TR2021019325U5 - Two-compartment defrost container. - Google Patents
Two-compartment defrost container.Info
- Publication number
- TR2021019325U5 TR2021019325U5 TR2021/019325U TR2021019325U TR2021019325U5 TR 2021019325 U5 TR2021019325 U5 TR 2021019325U5 TR 2021/019325 U TR2021/019325 U TR 2021/019325U TR 2021019325 U TR2021019325 U TR 2021019325U TR 2021019325 U5 TR2021019325 U5 TR 2021019325U5
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- defrost
- water
- compartment
- container
- defrost container
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 70
- 238000000034 method Methods 0.000 claims abstract description 15
- 238000002844 melting Methods 0.000 claims abstract description 7
- 230000008018 melting Effects 0.000 claims abstract description 7
- 230000000844 anti-bacterial effect Effects 0.000 claims description 13
- 239000004744 fabric Substances 0.000 claims description 13
- 238000001704 evaporation Methods 0.000 claims description 8
- 230000008020 evaporation Effects 0.000 claims description 7
- 241000894006 Bacteria Species 0.000 claims description 4
- 241000700605 Viruses Species 0.000 claims 1
- 238000010257 thawing Methods 0.000 abstract description 4
- 238000001816 cooling Methods 0.000 description 6
- 239000003507 refrigerant Substances 0.000 description 5
- 230000000694 effects Effects 0.000 description 3
- 238000010438 heat treatment Methods 0.000 description 3
- 208000035473 Communicable disease Diseases 0.000 description 2
- 238000001035 drying Methods 0.000 description 2
- 238000005265 energy consumption Methods 0.000 description 2
- 239000012530 fluid Substances 0.000 description 2
- 239000002245 particle Substances 0.000 description 2
- 239000002994 raw material Substances 0.000 description 2
- 230000001580 bacterial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 239000002826 coolant Substances 0.000 description 1
- 230000007797 corrosion Effects 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000005755 formation reaction Methods 0.000 description 1
- 230000008014 freezing Effects 0.000 description 1
- 238000007710 freezing Methods 0.000 description 1
- 238000010309 melting process Methods 0.000 description 1
- 238000005192 partition Methods 0.000 description 1
- 230000035939 shock Effects 0.000 description 1
- 238000004904 shortening Methods 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
- 230000033772 system development Effects 0.000 description 1
- 239000012808 vapor phase Substances 0.000 description 1
Landscapes
- Defrosting Systems (AREA)
Abstract
Buluş, evaporatör yüzeyinde oluşan karlanma veya buzlanmaların defrost (buz çözme) süreci ile eritilmesi ile oluşan suyun sistemden uzaklaştırılmak için içerisinde kısa süreli depolandığı iki bölmeli defrost kabı ile ilgilidir.The invention relates to a two-compartment defrost container in which the water formed by the melting of the frost or ice formed on the evaporator surface by the defrost (defrosting) process is stored for a short time in order to be removed from the system.
Description
TARIFNAME IKI BÖLMELI DEFROST KABI Bulusun ilgili oldugu teknik alan: Bulus, evaporatör yüzeyinde olusan karlanma veya buzlanmalarin defrost (buz çözme) süreci ile eritilmesi ile olusan suyun sistemden uzaklastirilmak için içerisinde kisa süreli depolandigi iki bölmeli defrost kabi ile ilgilidir. DESCRIPTION TWO SECTION DEFROST CONTAINER Technical field to which the invention relates: The invention is designed to defrost the frost or ice formed on the evaporator surface. In order to remove the water formed by melting the water from the system, it is used for a short time. It is related to the two-compartment defrost container where it is stored.
Teknigin bilinen durumu: Endüstriyel sogutucularda belirli zaman araliklarinda evaporatör üzerinde biriken karlanma veya buzlanmalarin eritilmesi amaciyla yapilan bu periyot, defrost süreci olarak adlandirilmaktadir. Known state of the technique: It accumulates on the evaporator at certain intervals in industrial coolers. This period, which is carried out to melt snow or ice, is the defrost process. It is called.
