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To indicate that a power outage has occurred, some models of emergency lights can only be shut off manually after they have been activated, even if the main building power has come back on. The system will stay lit until the reset button on the side of the unit is pressed.
an emergency light is designed to come on when the power black out. Every model, therefore, requires some sort of a battery or generator system that could provide electricity to the lights during a blackout. The earliest models were incandescent light bulbs which could dimly light an area during a blackout and perhaps provide enough light to solve the power problem or evacuate the building. It was quickly realized, however, that a more focused, brighter, and longer-lasting light was needed. The modern emergency floodlight provides a high-lumen, wide-coverage light that can illuminate an area quite well. Some lights are halogen, and provide a light source and intensity similar to that of an automobile headlight.
Modern emergency Lampu is installed in virtually every commercial and high occupancy residential building. The lights consist of one or more incandescent bulbs or one or more clusters of high-intensity light-emitting diodes (LED). The emergency lighting heads are usually either PAR 36 sealed beams or wedge base lamps. All units have some sort of a reflector to focus and intensify the light they produce. This can either be in the form of a plastic cover over the fixture, or a reflector placed behind the light source. Most individual light sources can be rotated and aimed for where light is needed most in an emergency, such as toward fire exits. Modern fixtures usually have a test button of some sort which temporarily overrides the unit and causes it to switch on the lights and operate from battery power even if the main power is still on. Modern systems are operated with relatively low voltage, usually from 6-12 volts. This both reduces the size of the batteries required and reduces the load on the circuit to which the emergency light is wired. Modern fixtures include a small transformer in the base of the fixture which steps-down the voltage from main current to the low voltage required by the lights. Batteries are commonly made of lead-calcium, and can last for 10 years or more on continuous charge. U.S. fire safety codes require a minimum of 90 minutes on battery power during a power outage along the path of egress.
To indicate that a power outage has occurred, some models of emergency lights can only be shut off manually after they have been activated, even if the main building power has come back on. The system will stay lit until the reset button on the side of the unit is pressed.
Emergency lighting is often referred to as egress Lampu. Emergency lights are used in commercial buildings as a safety precaution to power outages, so that people will be able to find their way out of a building. Exit signs are often used in conjunction with emergency lighting.
Early battery backup systems were huge, dwarfing the size of the lights for which they provided power. The systems normally used lead acid batteries to store a full 120-volt charge. For comparison, an automobile uses a single lead acid battery as part of the ignition system. Simple transistor or relay technology was used to switch on the lights and battery supply in the event of a power failure. The size of these units, as well as the weight and cost, made them relatively rare installations. As technology developed further, the voltage requirements for lights dropped, and subsequently the size of the batteries was reduced as well. Modern lights are only as large as the bulbs themselves - the battery fits
New York City requires emergency lights to carry a Calendar Number signifying approval for local installation,[1] Chicago requires emergency lighting to have a metal face plate,[2] and Los Angeles requires additional exit signs be installed within 18 inches (460 mm) of the floor around doors to mark exits during a fire, as smoke rises and tends to block out higher installed units.[3]
As there are strict requirements to provide an average of one footcandle of light along the path of egress, emergency Lampu should be selected carefully to ensure codes are met.
In recent years, emergency lighting has made less use of the traditional two-head unit - with manufacturers stretching the concept of emergency lighting to accommodate and integrate emergency Lampu into the architecture.
An emergency lighting installation may be either a central standby source such as a bank of lead acid batteries and control gear/chargers supplying slave fittings throughout the building, or may be constructed using self-contained emergency fittings which incorporate the lamp, battery, charger and control equipment.
Self-contained emergency lighting fittings may operate in "Maintained" mode (illuminated all the time or controlled by a switch) or "Non-Maintained" mode (illuminated only when the normal supply fails).
Another popular method for Lampu designers, architects and contractors are battery backup ballasts that install within or adjacent to existing lighting fixtures. Upon sensing power loss, the ballasts switch into emergency mode turning the existing Lampu into emergency lighting in order to meet both the NFPA's Life Safety Code and the national Electric Code without the need of wiring separate circuits or external wall mounts.
