kanallar ve su aktarim boslugu ile ana gövdeye toplanmasini saglamaktir. Böylece kurak bölgelerde az olan yagislardan bitkinin hem daha fazla istifade etmesi saglanmis hem de kaba hazir su ilavesinin bir süre ertelenmesini saglayarak bakim araliginin uzamasini saglamaktir. The other purpose of the invention is to create rain breakers with fixed angles on the upper cover. With the channels formed on the upper cover and the water transfer gap, the main is to ensure that it is collected in the body. Thus, from the less precipitation in arid regions, the plant It is provided to benefit more and the addition of ready water to the container takes a while. is to extend the maintenance interval by delaying it.

Bulusun diger bir amaci da tasarlanan ara kapak vasitasiyla hem üst kapagin ana gövde üzerinde stabil ve mukavemetli sekilde sabitlenmesi saglanmis hem de ana gövde içerisindeki suyun çok sicak havalarda bile buharlasmasinin minimize edilmesini saglamaktir. Another aim of the invention is to ensure that both the upper cover and the main body are covered by the designed intermediate cover. It is fixed on the main body in a stable and durable way. It is to ensure that the evaporation of the water in it is minimized even in very hot weather.

Bulusun farkli bir amaci da konu fidan yetistirme kabini olusturan tüm unsurlarin tercihen atik kagitlardan olusan organik biyoçözünür malzemeden imal edilmesini saglamaktir. Böylece fidan belirli bir büyüklüge gelip, kaba ihtiyaci kalmadiginda, kap topragi kirletmeden toprakta çözünebilmektedir. Another aim of the invention is that all the elements that make up the subject sapling growing cabinet are preferably waste. It is to ensure that it is made of organic biodegradable material consisting of papers. Like this When the sapling reaches a certain size and no longer needs a pot, the pot can be kept in the soil without polluting the soil. can be resolved.

Bulusun yapisal ve karakteristik özellikleri ve tüm avantajlari asagida verilen sekiller ve bu sekillere atiflar yapilmak suretiyle yazilan detayli açiklama sayesinde daha net olarak anlasilacaktir ve bu nedenle degerlendirmenin de bu sekilleri ve detayli açiklama göz önüne alinarak yapilmasi gerekmektedir. The structural and characteristic features of the invention and all its advantages are given in the following figures and More clearly thanks to the detailed explanation with references to the figures. will be understood and therefore the assessment should also take these forms and detailed explanation into account. must be made by taking

SEKILLERIN KISA AÇIKLAMASI Mevcut bulusun yapilanmasi ve ek elemanlarla birlikte avantajlarinin en iyi sekilde anlasilabilmesi için asagida açiklamasi yapilan sekiller ile birlikte degerlendirilmesi gerekir. BRIEF DESCRIPTION OF THE FIGURES The embodiment of the present invention and the best use of its advantages with additional elements In order to be understood, it should be evaluated together with the figures explained below.

Sekil- 1; Bulus konusu fidan yetistirme kabinda genel görünümüdür. Figure 1; The subject of the invention is the general view of the seedling growing cabinet.

Sekil- 2; Bulus konusu fidan yetistirme kabinda de monte görünümüdür. Figure- 2; The subject of the invention is the mounted view in the seedling growing cabinet.

Sekil - 3a,3b; Bulus konusu fidan yetistirme kabinda yer alan ana gövdenin iç ve dis Sekil - 4a,4b; Bulus konusu fidan yetistirme kabinda yer alan ara kapagin alt ve üst Sekil- 5a,5b; Bulus konusu fidan yetistirme kabinda yer alan üst kapagin alt ve üst yüzeyinin detayli görünümüdür. Figure - 3a,3b; The inner and outer parts of the main body in the seedling growing cabinet, which is the subject of the invention. Figure - 4a,4b; The bottom and top of the intermediate cover in the seedling growing cabinet, which is the subject of the invention. Figure- 5a, 5b; The lower and upper surfaces of the upper cover in the seedling growing cabinet, which is the subject of the invention, detailed view.

