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اﻟﻣواﺻﻔﺎت اﻟﻔﻧﯾﺔ ﻗﺳم 11010 ﻣﻌدات اﻟﺻﯾﺎﻧﺔ ﺟزء )(1 ﻋ ــﺎم 1-1 ﯾﺗﺿﻣن اﻟﻘﺳم أ. ﺗﺻﻣﯾم ٕواﻣداد وﺗرﻛﯾب ﻣﻌدات اﻟﺻﯾﺎﻧﺔ اﻵﺗﯾﺔ: )(1 ﻣﻌدات اﻟﺻﯾﺎﻧﺔ اﻟﺧﺎرﺟﯾﺔ وﻣﻌدات ﻏﺳل اﻟﻧواﻓذ. 2-1 اﻟﻣراﺟﻊ أ. ASTMA36اﻟﺻﻠب اﻹﻧﺷﺎﺋﻲ ب. ASTMA123اﻟﺗﻐﻠﯾف ﺑﺎﻟزﻧك )اﻟﻣﺟﻠﻔن ﺑﺎﻟﻐﻣر اﻟﺳﺎﺧن( ﻋﻠﻰ ﻣﻧﺗﺟﺎت اﻟﺣدﯾد واﻟﺻﻠب ج. ASTMA153اﻟﺗﻐﻠﯾف ﺑﺎﻟزﻧك )ﺑﺎﻟﻐﻣر اﻟﺳﺎﺧن( ﻋﻠﻰ ﺧردوات اﻟﺣدﯾد واﻟﺻﻠب د. ASTMA307أدوات اﻟرﺑط ﻣن اﻟﺻﻠب اﻟﻛرﺑوﻧﻲ ذات اﻟﻠوﻟب اﻟﺧﺎرﺟﻲ اﻟﻘﯾﺎﺳﯾﺔ ه. ASTMA325اﻟﻣﺳﺎﻣﯾر ﻋﺎﻟﯾﺔ اﻟﻣﻘﺎوﻣﺔ ﻟوﺻﻼت اﻟﺻﻠب اﻹﻧﺷﺎﺋﻲ و. ASTMA441اﻟﺻﻠب اﻹﻧﺷﺎﺋﻲ ﻣﻧﺧﻔض ﺳﺑﺎﺋك اﻟﻣﻧﺟﻧﯾز اﻟﻔﺎﻧدﯾوم ﻋﺎﻟﻲ اﻟﻣﻘﺎوﻣﺔ ز. ASTMA501أﻧﺎﺑﯾب اﻟﺻﻠب اﻹﻧﺷﺎﺋﻲ اﻟﻣﺷﻛل ﻋﻠﻰ اﻟﺳﺎﺧن اﻟﻣﻠﺣوﻣﺔ وﺑدون ﻟﺣﺎﻣﺎت ح. ASTMB209اﻟﺻﺎج واﻷﻟواح ﻣن اﻷﻟﻣﻧﯾوم وﺳﺑﺎﺋك اﻷﻟﻣﻧﯾوم ط. ASTMB221اﻷﺳﯾﺎخ واﻟﻘﺿﺑﺎن واﻷﺳﻼك واﻟﻘطﺎﻋﺎت واﻷﻧﺎﺑﯾب ﻣن اﻟﺳﺑﺎﺋك اﻷﻟﻣﻧﯾوم اﻟﻣﺷﻛﻠﺔ ﺑﺎﻟﺑﺛق ي. AWSB3.0طرق إﺟراء اﻟﻠﺣﺎم وﺷروط ﻗﺑول اﻷداء ك. AWSD1.1ﻻﺋﺣﺔ اﻟﻠﺣﺎم اﻹﻧﺷﺎﺋﻲ -اﻟﺻﻠب ل. ICBOﻻﺋﺣﺔ اﻟﺑﻧﺎء اﻟﻣوﺣدة )(UBC م. ASMEA39.1اﺧﺗﺑﺎر اﻟﺣﻣل ن. ANSI120.1اﺧﺗﺑﺎر اﻟﺣﻣل 3-1 اﻟﺗﻘدﯾﻣﺎت وزارة اﻟداﺧﻠﯾﺔ اﻟﻣواﺻﻔﺎت اﻟﻔﻧﯾﺔ أ. ﯾﺗم ﺗﻘدﯾم اﻵﺗﻲ ﻣن أﺟل ﻣراﺟﻌﺔ اﻟﻣﻬﻧدس واﻋﺗﻣﺎدﻩ. )(1 اﻟﺗﺻﻣﯾم اﻟﻣﻘﺗرح ﻟﻣﻌدات اﻟﺻﯾﺎﻧﺔ ﺷﺎﻣﻼ ﺗﻔﺎﺻﯾل اﻹﻧﺷﺎء ذات اﻟﺻﻠﺔ واﻟﺗﻲ ﺗﺑﯾن اﻟﻌﻼﻗﺔ ﺑﯾن )(2 اﻟﻣﺧططﺎت اﻟﺑﯾﺎﻧﯾﺔ ﻟﺗوﺿﯾﺢ اﻟﺗوﺻﯾل وﺗﻣدﯾدات اﻷﺳﻼك وﻛذﻟك ﺗﺧطﯾطﻬﺎ اﻟﻌﺎم )(3 ﺑﯾﺎﻧﺎت اﻟﺻﺎﻧﻊ اﻟﻔﻧﯾﺔ اﻟﻣﻌدات اﻟﻣﻘﺗرﺣﺔ واﻟﻣﻧﺎطق اﻟﻣﺟﺎورة وﻛذﻟك اﻟﺗﻌدﯾﻼت اﻟﻣطﻠوﺑﺔ. )أ( ﻛﺗﯾﺑﺎت اﻟﺗﺷﻐﯾل واﻟﺻﯾﺎﻧﺔ )ب( ﺷﻬﺎدات اﻟﺗطﺎﺑق :ﻟﻠﻣواد وﻗوة اﻟﻣﻘﺎوﻣﺔ ﻟﻠﺣﺑﺎل اﻟﺳﻠك واﻟﻣﺧﺎطﯾف )ج( ﺗﻘﺎرﯾر اﻻﺧﺗﺑﺎر )د( ﻗﺎﺋﻣﺔ ﻗطﻊ اﻟﻐﯾﺎر واﻟﻌدد اﻟﺧﺎﺻﺔ 4-1 اﻟﻧﻘل واﻟﻣﻧﺎوﻟﺔ واﻟﺗﺧزﯾن أ. ﺗورد ﺣﺎوﯾﺎت اﻟﻧﻘل ﺣﺳب اﻟﻣوﺻف ﻓﻲ أﻣر اﻟﺷراء ﻣﻊ دﻋﺎﻣﺎت ﻣﻧﺎﺳﺑﺔ وﺣﻠﻘﺎت ﻟﻠرﻓﻊ ،وﯾﺣدد ﺑوﺿوح أﻣﺎﻛﻧﻬﺎ. ب. ﯾﻘوم اﻟﺻﺎﻧﻊ ﺑﺗﺄﻣﯾن ﺗوﺻﯾﺎﺗﻪ ﺑﺧﺻوص اﻟﻣﻧﺎوﻟﺔ واﻟﺗﺧزﯾن ﺑﺎﻟﻣوﻗﻊ 5-1 اﻟﻣﺳﺗﻧدات ذات اﻟﺻﻠﺔ أ. اﻟﻣﺧططﺎت واﻟﺷروط اﻟﻌﺎﻣﺔ ﻟﻠﻌﻘد 6-1 اﻟﺿﻣﺎن أ. ﺗﻘدم ﻋدد 2ﻧﺳﺧﺔ ﻣن ﺿﻣﺎن ﻛﺗﺎﺑﻲ ﻣوﻗﻊ ﻣن اﻟﺻﺎﻧﻊ واﻟﻘﺎﺋم ﺑﺎﻟﺗرﻛﯾب واﻟﻣﻘﺎول ﯾواﻓﻘون ﻓﯾﻪ ﻋﻠﻰ اﺳﺗﺑدال اﻟﻣواد اﻟﺗﺎﻟﻔﺔ وﻛذﻟك اﻟﻣﺻﻧﻌﯾﺔ اﻟردﯾﺋﺔ ﺧﻼل ﻣدة 5ﺳﻧوات ﻣن ﺗﺎرﯾﺦ اﻟﺗﺳﻠﯾم اﻻﺑﺗداﺋﻲ. 7-1 ﺿﻣﺎن اﻟﺟودة أ. ﺗﺄﻛﯾد اﻟﺟودة )(1 ﯾﻘوم اﻟﻣﻘﺎول ﺑﺗﺄﻣﯾن ٕواﺟراء ﺑرﻧﺎﻣﺞ اﻟﺟودة اﻟذي ﯾﻌطﻲ اﻟدرﺟﺔ اﻟﻣطﻠوﺑﺔ ﻣن ﺗﺄﻛﯾدات أن اﻟﺑﻧود اﻟﻣوردة ﺗطﺎﺑق ﻣﺗطﻠﺑﺎت ﻣﺳﺗﻧد اﻟﺷراء )(2 اﻟﺻﺎﻧﻊ ﻣﺳﺋول ﻋن ﺗﺄﻛﯾد اﻵﺗﻲ: )أ( ﯾطﺎﺑق ﻛل ﺑﻧد ﻣورد اﻟﻣﺗطﻠﺑﺎت ﻣن ﺣﯾث اﻷﺑﻌﺎد واﻟﻣواد واﻟوظﺎﺋف اﻟﻣوﺻﻔﺔ )ب( اﻟﺗﺣﻘق ﻣن اﻟﺗطﺎﺑق اﻟﻣطﻠوب ﺑﺎﻟطرﯾﻘﺔ اﻟﻣوﺻﻔﺔ وزارة اﻟداﺧﻠﯾﺔ اﻟﻣواﺻﻔﺎت اﻟﻔﻧﯾﺔ )ج( أن ﻧظﺎم ﺗﻘدﯾم اﻟﺷﻬﺎدات واﻟﺑطﺎﻗﺎت ﺣﺳب اﻟﻣوﺻف )د( أن ﻧظﺎم ﺷﻬﺎدات ﺗﺄﻛﯾد اﻟﺟودة اﻟﻣطﺑق اﻟذي ﯾﺗم إﺟراؤﻩ أﺛﻧﺎء اﻟﺗﺻﻧﯾﻊ ﯾﻣﻛن اﻟﺗﺣﻘق ﻣﻧﻪ وﺗﺗﺑﻌﻪ ﺑﺎﻟﻧﺳﺑﺔ ﻟﻠﺑﻧود ﺑﻌد اﻟﺗﺻﻧﯾﻊ وزارة اﻟداﺧﻠﯾﺔ اﻟﻣواﺻﻔﺎت اﻟﻔﻧﯾﺔ ﺟزء )(2 اﻟﻣﻧﺗﺟﺎت 1-2 اﻟﺻﻧﺎع: أ. اﻟﺻﻧﺎع اﻟﻣﻣﻛن اﻟﺣﺻول ﻣﻧﻬم )(1 Tractelأو ﻣﺎ ﯾﻣﺎﺛﻠﻪ اﻟﻣﻌﺗﻣد )(2 Rostekأو ﻣﺎ ﯾﻣﺎﺛﻠﻪ اﻟﻣﻌﺗﻣد )(3 Coxأو ﻣﺎ ﯾﻣﺎﺛﻠﻪ اﻟﻣﻌﺗﻣد )(4 Fixatorأو ﻣﺎ ﯾﻣﺎﺛﻠﻪ اﻟﻣﻌﺗﻣد )(5 Mannesmann Demagأو ﻣﺎ ﯾﻣﺎﺛﻠﻪ اﻟﻣﻌﺗﻣد 2-2 ﻣﻌدات اﻟﺻﯾﺎﻧﺔ اﻟﺧﺎرﺟﯾﺔ وﻏﺳل اﻟﻧواﻓذ: أ. ﻋﺎم )(1 ﺗورد ﻣﻌدات ﻣﻧﺎﺳﺑﺔ ﻟﺗﻧظﯾف وﺻﯾﺎﻧﺔ اﻟﻧواﻓذ واﻟواﺟﻬﺎت اﻟﺧﺎرﺟﯾﺔ )(2 ﯾﺟب أن ﯾﻛون اﻟﻧظﺎم اﻟﻣﻘﺗرح ﻣﻧﺎﺳﺑﺎ ﻟﻠﻣﻧﺎطق اﻟﻣﺧﺗﻠﻔﺔ واﻟﺗطﺑﯾﻘﺎت ﺣﺳب اﻟﻣطﻠوب )(3 ﯾﻣﻛن ﻟﻠﻣﻘﺎول أن ﯾﻘﺗرح أﻧظﻣﺔ ﻣﺗﻌددة ﻻﺧﺗﯾﺎر اﻟﻣﻬﻧدس ﻣﻧﻬﺎ واﻋﺗﻣﺎدﻩ )(4 اﻷﻧظﻣﺔ اﻟﻣﻘﺗرﺣﺔ ﺗﻛون ﻣﺻﻧﻌﺔ ﺑواﺳطﺔ ﺷرﻛﺔ ذات ﺧﺑرة 10ﺳﻧوات ﻋﻠﻰ اﻷﻗل ﻓﻲ ﺗﺻﻧﯾﻊ أﻧظﻣﺔ ﻣﻣﺎﺛﻠﺔ ﻟﻠﻧظﺎم اﻟﻣﻘﺗرح ﻟﻠﻣﺷروع واﻟﺗﻲ ﻟدﯾﻬﺎ إﻣﻛﺎﻧﺎت ﺟﯾدة ﻟﻠﺻﯾﺎﻧﺔ ﻓﻲ اﻟﻣﻣﻠﻛﺔ اﻟﻌرﺑﯾﺔ اﻟﺳﻌودﯾﺔ )أ( ﯾﻛون اﻟﻣﻘﺎول ﻣﺳﺋوﻻ ﺑﺎﻟﻛﺎﻣل ﻋن ﺗﺻﻣﯾم وﺗورﯾد وﺗرﻛﯾب اﻟﻧظﺎم ﻣن ﺧﻼل ﻣﻘﺎول ﻣن اﻟﺑﺎطن ﻣﻌﺗﻣد )ب( ﯾﻛون اﻟﻧظﺎم ﻣﺧﺗﺑ ار ﺑﺎﻟﻛﺎﻣل ﻣن ﺣﯾث اﺧﺗﺑﺎر اﻟﺣﻣل وﯾﺟب أن ﯾطﺎﺑق أو ﯾﺗﻔوق ﻋن اﻟﻣﺗطﻠﺑﺎت ﺑﺎﻟﻣواﺻﻔﺔ ASMEA39.1و اﻟﻣواﺻﻔﺔ ANSI120.1ﺷﺎﻣﻼ ﻣﻌﺎﻣل أﻣﺎن 1:3 ب. اﻟواﺟﻬﺎت اﻟﺧﺎرﺟﯾﺔ ﻟﻠﻣﺑﻧﻰ )(1 اﻟﻣرﻛﺑﺔ اﻟﻣوﺟودة ﺑﺎﻟﺳطﺢ )أ( ﯾﻛون ﻟﻬﺎ ﺗروﻟﻠﻲ ﻣﺗﺣرك ﯾﺗﺣرك ﻋﻠﻰ اﻣﺗداد اﻟﺳطﺢ ﺑﺎﻟﺳرﻋﺔ اﻟﻣطﻠوﺑﺔ ﺣﺳب ﻣﺎ ﯾوﺻﻲ ﺑﻪ اﻟﺻﺎﻧﻊ )ب( وﻧش اﻟرﻓﻊ :ﯾﻛون ﻟﻠوﺣدة وﻧش ﻣزدوج ﻟﻠرﻓﻊ ،ﺑﺎﻟﻘدرة وﺳرﻋﺔ اﻟرﻓﻊ ﺣﺳب ﻣﺎ ﯾوﺻﻲ ﺑﻪ وزارة اﻟداﺧﻠﯾﺔ اﻟﻣواﺻﻔﺎت اﻟﻔﻧﯾﺔ اﻟﺻﺎﻧﻊ )ج( ذراع اﻟرﻓﻊ :ﻣﺗواﻓق ذو ذراﻋﯾن ،ﺑﺎﻟطول اﻟﻣﻧﺎﺳب ﺑرواﻓﻊ ﻫﯾدروﻟﯾﻛﯾﺔ )د( ﺗﺟري وﺣدة اﻟﺳطﺢ ﻋﻠﻰ ﺳﻛﺔ ﻣن اﻟﺻﻠب ،ﻣدﻋﻣﺔ ﺑواﺳطﺔ ﻗواﻋد ﺧرﺳﺎﻧﯾﺔ وﻣﺳﺎﻓﺔ اﻟﺗﺑﺎﻋد ﺑﯾن اﻟﻘواﻋد اﻟﺧرﺳﺎﻧﯾﺔ وﻛذﻟك ﻣﻘﺎس اﻟﺳﻛﺔ واﻟﻘطﺎع وطرﯾﻘﺔ اﻟﺗﺛﺑﯾت ﺗﻛون ﺟﻣﯾﻌﻬﺎ ﺣﺳب اﻟﻣوﺻﻰ ﺑﻪ ﻣن اﻟﺻﺎﻧﻊ. )(2 ﻣﻧﺻﺔ ﻏﺳﯾل اﻟواﺟﻬﺎت :ﻣﻧﺻﺔ ﻣﻔﺻﻠﯾﺔ ودوارة ﻣﺻﻧﻌﺔ ﻣن أﻧﺎﺑﯾب ﻣن اﻷﻟﻣﻧﯾوم وﻟﻬﺎ دراﺑزﯾن ﻣن اﻷﻟﻣﻧﯾوم ﻓﻲ اﻷرﺑﻊ ﺟواﻧب وﯾﻛون ﻟﻠﻣﻧﺻﺔ ﻋﺟﻼت دوارة ﻣن ﻣﺎدة رﻏوﯾﺔ ﻣواﺟﻬﺔ ﻟﻧﺎﺣﯾﺔ واﺟﻬﺔ اﻟﻣﺑﻧﻰ .ﺗﻌﻠق اﻟﻣﻧﺻﺔ ﻣن اﻟذراع ﺑواﺳطﺔ 4ﺣﺑﺎل ﻣن اﻷﺳﻼك وﯾﻣﻛن اﻟوﺻول إﻟﻰ اﻟﻣﻧﺻﺔ ﻣن ﺧﻼل ﻣﻧﺳوب اﻟﺳطﺢ. )أ( ﺗورد وﺣدة اﻟﺗﺣﻛم اﻟﻣﻧطﻘﯾﺔ اﻟﻘﺎﺑﻠﺔ ﻟﻠﺑرﻣﺟﺔ ) (PLCاﻟﻘﯾﺎﺳﯾﺔ ﻟﻠﺻﺎﻧﻊ ووﺣدة اﻟﺗﺣﻛم ﻋن ﺑﻌد وﻣﻌدات اﻟﺗﺣﻛم ﺑﺎﻹﺣﺳﺎس اﻷﺧرى ﺣﺳب ﺗوﺻﯾﺎت اﻟﺻﺎﻧﻊ ﻣن أﺟل اﻟﺗﺷﻐﯾل اﻟﺻﺣﯾﺢ اﻵﻣن. )ب( وﺳﺎﺋل اﻷﻣﺎن :ﯾﺗﺿﻣن اﻟﺗورﯾد ﻣوﻗﻔﺎت اﻟطوارئ ووﺳﺎﺋل اﻷﻣﺎن ﻟﻠﺣد اﻷﻋﻠﻰ واﻷدﻧﻰ اﻟﻣﺟﻬزة ﺑﺎﻟﻣﻧﺻﺔ ،وﺳﯾﻠﺔ إﺧﻼء اﻟﻣﻧﺻﺔ ﻓﻲ ﺣﺎﻟﺔ اﻟطوارئ ،وﺳﯾﻠﺔ أﻣﺎن ﺿد اﻟﺣﻣل اﻟزاﺋد ،ووﺳﯾﻠﺔ اﻷﻣﺎن ﺿد ارﺗﺧﺎء اﻟﺣﺑﺎل ﻣن اﻷﺳﻼك ووﺳﯾﻠﺔ أﻣﺎن ﺿد اﻟﺳرﻋﺔ اﻟزاﺋدة ،وﻛﺎﺑل اﻟﺗﻐذﯾﺔ اﻟﻛﻬرﺑﺎﺋﯾﺔ ووﺳﯾﻠﺔ إﺣﺳﺎس ﺑﺣد اﻟﻧﻬﺎﯾﺔ ،ووﺳﯾﻠﺔ اﻷﻣﺎن اﻟﺧﺎﺻﺔ ﺑﻧﻬﺎﯾﺔ اﻟﺣﺑل. ﺟزء )(3 اﻟﺗﻧﻔﯾذ 1-3 اﻟﺗرﻛﯾب: أ. ﻋﺎم :ﯾﺗم ﺗرﻛﯾب اﻟﻣﻌدات ﺑﺎﻟﺗطﺎﺑق اﻟﺗﺎم ﻣﻊ ﺗﻌﻠﯾﻣﺎت اﻟﺻﺎﻧﻊ وﺗوﺻﯾﺎﺗﻪ. ب. ﺗﻣدﯾدات اﻷﺳﻼك :ﺗطﺎﺑق اﻟﻣﺗطﻠﺑﺎت ﻓﻲ اﻷﻗﺳﺎم اﻟﻘﺎﺑﻠﺔ ﻟﻠﺗطﺑﯾق ﻣن اﻟﺑﺎب -16اﻷﻋﻣﺎل اﻟﻛﻬرﺑﺎﺋﯾﺔ ج. اﻻﺧﺗﺑﺎرات ﺑﺎﻟﻣوﻗﻊ )(1 اﺧﺗﺑﺎر اﻷداء :ﯾﺗم ﺑﻌد ﺗرﻛﯾب اﻷﻧظﻣﺔ إﺟراء اﺧﺗﺑﺎر اﻷداء ،ﻓﻲ ﺣﺿور اﻟﻣﻬﻧدس وﻣﻧدوب اﻟﺻﺎﻧﻊ اﻟﻣﻔوض ،ﻟﺑﯾﺎن اﻟﺗطﺎﺑق ﻣﻊ اﻟﻣواﺻﻔﺎت )أ( وﺳﺎﺋل اﻹﻏﻼق واﻷﻣﺎن ﺗﺧﺗﺑر ﻣن ﺣﯾث وظﺎﺋﻔﻬﺎ اﻟﻣطﻠوﺑﺔ )ب( ﯾﺗم إﺟراء اﺧﺗﺑﺎر ﺑﺎﻟﻧظر ﻟﻠﺗﺄﻛد ﻣن ﺣﯾث اﻟﺗرﻛﯾب اﻟﺻﺣﯾﺢ ،واﻟﻣﺣﺎذاة اﻟﺧطﯾﺔ واﻟﺗﺷﺣﯾم ﻧﻬﺎﯾـﺔ اﻟﻘﺳـم وزارة اﻟداﺧﻠﯾﺔ ASME ASME ASME (NEC) (Slots) اﻟﻣواﺻﻔﺎت اﻟﻌﺎﻣﺔ ﻗﺳم 11132 ﺷﺎﺷﺔ اﻟﻌرض ﺟزء )(1 ﻋ ــﺎم 1-1 اﻟوﺻف: أ. ﻣﺗطﻠﺑﺎت ﻋﺎﻣﺔ: )(1 ﺗورﯾد ﻛل اﻟﻌﻣﺎﻟﺔ ،اﻟﻣواد ،اﻷدوات ،اﻟﻣﻌدات واﻟﺧدﻣﺎت ﻟﻛل ﺷﺎﺷـﺎت اﻟﻌـرض ﻛﻣـﺎ ﻫـو ﻣوﺿـﺢ ﺑﺎﻟﺗﻧﺳﯾق ﻣﻊ أﻗﺳﺎم ﻣﺳﺗﻧدات اﻟﺗﻌﺎﻗد اﻷﺧرى. )(2 ﯾﺗم اﻟﺗﻧﺳﯾق ﺑﺎﻟﻛﺎﻣل ﻣﻊ أﻋﻣﺎل ﺟﻣﯾﻊ اﻟﺗﺧﺻﺻﺎت اﻷﺧرى. )(3 ﺑ ــﺎﻟرﻏم ﻣ ــن أن ﻫ ــذا اﻟﻌﻣ ــل ﻏﯾ ــر ﻣﺣ ــدد إﻻ أﻧ ــﻪ ﯾﻠ ــزم ﺗورﯾ ــد وﺗرﻛﯾ ــب ﻛ ــل اﻟﻌﻧﺎﺻ ــر اﻟﻣﻛﻣﻠ ــﺔ واﻟﻣﺗﻧوﻋﺔ واﻷﺟﻬزة واﻟﻣﻌدات اﻟﻣﺗﻔق ﻋﻠﯾﻬﺎ أو اﻟﺿرورﯾﺔ ﻟﺗﺄﻣﯾن اﻟﺗرﻛﯾب اﻟﺗﺎم. )(4 ب. راﺟﻊ اﻟﺑﺎب اﻷول اﻻﺷﺗراطﺎت اﻟﻌﺎﻣﺔ. أﻗﺳﺎم اﻟﻣواﺻﻔﺎت اﻟﺗﺎﻟﯾﺔ ﺗﺗﺿﻣن ﻣﺗطﻠﺑﺎت وﻣواﺻﻔﺎت ﻣﺗﻌﻠﻘﺔ ﺑﻬذا اﻟﻘﺳم: )(1 ﻗﺳم " 03300اﻟﺧرﺳﺎﻧﺔ اﻟﻣﺻﺑوﺑﺔ ﺑﺎﻟﻣوﻗﻊ". )(2 ﻗﺳم " 04220اﻟﺑﻧﺎء ﺑﺎﻟوﺣدات اﻷﺳﻣﻧﺗﯾﺔ". )(3 ﻗﺳم " 09215أﻋﻣﺎل اﻟﺑﯾﺎض". )(4 اﻟﺑﺎب اﻟﺳﺎدس ﻋﺷر أﻋﻣﺎل اﻟﻛﻬرﺑﺎء 2-1 ﺗوﻛﯾد اﻟﺟودة أ. ﻣؤﻫﻼت اﻟﺷرﻛﺔ اﻟﻣوردة: ﯾﺗم ﺗورﯾد ﺷﺎﺷﺎت اﻟﻌرض اﻟﻣﺣددة ﻓﻲ ﻫذا اﻟﻘﺳم ﻓﻘط ﻋن طرﯾق اﻟﺷرﻛﺎت اﻟﻣؤﻫﻠﺔ ﻟﻠﻘﯾﺎم ﺑﻣﺛل ﻫذﻩ اﻷﻋﻣﺎل و ﯾﺟب أن ﺗﻛون ﻣﺗﺧﺻﺻﺔ وﻟدﯾﻬﺎ ﺧﺑرة ﺣﺎﻟﯾﺔ ﻻ ﺗﻘل ﻋن ) (10ﻋﺷر ﺳﻧوات ﻓﻲ ﺗورﯾد وﺗرﻛﯾب أﻋﻣﺎل ﻣﺷﺎﺑﻬﺔ. 3-1 ﻣﺎ ﯾﻘدﻣﻪ اﻟﻣﻘﺎول ﻟﻼﻋﺗﻣﺎد أ. رﺳوﻣﺎت اﻟورﺷﺔ: وزارة اﻟداﺧﻠﯾﺔ اﻟﻣواﺻﻔﺎت اﻟﻌﺎﻣﺔ ﯾﺗم ﺗﻘدﯾم رﺳوﻣﺎت اﻟورﺷﺔ ﺗوﺿﺢ ﺗﻔﺎﺻﯾل اﻟﺗﺻﻧﯾﻊ ،وﻣﺗطﻠﺑﺎت اﻟﺗرﻛﯾب ،ﺑﺎﻹﺿﺎﻓﺔ إﻟﻰ ﻣﺗطﻠﺑﺎت اﻟﺗوﺻﯾﻼت اﻟﻛﻬرﺑﺎﺋﯾﺔ اﻟﻼزﻣﺔ. ب. ﺗﻌﻠﯾﻣﺎت اﻟﺻﯾﺎﻧﺔ واﻟﺗﺷﻐﯾل: ﯾﺗم ﺗﻘدﯾم ﺗﻌﻠﯾﻣﺎت اﻟﺻﯾﺎﻧﺔ واﻟﺗﺷﻐﯾل ﻟﺗوﺣﯾد ﻋﻣﻠﯾﺎت اﻟﺗﺷﻐﯾل ﺑﺎﻹﺿﺎﻓﺔ إﻟﻰ ﻛﺗﯾب اﻟﺻﯾﺎﻧﺔ. 4-1 اﻟﺗورﯾد واﻟﺗﺧزﯾن واﻟﻣﻧﺎوﻟﺔ أ. ﯾ ــﺗم اﻟﺗورﯾـ ــد ﻓـ ــﻲ ﺻـ ــﻧﺎدﯾق أو أﻗﻔـ ــﺎص وﻣﻧﺗﺟـ ــﺎت ﻣﺣﻣﯾـ ــﺔ ﻟﺣﻣﺎﯾـ ــﺔ اﻟﻣﻌ ــدات ﻣـ ــن اﻟﺗﻠـ ــف أﺛﻧ ــﺎء اﻟﻧﻘـ ــل واﻟﻣﻧﺎوﻟــﺔ .