Codes of practice for remote mounted emergency lighting generally mandate that wiring from the central power source to emergency luminaires be kept segregated from other wiring, and constructed in fire resistant cabling and wiring systems.
Codes of practice lay down minimum illumination levels in escape routes and open areas. Codes of practice also lay down requirements governing siting of emergency lighting fittings, for example the UK code of practice, BS5266, specifies that a fitting must be within 2 metres (6 ft 7 in) horizontal distance of a fire alarm call point or location for fire fighting appliances.
The most recent codes of practice require the designer to allow for both failure of the supply to the building and the failure of an individual lighting circuit. BS5266 requires that when Non Maintained fittings are used, they must be supplied from the same final circuit as the main Lampu circuit in the area.
Untuk menunjukkan bahwa pemadaman listrik terjadi, beberapa model lampu darurat hanya dapat mematikan secara manual setelah mereka telah diaktifkan, bahkan jika kekuatan bangunan utama telah datang kembali. Sistem akan tetap menyala hingga tombol reset pada sisi unit ditekan.
lampu darurat dirancang untuk datang pada saat kekuatan black out. Setiap model, oleh karena itu, memerlukan beberapa jenis baterai atau generator sistem yang dapat menyediakan listrik untuk lampu selama pemadaman. Model paling awal adalah bola lampu pijar yang remang bisa menyalakan daerah selama pemadaman dan mungkin memberikan cahaya yang cukup untuk memecahkan masalah kekuasaan atau mengevakuasi bangunan. Itu segera menyadari, bagaimanapun, bahwa cahaya lebih fokus, lebih cerah, dan tahan lama diperlukan. Lampu sorot darurat modern menyediakan-lumen tinggi, cahaya lebar cakupan yang dapat menerangi daerah cukup baik. Beberapa lampu halogen, dan menyediakan sumber cahaya dan intensitas mirip dengan sebuah lampu mobil.
Lampu darurat yang modern dipasang di hampir setiap hunian bangunan perumahan dan komersial tinggi. Lampu terdiri dari satu atau lebih lampu pijar atau satu atau lebih kelompok intensitas tinggi dioda pemancar cahaya (LED). Kepala pencahayaan darurat biasanya baik PAR 36 balok disegel atau lampu dasar wedge. Semua unit memiliki semacam reflektor untuk fokus dan mengintensifkan cahaya yang mereka hasilkan. Ini dapat menjadi dalam bentuk penutup plastik selama fixture, atau reflektor ditempatkan di belakang sumber cahaya. Sebagian besar sumber cahaya individu bisa diputar dan ditujukan untuk mana cahaya yang paling dibutuhkan dalam keadaan darurat, seperti menuju keluar api. Perlengkapan modern biasanya memiliki tombol tes semacam yang sementara mengesampingkan unit dan menyebabkannya untuk menghidupkan lampu dan beroperasi dari daya baterai bahkan jika kekuatan utama masih pada. Sistem modern dioperasikan dengan tegangan yang relatif rendah, biasanya 6-12 volt. Ini baik mengurangi ukuran baterai yang dibutuhkan dan mengurangi beban pada sirkuit yang lampu darurat adalah kabel. Perlengkapan modern termasuk transformator kecil di dasar fixture yang langkah-down tegangan dari arus utama ke tegangan rendah yang diperlukan oleh lampu. Baterai biasanya terbuat dari timah-kalsium, dan dapat bertahan selama 10 tahun atau lebih pada biaya terus menerus. AS kode keselamatan kebakaran memerlukan minimal 90 menit daya baterai selama pemadaman listrik di sepanjang jalur jalan keluar.
Untuk menunjukkan bahwa pemadaman listrik terjadi, beberapa model lampu darurat hanya dapat mematikan secara manual setelah mereka telah diaktifkan, bahkan jika kekuatan bangunan utama telah datang kembali. Sistem akan tetap menyala hingga tombol reset pada sisi unit ditekan.
Pencahayaan darurat sering disebut sebagai jalan keluar Lampu. Lampu darurat digunakan pada bangunan komersial sebagai tindakan pencegahan keselamatan listrik padam, sehingga orang akan dapat menemukan jalan keluar dari sebuah bangunan. Keluar tanda-tanda yang sering digunakan dalam hubungannya dengan pencahayaan darurat.