Sekil - 6; Bulus konusu fidan yetistirme kabinda, üst kapagin ana gövdeden çikmamasini saglayan kilidin detay görünümüdür. Figure - 6; In the seedling growing cabinet, which is the subject of the invention, it is ensured that the top cover does not come out of the main body. This is the detail view of the lock.

REFERANS N UMARALARI A. Fidan yetistirme kabi . Ana gövde 11. Fidan boslugu 12. Su iletim elemani 13. Su tahliye kismi . Ara kapak 21. Kanal yatagi 22. Su aktarma yatagi 23. Su tahliye yatagi . Üst kapak 31. Yagmur kiran 32.Yagmur suyu iletim kanali 33. Su toplama kanali 34. Su aktarma boslugu 34.1. Aktarim gövdesi .T0p 36. Su tahliye noktasi 37. Fidan geçis boslugu 38. Kilit Çizimlerin mutlaka ölçeklendirilmesi gerekmemektedir ve mevcut bulusu anlamak için gerekli olmayan detaylar ihmal edilmis olabilmektedir. Bundan baska, en azindan büyük ölçüde özdes olan veya en azindan büyük ölçüde özdes islevleri olan elemanlar, ayni numara ile gösterilmektedir. REFERENCE N NUMBERS A. Sapling growing container . Chassis 11. Sapling space 12. Water transmission element 13. Water drain part . intermediate cover 21. Channel bed 22. Water transfer bearing 23. Water drain bed . Top cover 31. Rain Kiran 32. Rainwater transmission channel 33. Water collection channel 34. Water transfer gap 34.1. transmission body .T0p 36. Water discharge point 37. Sapling transition gap 38. Lock Drawings do not necessarily need to be scaled and are necessary to understand the present invention. details may be neglected. Moreover, at least to a large extent Elements that are identical, or at least substantially identical, are assigned the same number. is shown.

BULUSUN DETAYLI AÇIKLAMASI Bu detayli açiklamada, bulus konusu fidan yetistirme kabinin (A) tercih edilen yapilanmalari, sadece konunun daha iyi anlasilmasina yönelik olarak ve hiçbir sinirlayici etki olusturmayacak sekilde açiklanmaktadir. DETAILED DESCRIPTION OF THE INVENTION In this detailed explanation, preferred configurations of the seedling growing cabinet (A) which is the subject of the invention, only for better understanding of the subject and no limiting effect described in a way that does not constitute.