ﯾــﺗم وﺿــﻊ ﻣﻠﺻــق ﻋﻠﯾــﻪ اﻟﺑﯾﺎﻧ ــﺎت ﻋﻠــﻰ اﻟﺻ ــﻧﺎدﯾق واﻷﻗﻔــﺎص ﻣــﻊ ﺗﻐطﯾــﺔ اﻟﺳــطﺢ ﺑﻐطــﺎء ﺳﻣﯾك أو أي ﺣﻣﺎﯾﺔ ﻣﻛﺎﻓﺋﺔ. ب. ﯾﺗم ﺗﺧزﯾن اﻟﻣواد ﺑطرﯾﻘﺔ ﺗﻣﻧﻊ اﻟﺗﻠف. ج. ﻻ ﯾﺗم ﻓك ﺻﻧﺎدﯾق وأﻗﻔﺎص اﻟﻣﻧﺗﺟﺎت إﻻ ﻋﻧد اﻟﺗرﻛﯾب. ﺟزء )(2 اﻟﻣواد 1-2 ﺷﺎﺷﺎت اﻟﻌرض: أ. ﻣوﺗور ﺗﺷﻐﯾل اﻟﺷﺎﺷﺎت: )(1 اﻟﻣﻛﺎن :راﺟﻊ رﺳوﻣﺎت اﻟﻔرش وﺟداول اﻟﺗﺟﻬﯾزات واﻟﻣﻌدات ورﺳوﻣﺎت )اﻟﻣﺟﻣوﻋﺔ (F1 )(2 اﻟﺷﺎﺷﺔ :ﻣـن اﻟﻣـت اﻷﺑـﯾض اﻟﻣـزﯾن ﺑﺈطـﺎر ﻣـن اﻟﺑﻼﺳـﺗﯾك اﻷﺳـود وﻣـؤﻣن ﺿـد إﺟﻬـﺎدات اﻟﺷـد ﻋن طرﯾق إطﺎر ﻣن ﻣواﺳﯾر اﻷﻟوﻣﻧﯾوم. )(3 ﻣﻘﺎس اﻟﺷﺎﺷﺔ 2400 :ﻣم 2260 Xﻣم ﺑﺣﺎﻓـﺔ ﺳـوداء ﻷﻋﻠـﻰ ﻟﺷـد اﻧﺗﺑـﺎﻩ اﻟﻧـﺎظرﯾن ﻋﻧـد إﻧـزال اﻟﺷﺎﺷﺔ. )(4 ﯾﺗم اﻟﺗﺟﺳﯾم ﺑﺎﺳﺗﺧدام ﺑﻛـرة وﻣﺑﯾـت ﻟﺗﺷـﻐﯾﻠﻬﺎ ﻛﻣـﺎ ﻫـو ﻣوﺿـﺢ ﺑﺎﻟرﺳـوﻣﺎت ﻣـﻊ ﻣﺷـﺎرﻛﺔ اﻟﺗﺛﺑﯾـت ﻓﻲ اﻟﻣﻛﺎن اﻟﻣﺧﺻص ﻣﻊ اﻟﺗزﯾﯾن ﺑوﺣدة اﻟﺳﻘف اﻟﻣﻔﺻﻠﯾﺔ واﻟﻧﻬـو اﻟﻣﻧﺎﺳـب ﻟﻸﺳـطﺢ اﻟﻣﺟـﺎورة ﻛﻣﺎ ﺗم اﻋﺗﻣﺎدﻫﺎ ﻣن اﻟﻣﺎﻟك. )(5 اﻟــﺗﺣﻛم :ﯾــﺗم اﻟــﺗﺣﻛم ﻋــن ﺑﻌــد ﻓــﻲ ﻛــل ﺷﺎﺷــﺔ ﺗــم ﺗرﻛﯾﺑﻬــﺎ وذﻟــك ﻋــن طرﯾــق ﺟﻬــﺎز ﻣﻛــون ﻣــن أزرار "ﻓوق"" ،ﺗﺣت" و "إﯾﻘﺎف". ب. ﯾﺷﻣل ﺗورﯾد اﻟﺷﺎﺷﺎت ﻛل اﻟﻣﻛوﻧﺎت اﻟﻛﻬرﺑﺎﺋﯾﺔ اﻟﻣطﻠوﺑﺔ ﻟﺣﻣﺎﯾﺔ اﻟﺷﺎﺷﺎت ﻣن اﻟﺗﻠف أﺛﻧﺎء اﻟﺗﺷﻐﯾل. 2-2 اﻟﻣﻛوﻧﺎت: وزارة اﻟداﺧﻠﯾﺔ اﻟﻣواﺻﻔﺎت اﻟﻌﺎﻣﺔ أ. ﺷﺎﺷﺔ ﻋرض ،ﻣﻘﺎوﻣﺔ )ﻧوع (SP )(1 اﻟﻣﺎدة :ﻣن اﻟﻣت اﻷﺑﯾض واﻟﻣﺣﻼة ﻛﻣﺎ ﻫو ﻣﺣدد. )(2 اﻷﺑﻌﺎد: )أ( أ .اﻟﻌرض 2400 :ﻣم. )ب( ب .اﻻرﺗﻔﺎع 2260 :ﻣم. )(3 اﻟﺗﺣﻛم :ﺑﺟوار اﻟﺷﺎﺷﺔ وﻛﻣﺎ ﻫو ﻣﺣدد. ﺟزء )(3 اﻟﺗﻧﻔﯾذ 1-3 اﻻﺧﺗﺑﺎر: ﻗﺑل ﺑدء اﻟﺗرﻛﯾب ﯾﺗم اﻟﺗﺄﻛد ﻣن أﺟﻬزة اﻟﺗﺟﺳﯾم واﻹﻧﺷﺎء اﻟﺣﺎﺑس ﺟﺎﻫزة ﻟﻠﺗﺷﻐﯾل وﻣﻧﺎﺳﺑﺔ ﻟﺗﺄﻣﯾن اﻟﺷﺎﺷﺎت ووﺻﻼت اﻟﺧدﻣﺎت ﻣﻧﺎﺳﺑﺔ وﻣوﺟودة ﻓﻲ ﻣﻛﺎﻧﻬﺎ اﻟﺻﺣﯾﺢ. 2-3 اﻟﺗرﻛﯾب: أ. اﻟﻣــورد ﺳــوف ﯾﻘــدم ﻣﻌﻠوﻣــﺎت اﻟﺗﺛﺑﯾــت ﺑﺄﺑﻌﺎدﻫــﺎ وﻣﺗطﻠﺑــﺎت اﻟﺧدﻣــﺔ ﻟﺗﺛﺑﯾــت اﻟﺷﺎﺷــﺎت اﻟﻣﺣــددة ﻓــﻲ ﻫــذا اﻟﻘﺳــم وﯾﺳــﺎﻋد أو ﯾﺷــرف أو ﻛﻼﻫﻣــﺎ ﻓــﻲ وﺿــﻊ وﺳــﺎﺋل اﻟﺗﺛﺑﯾــت ٕواﻧﺷــﺎء اﻟﺗﺟﻬﯾ ـزات اﻷﺧــرى ﺑﻣﻌــداﺗﻬﺎ اﻟﻣﺣددة ﻓﻲ ﻫذا اﻟﻘﺳم وذﻟك ﻟﻠوﺻول إﻟﻰ اﻟﻣﻬﻣﺔ اﻟﻣطﻠوﺑﺔ. ب. ﯾﺗم ﺗرﻛﯾب اﻟﺷﺎﺷﺎت ﻣﺳﺗوﯾﺔ ﻟﺗﺗطﺎﺑق ﻣﻊ ﻣواﺻﻔﺎت اﻟﻣوﺻﻰ ﺑﻬﺎ ﻟﻠﻣﺻﻧﻊ. ج. ﯾﺗم اﻟﺗورﯾد ﻣﻊ اﻟﺷﺎﺷـﺎت اﻟﺧـردوات واﻟﻠـوازم اﻟﺗﺣﺿـﯾرﯾﺔ وأدوات اﻟﺗﺛﺑﯾـت واﻟﻌﻧﺎﺻـر اﻷﺧـرى اﻟﺿـرورﯾﺔ ﻟﺗﺄﻣﯾن اﻟﺗرﻛﯾب. د. ﺗﺄﻣﯾن اﻟﺷﺎﺷﺎت ﻓﻲ اﻟﻣﻧﺷﺄ ﻛﻣﺎ ﻫو ﻣطﻠوب ﻟﻠﻣﺣﺎﻓظﺔ ﻋﻠﻰ وﺟودﻫﺎ ﻓﻲ اﻟﻣﻛﺎن اﻟداﺋم. ه. ﻣﺣطﺎت اﻟﺗﺣﻛم: )(1 ﯾﺗم ﺗرﻛﯾب ﻣوﺟﻬﺎت اﻟﺗﺣﻛم ووﺻﻼﺗﻬﺎ ﻋن طرﯾق وﺻﻼت ﻣﺧﻔﯾﺔ. )(2 ﯾﺗم ﺗرﻛﯾب ﻣﺣطﺔ ﺗﺣﻛم ﺑﺟوار ﻛل ﺷﺎﺷﺔ. 3-3 اﻟﺗﺛﺑﯾت واﻟﻧظﺎﻓﺔ: أ. ﯾﺟــب إﻋــﺎدة ﻧﻬــو اﻷﺳــطﺢ اﻟﻣﻌﯾﺑ ــﺔ ﻟﻠﻣﻌــدات اﻟظــﺎﻫرة ﺑﺣﯾــث ﯾﻛــون ﻏﯾ ــر ﻣﺳــﻣوح ﺑﺗﻐﯾــر ﻓــﻲ ﻣظﻬــر اﻟﺳطﺢ .ﯾﺗم إﻋﺎدة اﻟﻧﻬو ﻓﻲ اﻟﻣوﻗﻊ ﻓﻘط ﺑﻌد ﻣواﻓﻘﺔ اﻟﻣﺎﻟك. وزارة اﻟداﺧﻠﯾﺔ اﻟﻣواﺻﻔﺎت اﻟﻌﺎﻣﺔ ب. ﯾﺗم ﺗﻧظﯾف وﺻﻘل اﻟﺳطﺢ اﻟظﺎﻫر ﻣن أي ﻣﻛﺎن ﻋﻧد اﻧﺗﻬﺎء اﻟﺗرﻛﯾب. ج. ﯾﺗم إزاﻟﺔ ﻣواد اﻟﺗﻐﻠﯾف وأﻧﻘﺎض اﻟﺗﺛﺑﯾت ﻣن اﻟﻣوﻗﻊ. ﻧﻬﺎﯾـﺔ اﻟﻘﺳـم وزارة اﻟداﺧﻠﯾﺔ ASTM A446 ASTM B221 G-90 ASTM A 446 ASTM B 221 ASTM A 446 Stainless Steel gage satin finish SECTION 11160 HYDRAULIC BARRICADE SYSTEM ___________________________________________________________________________ PART 1 - GENERAL 1.0 SCOPE This specification defines the procurement of a HYDRAULIC BARRICADE SYSTEM, consisting of (one, two, three or four) vehicle Barricade(s) operating (independently or in sets of two, three or four) Barricade(s), a HYDRAULIC POWER SYSTEM, the CONTROLS AND LOGIC CIRCUITS, FEATURES and OPTIONS as defined herein. 2.0 SYSTEM CONFIGURATION 2.1 BARRICADE(S) 2.2 2.1.1 Barricade Construction. Barricade shall be a below grade assembly containing a heavy steel weldment capable of being rotated to an above grade position. The guard position shall present a formidable obstacle to approaching vehicles. Upon impact, forces shall be first absorbed by the Barricade assembly and then transmitted to the foundation of the unit. The Barricade roadway plates shall be fabricated from checkered floor plates. The removable portion of the roadway plate that provides access to the Barricade internals shall be fastened with bolts which have their heads recessed below the roadway level. 2.1.2 Barricade height. Height of the Barricade shall be 24.0 (610 mm) inches as measured from the top of the foundation frame to the top of the barrier inclusive of the top road plate. 2.1.3 Barricade Length. Barricade length shall be 120 inches (3,05 M). (Barricade can be optionally specified to a maximum length of 276 inches [7,0 M] or a minimum length of 72 inches [1,8 M].) 2.1.4 Finish. The foundation and underside of the Barricade shall be asbestos free asphalt water emulsion coated for corrosion protection. Barricade front and roadway plates shall have yellow/black or yellow/white diagonal stripes. HYDRAULIC POWER UNIT (HPU) 2.2.1 Hydraulic Circuit. Circuit shall incorporate the design concepts as described by US Patent # 4,490,068. Unit shall consist of an electrically driven hydraulic pump which shall pressurize a high pressure manifold connected to a hydraulic accumulator. Electrically actuated valves shall be installed on the manifold to allow oil to be driven to the up and down side of a double acting hydraulic cylinder to raise and lower the Barricade. The hydraulic circuit shall include all necessary control logic devices, interconnect lines and valves to override and lock out the normal speed control valve(s) for emergency fast operation of the Barricade(s). 11160-1 SECTION 11160 HYDRAULIC BARRICADE SYSTEM ___________________________________________________________________________ 2.3 2.2.2 Main Power. The electric motor driving the hydraulic pump shall be fed from (specify actual sit voltage, phase and frequency, i.e. 230/3/60). Motor shall be sufficiently sized for the expected number of Barricade operations. 2.2.3 Power Off Operation. The accumulator shall be sized to allow six half cycle operations of a single Barricade in the event of a power outage. Enhanced power off capability can be selected as an option. The bidirectional control valves shall also be manually operable in this case. 2.2.4 Manual Operation. A hand pump shall be furnished to allow the Barricades to be raised manually in the event of a prolonged power interruption. 2.2.5 Construction. The hydraulic power unit and accessories shall be mounted and wired on an integral steel skid. The HPU shall fit in a envelope 60 inches W x 36 inches D x 60 inches H (1524 mm W x 914 mm D x 1524 mm H). The HPU shall be mounted indoors or in an optional weather resistant enclosure. CONTROL AND LOGIC CIRCUITS The following circuits and control stations shall be furnished: 2.3.1 2.3.2 Control Circuit. A control circuit shall be provided to interface between all Barricade control stations and the hydraulic power unit. This circuit shall contain all relays, timers and other devices necessary for the Barricade operation. A. Voltage. The control circuit shall operate from a 120 volt, 50/60 Hz supply (optionally 240 volt, 50/60 Hz or 24 VDC). An internally mounted transformer shall reduce this to 24 VAC (24 VDC) for all external control stations. B. Power Consumption. The control circuit power consumption shall not exceed 250 watts basic load, plus 200 watts for each Barricade in the system. C. Construction. The control circuit shall be mounted in a general purpose enclosure. All device interconnect lines shall be run to terminal strips. Remote Control Panel. A remote control panel shall be supplied to control the Barricade operation. This panel shall have a key lockable main switch with "main power on" and "panel on" lights. Buttons to raise or lower each Barricade (or sets of Barricades) shall be provided. Barricade up and down indicator lights shall be included for each Barricade (or set). The emergency fast operate (EFO) feature shall be 11160-2 SECTION 11160 HYDRAULIC BARRICADE SYSTEM ___________________________________________________________________________ operated from a push button larger than the normal controls (optionally a covered toggle switch). The EFO shall also be furnished with EFO active light and reset button. 