Evaporatörler. sogutma sisteminde, sogutucu akiskanin alçak basinçta girerek isi çekilmesi ile buharlastiktan sonra buhar fazindan çiktigi sogutma isleminin yapildigi bölümdür. Sogutucu akiskan, evaporatörün kanallarina girince isiyi, sogutulan maddeden ya da ortamdan sogurur ve isiyi ortamdan absorbe ederken de kaynamaya baslayarak buharlasir. Bu islemler sonucunda evaporatör, tüm sistemin genel amaci olan sogutma olayini gerçeklestirmektedir. Evaporators. In the cooling system, the refrigerant enters at low pressure and heats The cooling process is carried out in which it comes out of the vapor phase after evaporating with withdrawal. is the section. When the refrigerant enters the channels of the evaporator, it transfers the heat to the cooled absorbs from the substance or environment and boils while absorbing heat from the environment. It starts to evaporate. As a result of these processes, the evaporator becomes the general purpose of the entire system. It performs the cooling effect.
Evaporatörlerin yüzey sicakliklarinin 0°C'nin altina düstügü durumlarda, havadaki nem, kar veya buz halinde yüzey üzerinde toplanmaktadir. Bu durum havadan yüzeye isi transferini yavaslatmakta ve sogutma kapasitesini düsürmektedir. Böyle durumlarda isi geçisini arttirmak, buz veya kari bertaraf etmek için defrost (buz çözme) islemi uygulanmak zorundadir. Evaporatör yüzeyinde olusan buz tabakasi isil direnci arttirmakta yani isi transferini yavaslatmaktadir. Evaporatör ve kondenser gibi isi degistiricilerdeki temel amaç istenilen isi transferini saglamasidir. Evaporatörlerde isi transferini yavaslatacak kar ve buz tabakalari enerji verimliligi açisindan göz önünde bulundurulmali ve bu unsurlarin önüne geçilmelidir. In cases where the surface temperatures of the evaporators fall below 0°C, Moisture collects on the surface in the form of snow or ice. This is air to surface It slows down heat transfer and reduces cooling capacity. Like this defrosting to increase heat transfer and remove ice or snow in certain situations The procedure must be applied. Thermal resistance of the ice layer formed on the evaporator surface It increases, that is, slows down the heat transfer. Heat such as evaporator and condenser The main purpose of exchangers is to provide the desired heat transfer. Heat in evaporators Snow and ice layers that will slow down the transfer should be taken into consideration in terms of energy efficiency. should be kept and these elements should be prevented.
Mevcut sistemde kullanilan defrost kaplari tek bölmeden olusmaktadir. Defrost islemi sonrasi açiga çikan belirli miktardaki su, bu kaplarda kisa süreli olarak depolanmakta ve sonrasinda da çesitli yöntemlerle bertaraf edilmektedir. Defrost kabindaki suyun tasmasi halinde bakteri içeren su ortama sizabilmekte ve bulasici hastaliklara yol açabilmektedir. The defrost containers used in the current system consist of a single compartment. Defrost process A certain amount of water released after the operation is stored in these containers for a short time. and is subsequently disposed of by various methods. Defrosting the water in the cabinet In case of overflow, water containing bacteria may leak into the environment and cause infectious diseases. It can open.
Mevcut sistemlerde defrost kabi içerisinde elektrikli rezistanslar bulunmaktadir ve bu rezistanslar sayesinde defrost suyu buharlastirilarak uzaklastirilmaktadir. Fakat bu yöntem de elektrik tüketimini arttirmakta ve rezistans gücünün yetersiz oldugu durumlarda kaptaki su tasmaktadir. Tasan su ise sogutma ünitesindeki elektriksel ekipmanlarin ve baglantilarin bulundugu noktalara ulastiginda tehlike arz ederek korozyona sebebiyet vermektedir. In existing systems, there are electrical resistances in the defrost container and this Thanks to the resistors, defrost water is evaporated and removed. But this This method also increases electricity consumption and causes resistance power to be insufficient. In some cases, the water in the container overflows. The overflowing water causes electrical damage in the cooling unit. poses a danger when it reaches the points where equipment and connections are located. causes corrosion.