Bulus konusu fidan yetistirme kabi (A) temel olarak üç ana unsurdan olusmaktadir. Bunlar; yetistirilecek fidan için gerekli suyun depo edildigi ve yapiyi olusturan diger unsurlarin üzerine konumlandirildigi ana gövde (10), üzerinde olusturulan yapilanmalar ile yagmur ve kar sularini hasat ederek ana gövdeye (10) aktaran üst kapak (30), bahsedilen üst kapak (30) ile ana gövde (10) arasinda konumlandirilmis su sizdirmazligini, unsurlarin birbirine mukavemetli olarak tutunmasini ve kap içindeki suyun buharlasmasini engelleyen saglayan ara kapak (20) ihtiva etmektedir (Sekil-2). Üst kapak (30) üzerinde birbirine esit araliklarla ve yüzeyle esit açi yapacak sekilde disli yüzeyi formunda, aerodinamik tasarimi ile yüksek sicakliklarda kap içindeki buharlasmayi engelleyen, kenardan fidanin konumlanacagi orta kisma dogru azalan egimde olusturulmus en az bir yagmur kiran (31) bulunmaktadir. Söz konusu her iki yagmur kiran (31) arasinda kenarda ortaya dogru egimli sekilde olusturulmus en az bir yagmur suyu iletim kanali (32) bulunmaktadir. Her bir yagmur suyu iletim kanalinin (32) tasidigi suyun orta kisimda toplanarak, su aktarma bosluguna (34) tasiyan fidan geçis boslugu (37) etrafinda dairesel olarak olusturulmus su toplama kanali (33) bulunmaktadir. Toplanan sularin ana gövdeye (10) tasinmasi, üst kapaktan (30) alt kisma dogru daralan konik formda olusturulmus aktarim gövdesine (34.1) sahip su aktarma boslugu (34) ile saglanmaktadir. Söz konusu aktarim boslugu (34) üst kismi, kanallarda su tasinimi olmadigi zaman buharlasmayi önlemek üzere küre formunda bir top (35) ile kapatilmistir. Bahsedilen top (35) su basinci ile boslugun üzerinde yatayda hareket ederek, açilip-kapanmasini saglamaktadir. Sisteme disaridan hazir su aktarimi da su aktarma boslugu (34) vasitasiyla saglanmaktadir. Ana gövdenin (10) dolup, yagisin devam etmesi durumunda fazla su üst kapak (30) üzerinde su aktarim boslugu (34) paralelinde ve kapak kenar kisimda olusturulan su tahliye noktasindan (36) yapi disina atilmaktadir. Üst kapagin (30) ana gövde (10) üzerine mukavemetli sekilde konumlanmasi için kenar kisimlarda olusturulmus en az bir kilit (38) bulunmaktadir. Burada kullanilacak kilit (38), disi ve erkek unsurdan olusacak tirnakli veya geçme sistemli olabilmektedir (Sekil 5a,5b). Üst kapagin (30) ana gövde (10) üzerinde yataklanmasi için iki unsur arasinda konumlanan ara kapak (20) bulunmaktadir. Söz konusu ara kapak (20) tercihen üst kapak ebatlarinda olusturulmustur. Ara kapak (20) üzerinde kanal yatagi (21), su aktarma yatagi (22), su tahliye yatagi (23) bulunmaktadir. Kanal yatagi (21), yagmur suyu iletim kanali (32) formunda, kenardan gövdeye dogru olusturulmustur. Su aktarim yatagi (22), içerisinden aktarim gövdesi (34.1) geçecek sekilde ve formda olusturulmustur. Su tahliye yatagi (23) ise üst kisimdan su tahliye noktasinin (36), alt kisimda irtibatlanacagi su tahliye kismi (13) gelecek sekilde bosluk formunda olusturulmus (Sekil 4a,4b). The seedling growing container (A) which is the subject of the invention basically consists of three main elements. These; It is placed on the other elements that make up the structure and where the water required for the sapling to be grown is stored. the main body (10) on which it is positioned, the structures formed on it and the rain and snow The upper cover (30), which harvests the water and transfers it to the main body (10), is combined with the said upper cover (30). the water tightness positioned between the main body (10), the elements to each other It provides strong adhesion and prevents the evaporation of the water in the container. contains the intermediate cover (20) (Figure-2). Threaded on the upper cover (30) at equal intervals and at equal angles to the surface. surface form, with its aerodynamic design, it prevents evaporation in the container at high temperatures. It was formed with a decreasing slope from the edge towards the middle part where the sapling will be located. there is at least one rain rent (31). Between the two rain rents (31) in question at least one rainwater transmission channel (32) formed inclined towards the middle at the edge are available. In the middle part of the water carried by each rainwater transmission channel (32) by collecting, the sapling carrying the water transfer space (34) is circular around the transition space (37) There is a water collection channel (33) formed as a The collected waters are transferred to the main body. (10) transport, transmission formed in conical form, narrowing from the upper cover (30) to the lower part It is provided by the water transfer gap (34) with its body (34.1). The said transfer The upper part of the gap (34) is designed to prevent evaporation when there is no water transport in the channels. It is closed with a ball (35) in the form of a spherical. Said ball (35) is filled by the water pressure and the void. It provides opening and closing by moving horizontally on it. external to the system ready water transfer is also provided through the water transfer gap (34). of the main body (10) If it is full and the rain continues, the excess water is transferred on the upper cover (30). Structure from the water discharge point (36) formed in parallel with the gap (34) and on the cover edge. is thrown out. The upper cover (30) is firmly attached to the main body (10). There is at least one lock (38) formed on the sides for positioning. Here The lock (38) to be used is made of a female and a male element, with claws or with a snap system. (Figure 5a, 5b). Positioned between two elements in order to support the upper cover (30) on the main body (10). there is an intermediate cover (20). Said intermediate cover (20) is preferably in the dimensions of the upper cover. has been created. Channel bed (21), water transfer bed (22), water drain on the intermediate cover (20) It has a bed (23). Channel bed (21) is in the form of rain water transmission channel (32), formed from the edge to the body. Water transfer bearing (22) It is formed in such a way that the body (34.1) passes and in the form. If the water drain bed (23) is The water discharge part (13) where the water discharge point (36) will be connected from the lower part will come. It was formed in the form of a blank in the figure (Figure 4a,4b).

