Automated SystemsFor several decade

Sistem otomatisSelama beberapa dekade konsep otomatis penanganan telah menawarkan prestasi besar potensi dan terbatas. penanganan lnitial otomatis difokuskan pada master karton urutan pilihan sistem. Baru-baru ini, penekanan telah bergeser ke penyimpanan bertingkat tinggi otomatis dan sistem pengambilan.a. potensi untuk mengotomatisasiDaya tarik otomatisasi adalah bahwa itu pengganti peralatan modal untuk tenaga kerja. Selain membutuhkan tenaga kerja kurang langsung, sistem otomatis beroperasi lebih cepat dan morc secara akurat daripada rekan mekanik. Kekurangannya adalah investasi modal yang tinggi, perkembangan kompleksitas dan keteguhan.Sampai saat ini, paling sistem otomatis telah dirancang dan dibangun untuk aplikasi tertentu. Pedoman enam disebutkan sebelumnya untuk pilihan sistem penanganan mekanik tidak berlaku untuk sistem otomatis. Sebagai contoh, peralatan penyimpanan dalam sistem otomatis merupakan bagian integral dari kemampuan penanganan dan dapat mewakili sebanyak 50 persen dari total investasi. Rasio beban mati untuk muatan memiliki relevansi sedikit ketika penanganan otomatis.Meskipun komputer memainkan peranan penting dalam semua sistem penanganan, mereka penting dalam sistem otomatis. Komputer kontrol otomatis pilihan peralatan dan antarmuka dengan WMS. Kerugian utama otomatisasi adalah ketergantungan pada jaringan komputer dan komunikasi. Untuk mengurangi ketergantungan tersebut, sistem otomatis baru sedang terhubung ke Internet dan menggunakan browser standar sebagai jaringan untuk mengendalikan operasi gudang. Gudang otomatis memerlukan ketat integrasi antara WMS dan material yang menangani sistem operasi.b. urutan pilihan sistemPada awalnya, otomatisasi diterapkan master karton pilihan atau perintah perakitan di gudang. Karena tenaga kerja tinggi intensitas dalam urutan pilihan, tujuan dasar adalah untuk mengintegrasikan mekanik dan otomatis penanganan ke sistem total yang ditawarkan produktivitas yang tinggi dan akurasi yang menggunakan tenaga kerja minimal.Proses yang umum dimulai dengan perangkat seleksi otomatis dimuat dengan produk. Perangkat itu sendiri terdiri dari serangkaian rak aliran ditumpuk secara vertikal. Barang dimuat dari belakang dan diizinkan untuk mengalir ke depan dalam rak hidup pada gravitasi konveyor sampai berhenti oleh pintu rak. Antara atau ke bawah tengah rak, kekuatan konveyor membuat garis aliran barang dagangan, dengan beberapa jalur aliran diposisikan di atas satu sama lain, satu untuk layanan setiap tingkat rak pintu.Setelah menerima order, sistem kontrol gudang menghasilkan sequencing petunjuk untuk perjalanan pintu rak dan memungkinkan barang, seperti yang diperlukan, mengalir ke depan ke konveyor bertenaga. Konveyor giliran transportasi barang dagangan ke urutan kemasan untuk penempatan dalam wadah pengiriman dan transfer ke staging area. Produk sering dipilih dan dimuat secara berurutan sehingga dapat diturunkan dalam urutan yang diinginkan oleh pelanggan.Bila dibandingkan dengan modern otomatisasi, upaya penanganan otomatis paket ini awal sangat tidak efisien. Banyak tenaga kerja diperlukan untuk melakukan loading ke rak barang dagangan, dan peralatan otomatis pilihan mahal. Aplikasi terbatas pada barang yang bernilai sangat tinggi, dengan umum atau standar ukuran karton master, atau situasi dimana tenaga kerja membenarkan investasi tersebut. Sebagai contoh, sistem ini awal luas diuji untuk makanan beku urutan pilihan.Substantial advancements have been made in automated selection of case goods. The handling of fast-moving products in master cartons can be fully automated from the point of merchandise receipt to placement in over-the-road trailers. Such systems use an integrated network of power and gravity conveyors linking power motivated live storage. The entire process is computer controlled coupled with the order and warehouse management system. Upon arrival, merchandise is automatically routed to the live storage position and inventory records are updated. When orders are received, merchandise is precubed to package or vehicle size and scheduled for selection. At the appropriate time, all merchandise is selected in loading sequence and automatically transported by conveyor to the loading dock. In some situations, the first manual handling of the merchandise within the warehouse occurs when it is stacked into the outbound transport vehicle.The solution of the inputloutput interface problem and the development of sophisticated control systems continues to have the potential to achieve highly effective and efficient package handling. The major problems associated with order selection system automation remain reliability and flexibility. While the information systems and the necessary power systems are generally reliable, failures in either will result in complete operational shutdowns, at one or multiple sites. Highly automated systems are generally not flexible due to required hardwarelcontrol system integration, so it is difficult to be responsive to changes in product or market requirements.c. Automated StorageIRetrieval SystemsAn automated unit-load handling system, or Automated Storage and Retrieval System (AS/RS), that uses high-rise storage is a popular form of automation. Figure 14-6 illustrates the concept of a high-rise ASIRS. ASIRSs are particularly appropriate for nonergonomic items such as heavy boxes or those products in freezer environments. The high-rise concept of handling is typically automated from receiving to shipping. The four primary ASRS components include storage racks, storage and retrieval equipment, inputloutput system, and control system.The name high-rise derives from the physical appearance of the storage rack. The rack is structured steel vertical storage, which can be as high as 120 feet. The typical stacking height of palletized cartons in a mechanized handling system is 20 feet, so the potential of high-rise storage is clear.
The typical high-rise facility consists of rows of storage racks. The rows of racks are separated by aisles ranging from 120 to over 800 feet in length. Primary storage and retrieval activities occur within these aisles. A storage and retrieval crane travels up and down the aisle alternatively storing and selecting product. A variety of storage and retrieval equipment is available. Most machines require guidance at the top and bottom to provide the vertical stability necessary for high-speed horizontal movement and vertical hoisting. Horizontal speeds range from 300 to 400 feet per minute (fpm) with hoisting speeds of up to 100 fpm or more.

The initial function of the storage and retrieval equipment is to reach the desired storage location rapidly. A second function is to deposit or retract merchandise. For the most part, load deposit and retraction are achieved by shuttle tables, which can enter and exit from the rack at speeds up to 100 fpm. Since the shuttle table moves only a few feet, it must accelerate and stop rapidly.

The storage and retrieval machine is essentially a combined lift truck and pallet holder built into a movable crane. The machine moves up and down the aisle to insert or remove a unit load from a storage bin. When the ASRS operates with unit loads, the process is typically automated. However, the ASIRS often incorporates manual picking when the system selects cases or master cartons. In some installations, the storage and retrieval machine is positioned to service different aisles by transfer cars. Numerous transfer arrangements and layouts are available. Transfer units may be dedicated or nondedicated. The dedicated transfer car is always stationed at the end of the aisle in which the storage and retrieval equipment is working. The nondedicated transfer car works a number of aisles and retrieval machines on a scheduled basis to achieve maximum equipment utilization. The decision as to whether to include aisleto-aisle transfer in a high-rise storage system rests with the economics of throughput rate and number of aisles included in the overall system.