Teknigin bilinen durumunda bulunan “TR 2018/1571?" numarali basvuruda defrost kabi içeren isi pompali bir bulasik makinasi açiklanmaktadir. Evaporatörde veya su deposunda karlanma belirtisi oldugunda sebeke muslugundan alinan suyun defrost kabina aktarilmasini saglayan bir kontrol ünitesi bulunmaktadir. Defrost kabinin içerisinde ayrica rezistansli bir isitici da bulunmaktadir. Bulusta, sicaklik sensörü tarafindan evaporatörde karlanma belirtisi tespit edildigi takdirde kontrol ünitesi, sebeke muslugundan alinan suyun defrost kabina aktarilmasini saglamaktadir. derin dondurucu bölmeleri bulunan bir buzdolabinin evaporatörü etrafinda olusan kar ve buz parçaciklarinin, defrost sirasinda, su tahliye havuzuna kütle olarak düsmesini önleyen izgara ve bu kütlelerin, devreye giren Isiticilar yardimiyla eritilmesi ile ilgilidir. biriken kar ve buz parçaciklari erimeye basladiginda izgaranin üzerine düsmektedir. In the application numbered "TR 2018/1571?", which is in the state of the art, defrost A heat pump dishwasher containing the container is disclosed. in evaporator or water When there is a sign of snow in the tank, defrost the water taken from the mains tap. There is a control unit that allows the transmission to the cabin. Defrost cabinet There is also a resistance heater inside. Invention, temperature sensor If signs of frost on the evaporator are detected by the control unit, It ensures that the water taken from the mains tap is transferred to the defrost cabinet. Snow formed around the evaporator of a refrigerator with deep freezer compartments and prevent ice particles from falling in mass into the water drainage pool during defrost. It is about the preventing grid and melting these masses with the help of activated heaters. When the accumulated snow and ice particles begin to melt, they fall onto the grill.
Eritme islemi defrost sirasinda devreye giren elektriksel isitici ile saglanmaktadir. The melting process is provided by an electrical heater that is activated during defrost.
Böylece evaporatör üzerinde biriken kar ve buz parçalarinin dogrudan su tahliye havuzuna düserek su tahliye kanalini ve ara bölmeyi tikamasi önlenmistir. Thus, the snow and ice pieces accumulated on the evaporator can be removed directly from the water discharge. It is prevented from falling into the pool and blocking the water discharge channel and intermediate partition.
Teknigin bilinen durumunda bulunan “TR 2018/20584" numarali basvuru ise sogutucu dondurucu dolaplarda otomatik buz çözme islemi sirasinda defrost sürelerini kisaltarak enerji tüketimini düsüren ve olusan suyun donmadan tahliye edilmesini saglayan, antibakteriyel bir iç gövde yapilanmasi ile ilgilidir. Plastik iç hazne, antibakteriyel hammadde entegre edilmis termal sok etkisine dayanikli plastik hammaddeden mamul edilmistir. The application numbered "TR 2018/20584", which is in the state of the art, is a refrigerant. by shortening defrost times during automatic defrosting in freezer cabinets reduces energy consumption and ensures that the resulting water is discharged without freezing, It is related to an antibacterial inner body structure. Plastic inner chamber, antibacterial Made of plastic raw material resistant to thermal shock effect integrated into the raw material has been done.
Sonuç olarak yukarida anlatilan olumsuzluklardan dolayi ve mevcut çözümlerin konu hakkindaki yetersizligi nedeniyle ilgili teknik alanda bir gelistirme yapilmasi gerekli kilinmistir. As a result, due to the negativities explained above and the current solutions are Due to the inadequacy of the relevant technical field, it is necessary to develop has been killed.
Bulusun Kisa Açiklamasi ve Amaçlari Bulusun en önemli amaci, defrost suyunun tasmasinin engellenerek bu suyun uzaklastirilmasi sürecindeki enerji tüketiminin azaltilmasi yönünde enerji verimli bir sistem gelistirilmesidir. Brief Description and Purposes of the Invention The most important purpose of the invention is to prevent defrost water from overflowing and An energy efficient method to reduce energy consumption in the removal process system development.