Ana gövde (10) ortasinda fidanin konumlanip toprak ile bulusacagi fidan boslugu (11) bulunmaktadir. Ana gövde (10) alt kisminda konumlandirilmis topraga temasi ile bitkinin ihtiyaç duydugu su ve nem iletimini optimum seviyede saglayan en az bir su iletim elemani/fitil (12) bulunmaktadir. Söz konusu su iletim elemaninin/fitilin (12) toprak ile temas edecek uç kisimlari silindirik ip formunda olusturulmustur. Ana gövde (10) üst kisminda su tahliye yatagi (23) ve su tahliye noktasinin (36) gelecegi noktada disa dogru egimli olusturulmus su tahliye kismi (13) bulunmaktadir. Sapling space in the middle of the main body (10) where the sapling will be positioned and meet the soil (11) are available. The main stem (10) is positioned in the lower part of the plant with its contact with the ground. at least one water transmission system that provides the water and moisture transmission it needs at the optimum level. element/wick (12). The contact of the said water transmission element/wick (12) with the ground The end parts to be cut are formed in the form of cylindrical rope. Water in the upper part of the main body (10) inclined outward at the point where the drain bed (23) and the water discharge point (36) will come. There is a water discharge section (13) formed.

Bulusa konu fidan yetistirme kabinin (A) tüm unsurlari tercihen organik biyoçözünür malzemeden imal edilmektedir. Söz konusu biyoçözünür malzeme genellikle atik kagitlardan olusmaktadir. Fidan yetistirme kabinin (A) biyoçözünür malzemeden olusmasi ile fidan belirli bir büyüklüge gelip, kaba ihtiyaci kalmadiginda, kap topragi kirletmeden toprakta çözünebilmektedir. All elements of the seedling growing cabinet (A) subject to the invention are preferably organic biodegradable. is made of material. The biodegradable material in question is usually from waste paper. is formed. Since the sapling growing cabinet (A) is made of biodegradable material, the sapling is when it comes to a size and no longer needs the pot, the container is in the soil without polluting the soil. can be resolved.

Bu basvurunun koruma kapsami istemler kisminda belirlenmis olup yukarida kesinlikle örnekleme amaciyla anlatilanlarla sinirli tutulamaz teknikte uzman bir kisinin bulusta ortaya konan yeniligi, benzer yapilanmalari kullanaraktan ortaya koyabilecegi ve/veya bu yapilanmayi ilgili teknikte kullanilan benzer amaçli diger alanlara da uygulayabilecegi açiktir. The scope of protection of this application has been determined in the claims section and It cannot be limited to what is described for exemplary purposes. It is revealed in the invention by a person skilled in the art. that it can reveal the innovation by using similar structures and/or It is clear that it can also apply the structuring to other fields with similar purposes used in the related art.