3.0 A. Voltage. The remote control panel shall operate on 24 VAC (optionally 24 VDC). B. Construction. The remote control station shall be a standard 19 inch electronics rack type surface mount panel with all devices wired to a terminal strip on the back. C (Option) Panel shall be equipped with a timer circuit to notify the operator via an annunciator "squealer" that the Barricade has been left in the down position for too long a time period. The time interval shall be customer selectable. ACCESSORY EQUIPMENT (Any or all of the following may be selected): 3.1 Auxiliary Emergency Fast Operate Circuit. A separate hydraulic circuit consisting of a pressure reserve source, operating control logic and interconnect lines and valves shall be supplied. This circuit shall provide an available source of power to operate the Barricade(s) at emergency fast speed (as specified herein), even after power off or manual operation or high frequency operation has depleted the normal reserve capacity. This system will operate in conjunction with and from normal EFO controls. 3.2 Electro-Mechanical Signal Gate. A electrically operated wood arm signal gate shall be supplied to alert vehicle drivers of the Barricade position. The gate operate shall interface with the Barricade at the control circuit. The control circuit shall close the gate at the Barricade "up" command and remain closed until the Barricade is fully lowered. The length of the wood arm shall be as specified by the Engineer and be striped with reflective yellow/black tape. The gate assembly shall mount directly to the roadway surface. 3.3 Stop/Go Traffic Lights. Red/Green 8 inch traffic lights shall be supplied to alert vehicle drivers of the Barricade position. The green light shall indicate that the Barricade is fully down. All other positions shall cause the light to show red. Brackets shall be supplied to allow light(s) to be located on a (3.5 inch OD post) (wall) (3.5 inch OD post - back to back). The light operating voltage shall be 120 Volt, power consumption 40 watts per light. 3.4 Sump Pump. A self priming sump pump shall be supplied to drain water collected in the Barricade foundation. The pump shall have the capacity to remove rainfall at distance to the supplied discharge drain. Pump operating voltage shall be 120/1/50-60 (alternately 240/1/50-60). 11160-3 SECTION 11160 HYDRAULIC BARRICADE SYSTEM ___________________________________________________________________________ 4.0 4.3 3.5 Safety Interlock Detector. A Barricade vehicle detector safety loop shall be supplied to prevent the Barricade from being accidentally raised under an authorized vehicle. The detector shall utilize digital logic have fully automatic tuning for stable and accurate long term reliability. The output of the detector shall delay any Barricade rise signal (except for EFO command) when a vehicle is over the loop. 3.6 Enhanced Power Off Capability. The hydraulic accumulator shall be sized to provide cycle operations of a single Barricade (or sets of Barricades). 3.7 Weather Resistant HPU Enclosure. A lockable weather resistant enclosure shall be provided for the HPU. The design shall provide for easy access to the HPU for maintenance and emergency operation of the hydraulic system. Enclosure shall be provided with a corrosion resistant coating and shall be 60 inches W x 36 inches D x 60 inches H (1524 mm W x 914 mm D x 1524 mm H). PERFORMANCE 4.1 Experience. Barricade and auxiliaries shall be of proven design. Manufacturer shall have in field operation for a minimum of 5 years with documented field experience for all major components and design features. 4.2 Certifications. The manufacturer shall certify that a detailed finite element structural analysis has been conducted on each Barricade configuration and that the results of that analysis supports the specified stopping capacity of the system as defined herein. The analysis shall be based on underlying data gathered by the manufacturer from certified results of not less than ten successful full scale crash tests of similar, but not necessarily identical Barricade systems. STOPPING CAPACITY. 4.3.1 Normal Operation. Barricade(s) shall provide excellent security and positive control of normal traffic in both directions by providing an almost insurmountable obstacle to non-armored or non-tracked vehicles. The Barricade system shall be designed to stop a vehicle attacking from either direction and continue to operate when the vehicle is within the weight and velocity characteristics as defined herein, minor repairs excepted. 4.3.1.1 Barricade shall be fully operational after successfully stopping vehicle(s), in the priority direction, weighing: 15,000 pounds at 63 mph (66,7 KN @ 101 kph) 22,500 pounds at 52 mph (100 KN @ 84 kph) 11160-4 SECTION 11160 HYDRAULIC BARRICADE SYSTEM ___________________________________________________________________________ 4.3.2 High Energy Attack. Barricade(s) shall be designed to stop and immobilize non-armored or non-tracked vehicles with weight and velocity characteristics as defined herein. The Barricade system shall be designed to destroy the front suspension system, steering linkage, engine crankcase and portions of the drive train. Significant damage to the Barricade system is probable at these levels. 4.3.2.1 The Barricade shall be capable of stopping and destroying a vehicle(s) weighing: 15,000 pounds at 75 mph (66,7 KN at 120 kph) 33,000 pounds at 50 mph (147 KN at 81 kph) 4.4 SPEED OF OPERATION 4.4.1 4.4.2 Normal Operation. Each Barricade (or set) shall be capable of being raised or lowered in 3 to 15 seconds (customer adjustable) when operated at a repetition rate not greater than specified in paragraph 4.5. Barricade direction shall be instantly reversible at any point in its cycle from the control stations. Emergency Fast Operation. Barricade shall rise to the guard position from fully down in 1.5 seconds maximum when the emergency fast operate button is pushed provided the system has not previously been exhausted by power off or manual operation or high speed cycle rates exceeding that specified herein. Barricade shall remain in the up and locked position (normal up/down buttons inoperable) until the EFO condition is reset.. 