Bulusun bir diger amaci, defrost suyunu buharlastirmak için defrost kabinda kompresör basma hatti borulari ile suyun isitilmasi ve bu sayede kondensere giren sogutucu akiskanin sicakliginin düsürülerek sogutma veriminin artirilmasina yönelik bir sistem gelistirilmesidir. Another purpose of the invention is to use a compressor in the defrost cabinet to evaporate the defrost water. Heating the water through the discharge line pipes and thus the refrigerant entering the condenser A system to increase cooling efficiency by reducing the temperature of the fluid is to be developed.
Bulusun bir diger amaci ise, iki bölmeli defrost kabinin defrost kabi birinci bölmesinde toplanan suyun içerisine emicilik özelligi yüksek antibakteriyel kumaslar yerlestirilmesi ve bu kumaslarin kondenserden atilan isi ile isitilan sicak hava akimi ile kurutulmasiyla buharlastirilabilecegi bir sistem gelistirilmesidir. Another purpose of the invention is to use the defrost container in the first compartment of the two-compartment defrost cabinet. Placing antibacterial fabrics with high absorbency into the collected water and by drying these fabrics with a hot air flow heated by the heat released from the condenser. The aim is to develop a system that can be evaporated.
Bulusun bir diger amaci ise, iki bölmeli defrost kabindaki ikinci bölmede su bulunmadigi zamanlarda kontrollü elektrikli isiticinin devre disi kalarak enerji tasarrufunun saglandigi bir sistem gelistirilmesidir. Another purpose of the invention is to create water in the second compartment of the two-compartment defrost cabinet. When it is not available, the controlled electric heater is disabled and provides energy. The aim is to develop a system that saves money.
Bulusun bir diger amaci ise, antibakteriyel kumas kullanilarak, yüzeylerde olusabilecek muhtemel bakterilere karsi anti bakteriyel bir iç ortam sartlarinin saglanmasidir. Another aim of the invention is to prevent the possible formations that may occur on the surfaces by using antibacterial fabric. Providing an anti-bacterial indoor environment against possible bacteria.
Sekillerin Açiklamasi: SEKIL-1; Bulus konusu çift bölmeli defrost kabinin görünümünü veren çizimdir. Description of Figures: FIGURE 1; The subject of the invention is a drawing showing the appearance of a double-compartment defrost cabin.
SEKIL-2; Bulus konusu çift bölmeli defrost kabinin görünümünü veren çizimdir. FIGURE-2; The subject of the invention is a drawing showing the appearance of a double-compartment defrost cabin.
SEKIL-3; Bulus konusu çift bölmeli defrost kabinin görünümünü veren çizimdir. FIGURE-3; The subject of the invention is a drawing showing the appearance of a double-compartment defrost cabin.
Bulusu Olusturan UnsurlarinlParçalarin Tanimlari Bu bulus ile gelistirilen iki bölmeli defrost (buz çözme) kabinin daha iyi açiklanabilmesi için sekillerde yer alan parça ve unsurlar numaralandirilmis olup, her bir numaranin karsiligi asagida verilmektedir: Kondenser Defrost kabi birinci bölme Defrost kabi ikinci bölme Kondenser fani Antibakteriyel kumas Kontrollü elektrikli isitici Birinci kaptan ikinci kaba tasma aparati Bulusun Ayrintili Açiklamasi Bulus, evaporatör yüzeyinde olusan karlanma veya buzlanmalarin defrost (buz çözme) süreci ile eritilmesi ile olusan suyun sistemden uzaklastirilmak için içerisinde kisa süreli depolandigi iki bölmeli defrost kabi ile ilgilidir. Definitions of the Elements and Parts That Make Up the Invention A better explanation of the two-compartment defrost cabinet developed with this invention The parts and elements in the figures are numbered, and each number The equivalent is given below: condenser Defrost cabinet first compartment Defrost cabinet second compartment condenser fan Antibacterial fabric Controlled electric heater First mate second coarse leash device Detailed Description of the Invention The invention is designed to defrost the frost or ice formed on the evaporator surface. In order to remove the water formed by melting the water from the system, it is used for a short time. It is related to the two-compartment defrost container where it is stored.