Dolayisiyla böyle yapilanmalarin yenilik ve özellikle teknigin bilinen durumunun asilmasi kriterinden yoksun olacagi da asikardir.Therefore, the innovation of such structuring and especially the state of the art is overcome. It is obvious that it will lack the criteria.

Claims (2)

ISTEMLERREQUESTS 1. Bulus, kurak veya her zaman sulama olanagi bulunmayan tarimsal alanlarda fidan/bitki yetistirmekte kullanilan, zaman içerisinde fidanin ihtiyaç duydugu suyu/nemi saglayan, - Yetistirilecek fidan için gerekli suyun depo edildigi ve yapiyi olusturan diger unsurlarin üzerine konumlandirildigi ana gövde (10), o Üzerinde olusturulan yapilanmalar ile yagmur ve kar sularini hasat ederek ana gövdeye (10) aktaran üst kapak (30), Içeren biyoçözünür malzemeden mamul fidan yetistirme kabi (A) olup, özelligi; - Bahsedilen üst kapak (30) ile ana gövde (10) arasinda konumlandirilmis, su sizdirmazligini ve iki unsurun birbirine mukavemetli olarak tutunmasini saglayan, ana gövdeye (10) aktarilan suyun buharlasmasini engelleyen üst kapak (30) formunda olusturulmus en az bir ara kapak (20), 0 Ana gövde (10) alt kisminda konumlandirilmis, topraga su ve nem iletimini saglayan, toprak ile temas edecek uç kisimlari silindirik ip formunda olusturulmus, topraga temasi ile bitkinin ihtiyaç duydugu su ve nem iletimini optimum seviyede saglayan en az bir su iletim elemani/fitil (12), 0 Üst kapak (30) üzerinde birbirine esit araliklarla ve yüzeyle esit açi yapacak sekilde disli yüzeyi formunda, aerodinamik tasarimi ile yüksek sicakliklarda kap içindeki buharlasmayi engelleyen, kenardan fidanin konumlanacagi orta kisma dogru azalan egimde olusturulmus en az bir yagmur kiran (31), 0 Üst kapak (30) üzerinde toplanan sularin ana gövdeye (10) tasinmasini saglayan, üst kapaktan (30) alt kisma dogru daralan konik formda olusturulmus aktarim gövdesine (34.1) sahip en az bir su aktarma boslugu (34), içermesi ile karakterize edilmektedir.1. The invention is the main stem (10), which is used to grow saplings/plants in arid or agricultural areas where irrigation is not always available, provides the water/moisture needed by the seedling over time, - The water required for the sapling to be grown is stored and the other elements that make up the structure are placed on it, o The top cover (30) that harvests rain and snow waters and transfers them to the main body (10) with the structures formed on it, It is a sapling growing container (A) made of biodegradable material, and its feature is; - At least one intermediate cover (20) in the form of an upper cover (30) positioned between the said upper cover (30) and the main body (10), providing water tightness and a strong adhesion of the two elements to each other, preventing the evaporation of the water transferred to the main body (10). ), 0 At least one water transmission element located on the lower part of the main body (10), providing water and moisture transmission to the soil, formed in the form of cylindrical threads at the ends that will contact the soil, providing the optimum level of water and moisture transmission required by the plant with its contact with the soil/ wick (12), 0 On the top cover (30) with equal intervals and at equal angles to the surface, in the form of a threaded surface, with its aerodynamic design, which prevents evaporation in the container at high temperatures, at least one rain beam formed from the edge towards the middle part where the sapling will be located ( 31), 0 By having at least one water transfer cavity (34) with a transfer body (34.1) formed in a conical form, narrowing from the upper cover (30) to the lower part, allowing the water collected on the upper cover (30) to be carried to the main body (10). is characterized. 