Sistem baterai cadangan awal yang besar, jauh melebihi ukuran lampu yang mereka berikan kekuasaan. Sistem biasanya digunakan baterai asam timbal untuk menyimpan muatan 120-volt penuh. Sebagai perbandingan, sebuah mobil menggunakan baterai asam timbal tunggal sebagai bagian dari sistem pengapian. Transistor sederhana atau teknologi estafet digunakan untuk menghidupkan lampu dan baterai pasokan dalam hal terjadi kegagalan daya. Ukuran unit-unit ini, serta berat dan biaya, membuat mereka instalasi relatif jarang. Sebagai teknologi yang dikembangkan lebih lanjut, kebutuhan tegangan untuk lampu turun, dan kemudian ukuran baterai berkurang juga. Lampu modern hanya sebagai besar sebagai lampu sendiri - cocok baterai
New York City membutuhkan lampu darurat untuk membawa Nomor Kalender menandakan persetujuan untuk instalasi lokal, [1] Chicago membutuhkan pencahayaan darurat untuk memiliki pelat muka logam, [2] dan Los Angeles membutuhkan tanda keluar tambahan dipasang dalam waktu 18 inci (460 mm) dari lantai di sekitar pintu untuk menandai keluar selama api, karena asap naik dan cenderung untuk memblokir unit terpasang lebih tinggi. [3]
Karena ada persyaratan yang ketat untuk memberikan rata-rata satu footcandle cahaya di sepanjang jalur jalan keluar, Lampu darurat harus dipilih dengan hati-hati untuk memastikan kode terpenuhi.
Dalam beberapa tahun terakhir, pencahayaan darurat telah menggunakan kurang dari unit dua kepala tradisional - dengan produsen peregangan konsep pencahayaan darurat untuk mengakomodasi dan mengintegrasikan Lampu darurat ke dalam arsitektur.
Instalasi penerangan darurat dapat berupa sumber siaga pusat seperti bank dari baterai asam timbal dan peralatan kontrol / pengisi memasok alat kelengkapan budak di seluruh bangunan, atau dapat dibangun dengan menggunakan alat kelengkapan darurat mandiri yang menggabungkan lampu, baterai, charger dan peralatan kontrol.
Mandiri darurat perlengkapan penerangan dapat beroperasi dalam "Mempertahankan" mode (diterangi sepanjang waktu atau dikendalikan oleh switch) atau "Non-Maintained" mode (hanya diterangi ketika pasokan yang normal gagal).
Metode lain yang populer untuk Lampu desainer, arsitek dan kontraktor cadangan ballast baterai yang menginstal di dalam atau berdekatan dengan perlengkapan pencahayaan yang ada. Setelah merasakan daya yang hilang, ballast beralih ke mode darurat mengubah Lampu yang ada dalam pencahayaan darurat dalam rangka memenuhi kedua Kehidupan Kode Keamanan NFPA dan Kode Listrik Nasional tanpa perlu kabel sirkuit yang terpisah atau dinding gunung eksternal.
Kode etik untuk pencahayaan darurat dipasang terpencil umumnya mandat bahwa kabel dari sumber listrik pusat luminer darurat disimpan terpisah dari kabel lainnya, dan dibangun dalam api kabel dan kabel tahan sistem.
Kode praktek berbaring tingkat pencahayaan minimum di jalan keluar dan daerah terbuka. Kode praktek juga berbaring persyaratan yang mengatur peletakan alat kelengkapan penerangan darurat, misalnya kode Inggris praktek, BS5266, menetapkan bahwa pas harus berada dalam jarak 2 meter (6 kaki 7) jarak horizontal dari titik panggilan alarm kebakaran atau lokasi untuk peralatan pemadam kebakaran.
Kode terbaru dari praktek memerlukan desainer untuk memungkinkan kedua kegagalan pasokan ke gedung dan kegagalan sirkuit pencahayaan tersendiri. BS5266 mensyaratkan bahwa ketika Non Maintained Fitting digunakan, mereka harus dipasok dari rangkaian final sama dengan sirkuit Lampu utama di daerah tersebut.
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