Defrost kabinda bulunan suyun kurutulmasini ortama verdigi sicak hava ile saglayan kondenser (1), evaporatör üzerinde biriken buzlarin eritilmesi sonucunda olusan sularin, kondenserde (1) bulunan kondenser fanindan (4) gelen sicak hava akimi ile buharlastirilmasinin saglandigi defrost kabi birinci bölme (2), defrost kabi birinci bölmedeki (2) suyun tasma riskine karsi emniyet saglamak amaciyla defrost kabi birinci bölmenin (2) yari kisminda konumlandirilan, suyun kontrollü elektrikli isitici (7) ile isitilarak suyun buharlasmasinin saglandigi defrost kabi ikinci bölme (3), sicak hava akimi verilmesini saglayan kondenserfani (4), yüksek basinç ve sicakliktaki sogutucu akiskanin defrost kabi içindeki suya isi aktarmasini ve orada defrost suyunun daha hizli buharlasmasini saglayan kompresör basma hatti borusu (5), defrost kabi birinci bölmede (2) bulunan su miktarinin arttigi durumda defrost kabi ikinci bölmeye (3) birinci kaptan ikinci kaba tasma aparatindan (8) suyun gelmesi ile birlikte suyun buharlasmasini hizlandiran kontrollü elektrikli isitici (7), suyun fazla olmasi durumunda defrost kabi birinci bölmeden (2) defrost kabi ikinci bölmeye (3) geçmesini saglayan birinci kaptan ikinci kaba tasma aparati (8) içermektedir. It ensures the drying of the water in the defrost cabin with the hot air it releases to the environment. condenser (1), resulting from the melting of ice accumulated on the evaporator. The water is removed by the hot air flow coming from the condenser fan (4) located in the condenser (1). The defrost container, where evaporation is provided, is the first compartment (2), the defrost container is the first compartment (2). Defrost container to ensure safety against the risk of water in the compartment (2) overflowing. Water-controlled electric heater (7) positioned halfway through the first compartment (2) The second compartment (3) of the defrost container, where the water evaporates by heating with hot air, The condenser fan (4), which provides the current flow, is used as a coolant at high pressure and temperature. The fluid transfers heat to the water in the defrost container and the defrost water there becomes more Compressor discharge line pipe (5), which ensures rapid evaporation, defrost container first If the amount of water in the compartment (2) increases, the defrost container is moved to the second compartment (3). When the water comes from the first container to the second container from the collar apparatus (8), the water controlled electric heater (7) that accelerates evaporation, in case there is excess water which allows the defrost container to pass from the first compartment (2) to the defrost container second compartment (3). It includes the first mate's second rough leash apparatus (8).
Söz konusu bulus ile gelistirilen defrost kabinda yukarida da belirtildigi üzere, defrost kabi birinci bölme (2) ve defrost kabi ikinci bölme (3) bulunmaktadir. Evaporatör üzerindeki kar veya buz halindeki su, çesitli teknikler ile eritilmekte ve evaporatör altinda bulunan tavadan drenaj hatti ile defrost kabinin birinci bölmesine (2) aktarilmaktadir. Defrost kabi birinci bölme (2) doldugunda, tasan su defrost kabi ikinci bölmeye (3) aktarilmaktadir. As stated above, in the defrost cabin developed with the invention in question, There is the first compartment (2) for the container and the second compartment (3) for the defrost container. evaporator The water in the form of snow or ice on the surface is melted with various techniques and the evaporator with the drainage line from the pan underneath to the first compartment of the defrost cabinet (2). is being transferred. When the first compartment (2) of the defrost container is full, the overflowing water enters the second compartment of the defrost container (2). It is transferred to the compartment (3).