4.5 FREQUENCY OF OPERATION. Barricade shall be capable of up to 300 cycles per hour complete up/down cycles per hour. 5.0 QUALITY ASSURANCE PROVISIONS 5.1 Testing. Upon completion, the Barricade system will be fully tested in the manufacturer's shop. In addition to complete cycle testing to verify function and operating speeds, the following checks shall be made: 5.1.1 Identification. A nameplate with manufacturer's name, model number, serial number and year built shall be located within the maintenance access area. 51.2 Workmanship. The Barricade and subsystems shall have a neat and workmanlike appearance. 5.1.3 Dimensions. Principal dimensions shall be checked against drawings and ordering information. 5.1.4 Finish. Coatings shall be checked against ordering information and shall be workmanlike in appearance. 11160-5 SECTION 11160 HYDRAULIC BARRICADE SYSTEM ___________________________________________________________________________ PART 3 - EXECUTION 3.1 INSTALLATION A. Installation shall be performed according to the manufacturer’s instructions. Verify all component locations with contract drawings and shop drawings. B. Any disagreement between the Plans, Specifications, and Ordinances, must be called the attention of the Maunufacturer to the approval of the Engineer before signing of the shop drawings. After the shop drawings have been signed, the Contractor is responsible for having all work meet requirements of the governing ordinances. END OF SECTION 11160-6 وزارة الداخلية مركس المشروعات التطىيرية Page 1 of 30 وزارة الداخلية مركس المشروعات التطىيرية General Specifications: 1. Lifting time for popup target will be 0.5 second as maximum. 2. Target silhouette will be plywood. The vendor will supply one Target silhouette per target for testing purposes. 3. Muzzle flash will be clear during the day shooting. 4. Batteries will be for mock up shooting ranges and power cables for outdoor shooting ranges. 5. Batteries chargers capacity will be half of the number of batteries. 6. All none fixed targets will be wireless. 7. Operating temperature will be 70 degree. 8. Target silhouette height will to be 1.6 meter. (Plywood). 9. Technical datasheet will be submitted for main target components (Motor, Battery, etc…). 10. Calculation will be based on wend speed of 63 KM/H. 11. All targets will work in microprocessor based with an ability of having the software to be downloaded to the chip at any type. 12. Parallel processing is requited between all targets and control unit. 13. All Double Pop up Rotary Targets will have target carrier to ease the target movement and storage. 14. Target housing steel specification will be submitted (Thickness, Painting, etc…). 15. Test key (button) will be available in all Double Pop up Rotary Targets. 16. Rotating speed for swing target will be 0.3 sec for 90 degree. 17. Shooting angle will be 15 degree. 18. Shooting distance will be up to 150 meter. 19. Lane initiator is will be available to avoid cross shooting (8 to 10 M Second). 20. Box Target Roof protection will be available and it will be mechanical linked to the target mechanism. 21. Target quantity (see the quantity tables). 22. Software CD for the control unit will be delivered. 23. Color coding will be available to differentiate between the target statuses. 24. RCS computer control system will have bilingual software (Arabic - English) for all Shooting ranges. 25. Motion sensors will be delivered. 26. Building can be spited into zones and the motion sensors will be linked with each zone. 27. IR beam is will be available for outdoor shooting range to activate the scenarios. 28. Result weight for friend hits will be available in the final statistics. 29. Main building power will be used in submitting power to the motion sensors. 30. Dimmer will be available in the lighting in the building. Page 2 of 30 وزارة الداخلية مركس المشروعات التطىيرية 31. Base station with 60 X 2 wirelesses with fox speaker and receiver and it will use one channel and it will be recorded with a time stamp with a central control (Motorola) and it will be integrated with the video AAR. 32. Network will be available between the AAR room and the classroom and also to the range control room and the range control in the tower. 33. Server will be available in the tower for the mockup and another server in the outdoor shooting range and it will be linked to AAR and classroom. 34. Intercom will be available in all shooter cabinets. 35. All targets in the mockup will be dual popup and swing. 36. Detonation, Smoke Unit will be unlinked to the target and the Sound Unit will be linked to the target and both of them will be not linked to the hits. 37. For the outdoor (box target) there is no sound, muzzle and smoke. 38. For the outdoor mover and popup the muzzle and sound will be available for each. (no smoke). 39. For each simulation system a modification for 8 weapons is required (Pistol and Rifle) (4 lanes) (MP5, Clash, G36, Glock 9M, Smith, M16) two different group. 40. One Movie Creation and Editing station and Camera will be available. 41. 5 different scenarios will be available for each Simulation Shooting Cinema (75 total). 42. Shoot Back System Simulation (Laser) will be available for all 15 Simulation Shooting Cinemas. 43. Test key (button) will be available in all Double Pop up Rotary Targets. 44. Rotating speed for swing target will be 0.3 sec for 90 degree. 45. IVDU vertical height adjustment will be available. Page 3 of 30 وزارة الداخلية مركس المشروعات التطىيرية S1) Box Target System Specifications Page 4 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description The new Electronic Hit Scoring System is specially designed for individual engagement in common as well as in unusual locations. Its size can be manufactured according to customer’s requirements. The target has proven its effectiveness during many years of use in more than 1000 shooting ranges all over the world. The heart of the system consists of the sensor array in the base of the wooden box target. A projectile passing the target chamber generates a shock wave which is detected by the sensitive detectors of the sensor array. Due to this shock wave, the electronic of the sensor array exactly calculates the position of the projectile impact with accuracy of 2 mm approximately. These data are transferred to the Intelligent Display Unit IVDU to provide an instant, accurate feedback of the shooters performance in relation to the target. The impact is graphically presented on the IVDU’s screen. Technical Specification Box Target Dimensions box target (mm) 0.8m Box Target env. 800x1440 1.2m Box Target env. 1240x1240 2.0m Box Target env. 2000x2270 Dept Box Target 46 Depth with front covers 88 Depth with