TARIFNAME SEBEKE ELEKTRIGI KULLANMADAN ÇALISAN SENSÖRLÜ BATARYALAR Teknik Alan Bu bulus sebeke elektrigi kullanmadan çalisan sensörlü bataryalar ile ilgilidir. Ev, isyeri, Avm, Okul vb. tüm lavabo içeren mekanlarda kullanilabilir. Önceki Teknik Su anda kullanilan bütün sensörlü bataryalar elektrige muhtaçtir. Geleneksel olarak enerjisini sebeke elektriginden karsilarlar. Herhangi bir elektrik kesintisi ihtimali içinse bünyesinde pil benzeri güç depolayan aygit bulundurmaktadirlar. Bulusun Amaçlari Su tasarrufu amaciyla ev, isyeri, avm, turistik tesisler, okul, kamu kurumlari vb. tüm lavabo içeren mekanlarda bolca sensörlü bataryalar kullanilmaktadir. Özellikle lavabo yakinlarinda sebeke elektrigi bulunmayan ve su tasarrufu için sensörlü batarya kullanilmak istenen bir mekan için tadilat gerekmektedir. Tadilatlar ise masrafa, zaman kaybina vb. sikintilara yol açar. Yani tadilat gerektirmeyen ve sebeke elektrigine ihtiyaç duymayan, ihtiyaç duydugu enerjiyi kendi üretebilen bir sisteme ihtiyaç duyulmustur. Böylece hem su tasarrufu hem elektrik tasarrufu hem de tadilat tasarrufu amaçlanmistir. Resimlerin Açiklamasi Bu bulusun amacina ulasmak için gerçeklestirilen Sebeke Elektrigi Kullanmadan Çalisan Sensörlü Bataryalarin sematik gösterimi sekilde gösterilmistir. Sekil 1: Önden görünüs. Referanslarin Açiklanmasi 1: Pilleri sarj eden enerji deposu, 2: Sensörlü batarya, 3: Sebekeden gelen su borusu, 4: Sudan elektrik üreten dinamo, : Dinamoda üretilen enerjinin enerji deposuna aktarimini saglayan elektrik kablosu, 6: Enerji deposunda üretilmis enerjiyi sensörlü bataryaya aktaran elektrik kablosu, 7: Dinamodan geçen suyu sensörlü bataryaya aktaran su borusu, 8: Enerji deposunda enerji depolamak için kullanilan sarj li piller, 9: Bataryada bulunan sensör, : Lavabo. Bulusun Detayli Açiklamasi BulusumuZ, Pilleri sarj eden Enerji deposu (l) , Sensörlü Batarya (2) , Sebekeden gelen su borusu (3) , Sudan elektrik üreten dinamo (4) , Dinamoda üretilen enerjinin enerji deposuna aktarimini saglayan elektrik kablosu (5) , Enerji deposunda üretilmis enerjiyi sensörlü bataryaya aktaran elektrik kablosu (6) , Dinamodan geçen suyu sensörlü bataryaya aktaran su borusu (7) , Enerji deposunda enerji depolamak için kullanilan sarj li piller (8) , Bataryada bulunan sensör (9) , Lavabo (10) birimlerinden olusmaktadir. BulusumuZda öncelikle enerji deposunda (l) bulunan sarj li pillerin (8) ilk önce dolu olmasi gerekiyor. Sonrasinda bir kisi sensörlü bataryanin (2) sensörüne (9) elini uzattiginda su lavaboya (10) akmaya ve sistem çalismaya baslar. Sehir sebekesinden gelen su (3) , sudan elektrik üreten dinamoya (4) girer. Burada enerji üretimi gerçeklesir ve enerji kablosu (5) ile pilleri sarj eden enerji deposuna (l) ulasir. Burada sarj olan piller (8) içlerindeki enerjiyi elektrik kablosu ile (6) sensörlü bataryaya (2) ulastirir. Bu durum sensörlü musluk kullanildikça devam eder. Bulusun Sanayiye Uygulanma Biçimi Açiklandigi üzere Sebeke Elektrigi Kullanmadan Çalisan Sensörlü Bataryalarin tüm cihaz ve parçalari üretilebilir, bulunabilir ve sanayiye uygulanabilir durumdadir. Evlerde, egitim kurumlarinda, Avmalerde, Isyerlerinde, Turistik Tesisler, Oteller, Dinlenme Tesisleri, Stadyumlar , Kamu kurumlari ve her türlü tuvalet bulunduran mekanlarda kullanilabilir. TR TR TR TR DESCRIPTION BATTERIES WITH SENSORS THAT WORK WITHOUT MAINS ELECTRICITY Technical Field This invention is about batteries with sensors that operate without using mains electricity. Home, workplace, shopping mall, school etc. It can be used in all places containing sinks. Prior Art All sensor batteries currently used require electricity. Traditionally, they get their energy from mains electricity. In case of any power outage, they have a battery-like device that stores power. Purposes of the Invention In order to save water, it can be used in homes, workplaces, shopping malls, tourist facilities, schools, public institutions, etc. Sensor faucets are widely used in all areas containing sinks. Renovation is required, especially for a place where there is no mains electricity near the sink and where a sensor battery is wanted to be used to save water. Renovations cause expense, loss of time, etc. causes troubles. In other words, a system that does not require renovation, does not need mains electricity, and can produce the energy it needs on its own was needed. Thus, it is aimed to save water, save electricity and save renovations. Description of the Pictures The schematic representation of the Sensor Batteries Working Without Using Mains Electricity, which was realized to achieve the purpose of this invention, is shown in the figure. Figure 1: Front view. Explanation of References 1: Energy tank that charges the batteries, 2: Battery with sensor, 3: Water pipe coming from the network, 4: Dynamo that produces electricity from water, : Electric cable that transfers the energy produced in the dynamo to the energy tank, 6: Electricity that transfers the energy produced in the energy tank to the battery with sensor cable, 7: Water pipe that transfers the water passing through the dynamo to the sensor battery, 8: Rechargeable batteries used to store energy in the energy tank, 9: Sensor in the battery, : Sink. Detailed Description of the Invention OUR Invention: Energy tank that charges the batteries (l), Battery with sensor (2), Water pipe coming from the network (3), Dynamo that produces electricity from water (4), Electric cable (5) that transfers the energy produced in the dynamo to the energy tank, Energy It consists of the electric cable (6) that transfers the energy produced in the tank to the sensor battery, the water pipe (7) that transfers the water passing through the dynamo to the sensor battery, the rechargeable batteries used to store energy in the energy tank (8), the sensor in the battery (9), and the sink (10). . In our invention, the rechargeable batteries (8) in the energy tank (l) must first be charged. Afterwards, when a person reaches the sensor (9) of the sensor faucet (2), water flows into the sink (10) and the system starts to work. Water (3) coming from the city network enters the dynamo (4) that produces electricity from the water. Energy production takes place here and reaches the energy storage (1) that charges the batteries via the energy cable (5). Here, the charged batteries (8) transmit their energy to the sensor battery (2) via the electric cable (6). This situation continues as long as the sensor tap is used. How the Invention is Applied to Industry As explained, all devices and parts of Sensor Batteries Working Without Using Mains Electricity can be produced, found and applied to industry. It can be used in homes, educational institutions, shopping malls, workplaces, touristic facilities, hotels, recreation facilities, stadiums, public institutions and places with all kinds of toilets. TR TR TR TR