Defrost kabindaki su buharlastirilana kadar orada kisa süreli depolanmaktadir. Fakat buharlasma sürecinde kumaslarda istenmeyen çesitli bakteri üremesi gibi problemler ile karsilasilabilmektedir. Endüstriyel sogutucunun alt ünitesi izgara seklinde oldugu için buharlasma yolu ile ortam (market. ev vb.) içerisine aktarilabilmektedir. Bir diger olasilik ise defrost kabindaki suyun tasmasi halinde bakteri içeren su ortama sizabilmekte ve bulasici hastaliklara yol açabilmektedir. Antibakteriyel kumas (6) bu süreçte suyu emmekte ve su kumasin yüzünden hava akimi vasitasi ile buharlastirilmaktadir. Bu sebeple, defrost kabi birinci bölmede (2) bu olasiliklarin giderilmesi için antibakteriyel kumas (6) kullanilmistir. The water in the defrost cabinet is stored there for a short time until it is evaporated. But Problems such as unwanted bacterial growth on fabrics during the evaporation process can be encountered. The lower unit of the industrial cooler is in the form of a grid. It can be transferred into the environment (market, home, etc.) by evaporation. Another The possibility is that if the water in the defrost cabinet overflows, water containing bacteria will be released into the environment. can leak and cause infectious diseases. Antibacterial fabric (6) this In the process, it absorbs water and the water is transferred through the air flow through the fabric. is evaporated. For this reason, the defrost container is located in the first compartment (2) to prevent these possibilities. Antibacterial fabric (6) was used to eliminate it.
Defrost kabinda bulunan defrost kabi birinci bölme (2) kompresör basma hatti borulari, antibakteriyel kumas (6) ve birinci kaptan ikinci kaba tasma aparatindan (8) olusmaktadir. Defrost kabi birinci bölme (2) suyun buharlasmasi için su ile temasli antibakteriyel kumas (6) içeren suyun daha hizli buharlasmasinin saglandigi bölümdür. Defrost kabindaki birinci bölmede (2) ise sicak hava akimi sayesinde suyun tamamen buharlastirilmasi amaçlanmistir. Defrost container first compartment (2) compressor discharge line pipes located in the defrost cabinet, antibacterial fabric (6) and the first mate's second coarse leash device (8). is occurring. Defrost tray first compartment (2) is in contact with water to evaporate the water. Containing antibacterial fabric (6), the water evaporates faster. is the section. In the first compartment (2) of the defrost cabinet, the water is removed by the hot air flow. It is intended to be completely evaporated.
Bahsedilen defrost kabinda bulunan defrost kabi ikinci bölme (3), su tasmasina karsi emniyet saglamak amaci ile bulunmaktadir. Ayrica suyun kontrollü elektrikli isitici (7) ile kontrollü bir sekilde isitilarak defrost kabinda biriken suyun buharlasmasinin saglandigi bölümdür. Defrost kabi ikinci bölme (3) birinci kaptan ikinci kaba tasma aparati (8) ve suyun tasmasi halinde devreye giren kontrollü elektrikli isiticidan (7) olusmaktadir. Fakat defrost kabi ikinci bölmede (3) su yokken kontrollü elektrikli isitici (7) devre disi kalmaktadir. Elektrikli isiticinin kontrollü oldugunun belirtilmesinin sebebi ise isiticinin sogutucu çalistigi süre boyunca çalismadigi ve sadece defrost kabinda belirli su seviyesine geldiginde (defrost kabi birinci bölmede (2) bulunan suyun defrost kabi ikinci bölmeye (3) geçmesi ile çalismaya baslayan) çalismasidir. Bu çalisma seklinin avantaji ise kontrollü elektrikli isitici (7) sürekli çalismadigindan dolayi enerji verimliligi saglanmaktadir. The second compartment (3) of the defrost container in the mentioned defrost cabinet is protected against water overflow. It exists to ensure safety. Additionally, water-controlled electric heater (7) evaporation of the water accumulated in the defrost cabinet by heating it in a controlled manner with This is the section where it is provided. Defrost container second compartment (3) first container second container apparatus (8) and the controlled electric heater (7) that is activated in case the water overflows. is occurring. However, when there is no water in the second compartment (3) of the defrost container, the controlled electric heater (7) remains disabled. The reason why it is stated that the electric heater is controlled If the heater is not working while the cooler is running and is only in the defrost cabinet When it reaches a certain water level (the defrost container defrosts the water in the first compartment (2) It starts working when the container moves to the second compartment (3). This work The advantage of this shape is that the controlled electric heater (7) does not operate continuously, thus saving energy. efficiency is ensured.