2. istem 1`e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen ara kapak (20) üzerinde olusturulmus, üst kapak (30) üzerindeki yagmur suyu iletim kanali (32) formunda, kenardan fidan bosluguna (11) dogru olusturulmus en az bir kanal yatagi (21) içermesidir. Istem 1'e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen ara kapakta (20) olusturulmus, içerisinden konik formdaki aktarim gövdesi (34.1) geçecek sekilde ve formda olusturulmus en az bir su aktarim yatagi (22) içermesidir. Istem 1'e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen ara kapakta (20) olusturulmus, üst kisimdan su tahliye noktasinin (36), alt kisimda irtibatlanacagi su tahliye kismi (13) gelecek sekilde bosluk formunda olusturulmus en az bir su tahliye yatagi (23) içermesidir. . Istem 1'e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen üst kapak (30) üzerindeki aktarim boslugu (34) üst kisminin kanallarda su tasinimi olmadigi zaman buharlasmayi önlemek üzere kapatilmasini saglayan, su basinci ile boslugun üzerinde yatayda hareket ederek, açilip-kapanmasini (su basinci ile açilan, su kesilince bosluga oturan) küre formunda en az bir top (35) içermesidir. . Istem 1'e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen üst kapak (30) üzerinde olusturulmus, ana gövdenin (10) dolup, yagisin devam etmesi durumunda fazla suyun disari atilmasini saglamak üzere, su aktarim boslugu (34) paralelinde ve kapak kenar kisimda olusturulmus en az bir su tahliye noktasi (36) içermesidir. Istem 1'e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen üst kapagin (30) ana gövde (10) üzerine mukavemetli sekilde konumlanmasi için kenar kisimlarda olusturulmus, disi ve erkek unsurdan olusacak tirnakli ve/veya geçme sistemli en az bir kilit (38) içermesidir. Istem 1'e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen ana gövde (10) üst kisminda, su tahliye yatagi (23) ve su tahliye noktasinin (36) gelecegi noktada disa dogru egimli olusturulmus en az bir su tahliye kismi (13) içermesidir. Istem 1'e uygun bir fidan yetistirme kabi (A) olup, özelligi; bahsedilen biyoçözünür malzemenin tercihen atik kagit içermesidir.2. It is a sapling growing container (A) according to claim 1, its feature is; it contains at least one channel bed (21) formed on the said intermediate cover (20) in the form of a rainwater transmission channel (32) on the upper cover (30) and formed from the edge towards the seedling space (11). It is a sapling growing container (A) according to claim 1, its feature is; it contains at least one water transfer bearing (22) formed in the said intermediate cover (20) and formed in such a way that the conical transfer body (34.1) passes through it. It is a sapling growing container (A) according to claim 1, its feature is; it contains at least one water discharge bed (23) formed in the said intermediate cover (20) and formed in the form of a space, in such a way that the water discharge point (36) from the upper part will be connected to the water discharge part (13) at the lower part. . It is a sapling growing container (A) according to claim 1, its feature is; The transmission gap (34) on the said upper cover (30) is in the form of a sphere, which ensures that the upper part is closed to prevent evaporation when there is no water transport in the channels, moves horizontally over the gap with water pressure, and opens and closes (opened by water pressure, sitting in the gap when water is cut off) comprising at least one ball (35). . It is a sapling growing container (A) according to claim 1, its feature is; it contains at least one water discharge point (36) formed on the said upper cover (30), parallel to the water transfer space (34) and on the cover edge, in order to ensure that the main body (10) is full and the excess water is discharged if the rain continues. It is a sapling growing container (A) according to claim 1, its feature is; it contains at least one lock (38) with claws and/or snap system, which is formed on the sides and consists of male and female elements, in order to position the said top cover (30) on the main body (10) in a strong manner. It is a sapling growing container (A) according to claim 1, its feature is; on the upper part of the said main body (10), it includes at least one water discharge section (13) formed with an outward inclination at the point where the water discharge bed (23) and the water discharge point (36) will come. It is a sapling growing container (A) according to claim 1, its feature is; said biodegradable material preferably includes waste paper.