front & rear cover 130 Weight box target (kg) 0.8m 11 2.0m 32 Weight front cover (kg) 0.8m Box Target 2.6 2.0m Box Target 9 Intelligent Video Display Unit IVDU The firer’s display uses a non-glare LCD monitor. It is fitted with a built-in sun shield to provide the best possible display in an outdoor or indoor situation. The firer’s display has a power on/off control, a screen brightness control and minimal buttons to control the operation of the display via a simple menu system. Technical Specification IVDU Display VGA color Page 5 of 30 وزارة الداخلية مركس المشروعات التطىيرية Dimensions Weight Enclosure Rating Power LCD Display 100x250x200mm 4 kg IP 65 24 VDC or 230VAC Page 6 of 30 وزارة الداخلية مركس المشروعات التطىيرية S2) Location of Miss and Hit System “LOMAH” Infantry H-Bar Angle Fire Page 7 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description Rugged design and construction ensure the high survivability under climatic extremes while its modular construction simplifies servicing and maintenance procedures. The LOMAH detects projectiles that pass the target in a zone of 2.5 meters high (measured from the bottom of the target) and 1.5 meters wide (0.75 meters either side of target centre). The LOMAH will accommodate any weapon firing supersonic projectiles which have a remaining velocity, at the target, of at least 450 meters per second. The system can record rates of fire in excess of 2400 rounds per minute. The LOMAH is not affected by the rigours of environmental changes and climatic exposure. Rain, hail, dirt, stone showers or other debris thrown against or striking the LOMAH will not accumulate on the sensing surfaces nor be recorded as false shots and/or target hits or misses. Application The non-contact hit and miss detector system is known as the Location of Miss and Hit (LOMAH) System. It is also known as an Automatic Marking System (AMS) or as a Projectile Location System (PLS). The LOMAH H-Bar is designed to accurately calculate the location of projectiles impacting the target plane at angles up to ± 15° horizontal and ±5° from the perpendicular. preferred automatic marking system for static and moving infantry target systems. The LOMAH will detect a projectile and provide information so that the range control system is able to display the location and score each projectile that passes a target. Data feedback fully integrated into the Range Control System (RCS) and the Hand Held Controller HHC. Projectile location is displayed on a graphical representation of the target together with the x and y coordinates of each round. Additional data available for display includes the number of rounds fired, last round fired, the mean point of impact and time to engagement. Technical Specifications Calibre: Projectile velocity: Detecting Window: Hit Frequency: Shooting Angle: Control: Power: Operating Temperature: Relative Humidity: Enclosure Rating: Dimensions: Weight: 5,56mm to 120mm At least 450m/sec at the target 1.5m wide x 2.5m high 2400 rounds/min Azimuth ±15° Elevation ±5° RS422 12VDC from corresponding target -35°C to +75°C 98% IP 67 1000 x 580 x 135 mm 15kg / 33lb Page 8 of 30 وزارة الداخلية مركس المشروعات التطىيرية S3) Lain Initiator Description Rugged design and construction ensure the high survivability of the Lane Initiator under climatic extremes while its modular construction simplifies servicing and maintenance procedures. The Lane Initiator accommodates any weapon firing supersonic projectiles and is able to record rates of fire in excess of up to 2000 rounds per minute. The Lane Initiator is not affected by the rigours of environmental changes and climatic exposure. Rain, hail, shock or vibration will not trigger the sensor and are therefore not recognized as a shot. Application The Lane Initiator is an essential part on each marksmanship training range and enables the Range Control System to preclude cross fire and simplifies shot location calculation procedures. The Lane Initiator is designed for static shooting ranges should be placed at the firing point in front of the shooting position near the muzzle. It is connected to the IVDU where data to the RCS are transferred trough. The shockwave of a shot fired will trigger the sensor. Therefore the system recognizes that a shot was fired and opens a time frame in which the shot has to hit the target which is equipped with a T-Bar. The T-Bar records this data and sends it back to the RSC where it is compared with the Lane Initiator data. If the data from the T-Bar matches the parameters set, the position of the shot is displayed on the IVDU screen. Technical Specifications Operating Rate Detecting Window Power Operating Temperature Relative Humidity Enclosure Rating Weight with cable Dimensions Interface Settings pre-amplifier 2000 rounds per minute Adjustable from 70x50cm up to 300x200m 12 VDC from IVDU -25°C to 70°C 95 % IP 67 0.86 kg 125x80x57mm RS 232 or RS 422 Low, Medium, High Page 9 of 30 وزارة الداخلية مركس المشروعات التطىيرية S4) Double Pop-up/Rotary Target Mechanism Page 10 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description The equipment is a double pop-up/rotary target mechanism based on the normal pop-up target mechanism. Replacing the normal target holder with the new rotary module adds new functions to the mechanism. The rotary module permits realistic training with live ammunition where fast discrimination between friend and foe is required. Instead of an external contact hit sensor the rotary module records hits on the target automatically by a piezo-ceramic contact sensor built-in the module itself. The contact hit sensor provides optimum hit detection and efficiently filters out false strikes by debris, splinters, etc. Sensitivity of the hit detector can be adjusted via the control system in 15 steps to suit different ammunition types. Application Due to the modularity the target mechanism provides the pop-up mode as well as the two additional popup/rotary and rotary exposure mode. The target boards can be turned from friend to foe either in a standing position or horizontally when invisible for the shooter. The Target Mechanism, the base for the new model, is designed for mobile use in electronic target ranges or on moving trolleys and permits realistic training with live ammunition using small arms and rifles of different calibers. The equipment is ideal for operation in built-up areas (MOUT). It can also be used in fix installed ranges using mains power and wire control. A bank of Target Mechanisms can be directly controlled or pre-programmed and can be operated singly, in pre-selected groups or simultaneously with all other mechanisms by the Range Control System (RCS). The mechanism is pre-programmed with a set of standard target functions. Using