Sistemde defrost kabindaki su, öncelikle içerisinde yüksek sicaklikta sogutucu akiskan bulunan kompresör basma hatti borularina (5) temas edip bir miktar buharlasmaktadir. In the system, the water in the defrost cabin is primarily filled with high temperature refrigerant. It comes into contact with the compressor discharge line pipes (5) and evaporates to some extent.
Kalan su kütlesi ise antibakteriyel kumaslar (6) sayesinde homojen bir sekilde emilmekte ve kondenserden (1) atilan sicak hava akimi ile de kurutulmaktadir. Fakat tasma durumuna karsi da rezistans kullanilabilmektedir ve tasma olmamasi halinde de rezistans devreye girmemektedir. Rezistansin sürekli çalisir durumda olmamasi sebebiyle de enerjiden tasarruf saglanabilmektedir. The remaining water mass is collected homogeneously thanks to antibacterial fabrics (6). It is absorbed and dried by the hot air flow discharged from the condenser (1). But Resistance can also be used against leash and in case there is no leash. The resistance does not come into play. Resistance not always working Therefore, energy savings can be achieved.
Bulus ile birlikte gelistirilen defrost kabinin uzunlugu 250 mm ile 2000 mm, genisligi uzunluklar sogutucu boyutlarina göre degisiklik gösterilebilmektedir. Ortalama büyüklükte bir sogutucu baz alindiginda defrost kabi içerisindeki suyun defrost kabi ikinci bölmeye (3) tasmamasi ve rezistansin devreye girmemesi için bahsedilen boyut araliklari tercih edilmistir. Ayni zamanda sogutucunun alt ünitesinde defrost kabinin konumlandirilacagi alan da sinirlidir. Defrost kabi, defrost sonucunda olusan su miktarina bagli olarak farkli yüksekliklerde tasarlanabilmektedir. The length of the defrost cabinet developed with the invention is 250 mm and 2000 mm, and the width is Lengths may vary depending on cooler dimensions. Average Based on a large sized cooler, the water in the defrost container The mentioned size is used to prevent the second compartment (3) from overflowing and the resistance from being activated. intervals are preferred. At the same time, there is a defrost cabinet in the lower unit of the cooler. The area where it will be positioned is also limited. Defrost container, water formed as a result of defrost It can be designed at different heights depending on the quantity.
Defrost suyunun fazla olmasi durumunda, örnegin derin dondurucularda, boyut sinirlamasina bagli olarak antibakteriyel kumaslar (6), kondenser fanlari ve defrost kabi ikinci bölmedeki (3) kontrollü elektrikli isitici (7) suyu uzaklastirmada yetersiz kalabilmektedir. Bu durumda defrost kabindaki su tasmaktadir ve bu da istenmeyen bir durumdur. Böyle durumlar için defrost kabi birinci bölmeye (2) de emniyet amaçli kontrollü elektrikli isitici (7) yerlestirilebilmektedir. If there is a lot of defrost water, for example in deep freezers, the size Depending on the limitation, antibacterial fabrics (6), condenser fans and defrost The controlled electric heater (7) in the second compartment (3) is insufficient to remove water. can stay. In this case, the water in the defrost cabinet overflows and this causes undesirable effects. is a situation. For such cases, the defrost container is placed in the first compartment (2) for safety purposes. A controlled electric heater (7) can be placed.
Claims (5)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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TR2021/019325U TR2021019325U5 (en) | 2021-12-07 | 2021-12-07 | Two-compartment defrost container. |
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Application Number | Priority Date | Filing Date | Title |
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TR2021/019325U TR2021019325U5 (en) | 2021-12-07 | 2021-12-07 | Two-compartment defrost container. |
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TR2021019325U5 true TR2021019325U5 (en) | 2022-01-21 |
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Application Number | Title | Priority Date | Filing Date |
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TR2021/019325U TR2021019325U5 (en) | 2021-12-07 | 2021-12-07 | Two-compartment defrost container. |
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TR (1) | TR2021019325U5 (en) |
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2021
- 2021-12-07 TR TR2021/019325U patent/TR2021019325U5/en unknown
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