either the radio controller or the Range Control System (RCS) a wider range of functions is available. Technical Specifications Max Target Size: Up to 3 targets 600 x 1600 mm Max Target Weight: 2.5kg single target (with target holder) 5kg double target 7kg triple target Wind Load: 72km/h single target 50km/h double target 40km/h triple target Raise & Lower Time: < 0.5 sec (without wind; up to 3 sec with wind) (with full size target 600 x 1600 mm) Hit Detection: Contact Hit Sensor (Piezo-Ceramic Hit Detector) 15 level sensitivity Hit Frequency: 1200 rounds/min Lights: Built-in lights simulating moonlight, hits on target and retaliatory fire Power: Gel Battery 24 VDC or mains power, according to configuration Radio Frequency: 400 - 470 MHz or wire control according to configuration Relative Humidity: 98% Operating Temperature: Standard -25°C to +50°C Extendable -35°C to +70°C Page 11 of 30 وزارة الداخلية مركس المشروعات التطىيرية Enclosure Rating: Dimensions: min. protection height Weight: IP 67 (Aluminum with thickness between 4 mm and 8 mm, Spay coated painting (burned and the color is sand yellow, anti rust and anti scratching)) Mechanism 440 x 570 x 220 mm 330mm 30kg S5) Contact Sensor – Hit Indication Page 12 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description Target hit detection is provided by a contact sensor mounted on the target lifter arm of infantry target mechanisms and on the target silhouette for armor targets. The hit sensor is a solid-state shock and vibration device specifically tuned to the energy profiles created by live fire projectiles. The hit sensor detects and records the impact of projectiles on the target by deriving its stimulus from the physical impact of a round onto the target board. This device will capture hit information at a rate of up to 20 rounds per second (1,200 rounds per minute) and guarantees almost a 100% hit detection rate. Target strikes from debris, etc., which have a different signature from valid hits, are filtered out by the hit detector with an error of less than 1%. Characteristic signatures are shown in the two graphs reproduced in Figure 2.14 below. Page 13 of 30 وزارة الداخلية مركس المشروعات التطىيرية S6) Sound Simulator Page 14 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description A reflex horn speaker ensures a wide frequency response and high sound pressure level. The equipment can be operated individually or together with a number of other units. Fully self-contained. Rugged design and construction ensures the high survivability under climatic extremes while its modular construction simplifies servicing and maintenance procedures. Application The Sound Simulator provides realistic enemy or friend (crying, etc.) return fire sound effects. This rugged, solid-state device can simulate single, burst and rapid fire at up to 600 rounds per minute. can be remotely controlled via the (Hand Held Control) when linked to a target mechanism for synchronized operation with target exposure (enemy or friend) or activation of night light and muzzle flash devices. There are 6 pre-programmed sounds in the memory: Rifle single shot Rifle three shots Machine gun Hand grenade Arrival of a truck Tank passing Other recorded sounds Technical Specifications Recording Input: Playback Output: Sound Level: Sound Format: Sound Capacity: Control: Power: Operating Temperature: Enclosure Rating: RS232 interface 30W reflex horn speaker 115dBA (1m distance) MPEG III Bit stream of 64kBit/se Up to 15 different sounds, each of 250kByte (which can be recorded) Radio via or RCS coupled to target mechanism 12 VDC from a target mechanism -25°C to +70°C IP 65 Page 15 of 30 وزارة الداخلية مركس المشروعات التطىيرية S7) Smoke Generator S8) Motion Sensor Page 16 of 30 وزارة الداخلية مركس المشروعات التطىيرية S9) Infantry Moving Target System Page 17 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description The equipment can be used in indoor and outdoor ranges. The robust construction of the system can withstand the rigors of daily range use under widely diverse environmental conditions. All components are treated so that neither corrosion nor rust can deteriorate the life expectancy Moving Target System. The target trolley itself is made of solid steel sheets that have been hot galvanized. It has 4 travel wheels and 4 guide wheels all of which are covered with special hardened rubber compound to ensure quiet movement. Rugged design and construction ensure the high survivability under climatic extremes while its modular construction simplifies servicing and maintenance procedures. An embankment must be erected that is sufficiently high and deep to provide the track and target mechanisms with protection from direct hits. The rails and their bases are galvanized to protect them from dirt and rust. Application The Moving Target System permits live fire exercises under the most realistic conditions. The multifunctional system is especially designed for sniper and machine gun training. The target trolley, which can carry up to 3 infantry target mechanisms, is capable of moving at speeds of up to 10km/h (3m/sec). It travels over a rail track, the length of which can be selected by the user. Gradients up to 15% can be included. The speed is adjustable in steps which support up to 10 levels. The targets appear and disappear at random based on the Range Control System Software (Exposure time, Hits count, etc..). The speed in steps, movements left and right, random direction, loop and stop can be controlled by computer Range Control System (RCS) or by hand-held programmable bi-directional radio controller (HHC). Included Equipments - Muzzle flash - Sound Simulator - Night Lights - Contact Sensor – Hit Indication - Range Control System (for the range) Technical Specifications Moving System: Speed: Acceleration: Power: Engine Power: Control: Radio Frequency: Winch-driven, rail mounted Max. 3.0m/sec (10km/h) 2m/sec2 Mains 380VAC 60Hz or according to customers specification Adapted to requirements Stationary via RCS or radio HHC 400 - 470 MHz Page 18 of 30 وزارة الداخلية مركس المشروعات التطىيرية Rail System: Rail Length: Gradient: Relative Humidity: Operating Temperature: Enclosure Rating: Dimensions and Weight: Fixed installation, track length to customer specification Min. 8m Max. 80m 15% 98% -25°C to +70°C IP 65 Adapted to requirements Page 19 of 30 وزارة الداخلية مركس المشروعات التطىيرية S10) Infantry Moving Target System Page 20 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description The System mounts a standard portable target mechanism. The target trolley is driven by a variable speed electric motor and is battery powered and radio controlled using the target controller (HHC). With a maximum speed of 10 km/h (3 m/sec) and the ability to climb and descend gradients of 5% the presents realistic target exposures to a variety of combat scenarios. Rugged design and construction ensures the high survivability under climatic extremes while its modular construction simplifies servicing and maintenance procedures. The use of quick-release connections allows the equipment to be reduced to its modular parts very easily (trolley, battery, and target mechanism with platform). Application The moving target is a portable system designed for rapid deployment in a variety of field conditions. The moving target can be directly controlled or pre-programmed and can be operated independently or together with other target systems to create a dynamic training environment. With its lightweight portability by 2 men, installation is quickly achieved. Standard 2m long rail elements join together to produce the required track length – a minimum of 8m is required – ready for mounting the target trolley. The installation site must be leveled ground with a maximum gradient of 5%. only a low wall is needed as protection from direct fire. This can be accomplished using normal field defenses; earthwork beams, sandbags, ect, or by suitable concrete walls on semi-fixed training ranges. Included Equipments - Muzzle flash - Sound Simulator - Night Lights - Angle Projectile Location System (LOMAH H-Bar) (One unit for both targets) - Range Control System (for the range) Technical Specifications Moving System: Speed: Acceleration: Power: Engine Power: Control: Radio Frequency: Rail System: Rail Length: Rail Radius: Gradient: Relative Humidity: Operating Temperature: Enclosure Rating: Dimensions: Weight: without Battery With Battery Self-driven, rail mounted Max. 3.0m/sec (10km/h) 0.6m/sec2 Battery 24VDC / 28Ah 450W Radio via HHC or RCS 400 - 470 MHz Portable installation, track length to customer specification Min. 2m Min. 3m Max. 5% 98% -25°C to +70°C IP 65 1405 x 604 x 424 mm (excluding target mechanism) or equivalent 70kg / 154lb 105kg / 231lb Page 21 of 30 وزارة الداخلية مركس المشروعات التطىيرية S11) Mover Target Rail Specifications Mover target rails are manufactured from galvanized steel and the target trolley has brushes to clean the rails from dust. If there is a heavy dust that the brushes can not clean or there is damage in the rails, the moving system will stop automatically to prevent any physical damage to the motor. Page 22 of 30 وزارة الداخلية مركس المشروعات التطىيرية S12) Zeroing Target Specifications The Zeroing target is a simple mechanical construction with an engine, control box, some guide wires and a trolley with a paper target. The engine is 380VAC driven and has of course the intermediate stop as requested. Target size assumed env. 1m x 1m Drive engine with control unit and start stop button Page 23 of 30 وزارة الداخلية مركس المشروعات التطىيرية S13) Digital Police Combat System (DPCS) Page 24 of 30 وزارة الداخلية مركس المشروعات التطىيرية Description The Digital Police Combat System is the latest of our developments in indoor firearms training systems, based on the latest computer microchips and simulation technology. The Digital Police Combat System provides the most effective interactive / retroactive self controlled and self corrective training with the objective to prepare individuals, and the whole force, to overcome any violence or terrorist challenge. The system has been designed to meet the requirements of today’s most experienced police instructors. Video clips (live moving targets), still picture or video illustrations (still targets) are available for selection by the instructor. According to the trainee's level different shooting scenarios can be called-up from the digital store before or during shooting using keyboard, mouse or IR remote control. It is also possible to have several persons attack at once and to evaluate the reactions. The embedded digital and analogue sound system completes the powerful live sound and offers special effects to meet maximum realism and effectiveness in firearm training. Features - Video Projection System; projection ratio 16:9 or 4:3 as per the specifications. - Projection screen adjusted to the width of the room, if necessary with a screen-off curtain - Infrared or visible light behind the projection screen - Hit-detection camera for control of the entire screen - System to use for live and laser shooting - Hit-detection replay - Reproduction of stored targets including the relative hits - Quality of the pictures: Hi8 - 99% detection guarantee at a detection speed of 100 shots per second - Hit evaluation for 4 lanes - Electronic covering of existing bullet holes in the screen - System interaction 40ms - Compensation for unwanted light - Reaction time per shot, even if several shooters shoot simultaneously - Marking of hit detection zones by a simple mask program - Automatic mask generation program - Interactive static targets - Interactive moving targets - Individual programmable structure - Programmable training samples as per the specifications. - Protection by passwords at different levels - Editing software for video with camera. - Text generator - Sound system as per the specifications. Related Equipment - Blue-Box System Page 25 of 30 وزارة الداخلية مركس المشروعات التطىيرية - Picture-in-picture control - Weapon recognition - Integration of switching modules - Shooter data administration - Separate workstation installation for mask creation - Automatic ceiling-mounted projection screen system - Laser inserts Page 26 of 30 وزارة الداخلية مركس المشروعات التطىيرية )S15) Range Control System (RCS Page 27 of 30 وزارة الداخلية مركس المشروعات التطىيرية Range type 1 and type 2 The Range Control System (RCS) is designed to control all aspects of the functionality of the range equipment. These functions include control of: - All range target equipment - IVDU - Firing programs - Built in tests - Shooters data collection - Printing of scores The RCS will present the operator with the status and control information needed to operate the range. The operator can program the range using a keyboard and/or mouse. The RCS will maintain a total score for each lane for all types of targets (Box targets, Popup targets and mover targets and the treatment can be for each type individually or bundled). The total score will be the sum of the points given to each shot fired in a lane, in addition sub-totals will be held for each serial that makes up the firing practice. The range control computer will maintain the display of shot locations and the lane score. This will allow for many hundreds of shots to be fired during a single practice, and allow a score to be produced at the end for all shots fired. Results from each serial will be separately displayed to enable the firer to view the shot position information on a serial by serial basis. If a firer's display has become full of shot positions and it is not reset, the system will continue accumulating a lane score, but may stop displaying the locations of any more shots that are fired. The RCS will record all target movements and settings with the operator specifying the time delays between each step. To assist the operator in the creation of complex programs the system will also include the following functions: - Set exact time periods of target exposure, with a minimum exposure time of one second. For example, "put this target up, wait five seconds, target down, wait two seconds". - Repeat any section of the program a specified number of times (looping of a series of events). For example, repeat ten times: target up, wait five seconds, target down, wait two seconds". - Instruct a program to automatically pause at a certain point until the operator instructs it to continue. - Add comments or prompts to the program (notes by a person writing the program explaining its function to other operators). - Allow several parts of a program to execute concurrently. - Allow for un-programmed pauses to cater for a re-shoot for a specific lane/serial. - Sighting shots are accommodated at the start of a serial. - Allow any program to be accessed at any point; that is, without having to run the complete program to reach the desired point. The target exposure sequences (programs) are saved in the range control computer hard drive so that they remain available for re-play at all times. The RCS will have the necessary diagnostic software to test that the major components of the range are working correctly. Tests are done automatically on start-up and on request from the range operator. Diagnostic test results are given in a clear and meaningful way, explaining the origin of any faults that may be found. They are comprehensible to a non-technical operator as well as indicating the repair method. Failures are indicated down to individual replacement modules that can be replaced by the range operator. Page 28 of 30 وزارة الداخلية مركس المشروعات التطىيرية A laser printer is provided for printing scores, graphic representation of shot locations, range hardware test reports and range practice programs. Access to the system is protected by password, separating the user levels: one for the range officer who creates and edits the shooting programs, and one for users. The operators of the RCS do not need any specialized computer programming skills; however, they have to be computer literate. To assist the operator the RCS will provide an on-line, context sensitive help system, which contains information on how to operate all aspects of the system. The operating manual is stored on a CD-ROM and loaded on the computer hard disc. Page 29 of 30 وزارة الداخلية مركس المشروعات التطىيرية Mock-up Village Range The layout of the mockup village range will be displayed in the Range Control System screen. The targets can be dynamically allocated inside the mock-up village. Motion sensors and IR beam detectors will be displayed in the software screen. Targets will be programmed based on the zones which will be manually identified and each zone will be linked to a motion sensor which will detect the motion and activate the related program to activate the targets. A different scenario can be identified for each zone and for each scenario the following actions can be done: - o Target activation time after motion sensor detects a motion. o Target position control (Enemy or Friend) o Exposure time control for each target position. o Number of killing bullets for each target. Shooting results can calculated as follow (Statistically): - o One positive point for each Enemy hit. o One negative point for each Friend hit. o Zero point for each Enemy position appears without hit. o Half point will be calculated for each enemy hit > one hit. o The above calculation method can be modified by the system administrator. Shooting results can calculated as follow (Visually): - o Different color for Enemy and Friend targets exposure. o Different color for Enemy and Friend hilted targets. o Different color for Enemy and Friend not hilted targets. From the system the user can run the voice recording. From the system the user can run the video recording. The system can display a statistics reports for each zone or for the complete training program. Page 30 of 30 SECTION 11180 UNDER VEHICLE SURVEILANCE SYSTEM ___________________________________________________________________________ PART 1 - GENERAL 1.1 A. 1.2 DESCRIPTION The Works under this Section shall consist of furnishing and complete installation of under vehicle surveillance system (UVSS) as shown on drawings and as specified herein SUBMITTALS A. Product Data: For each item of UVSS. Include manufacturer's standard details and installation and maintenance instructions. B. Shop Drawings: For each item of UVSS. Include plans, elevations, and details of typical members and other components. C. Maintenance Data: For components to include in the maintenance manuals specified in Division 1. D. Maintenance Instructions: Manufacturer's written instructions for maintenance. 1.3 1. Include recommended methods and frequency for maintaining equipment in optimum operating condition under anticipated traffic and use conditions. 2. Include precautions against materials and methods that may be detrimental to finishes and performance. QUALITY ASSURANCE A. Installer Qualifications: Engage an experienced installer who is an authorized representative of the manufacturer for both installation and maintenance of the type of units required for this Project, with minimum five (5) years of successful experience in the installation. B. Source Limitations: Obtain through one source from a single manufacturer. PART 2 - PRODUCTS 2.1 Under Vehicle Surveilance System (UVSS) Products must be designed as permanent system for lights vehicles to heavy truck. The inspection ramp’s frame, covers, and camera mounts are manufactured out of steel while the extended ramp ramp sections and shoulders are constructed our of recycled rubber. The inspection ramp has a height of 8 cm and a width of 244 cm. The rubber extensions help prevent tire spin by fronty wheel drive vehicles. The 11180 - 1 SECTION 11180 UNDER VEHICLE SURVEILANCE SYSTEM ___________________________________________________________________________ ramp contains three water proof high resolution color cameras each containing 36 white LED(s). A power supply and 20 meters of control cable is included. General Characteristics:- Inspection ramp weight: 80.3 kgs Inspection ramp size: 2440 (W) x 540(W) x 80(H) mm Material: Galvanized steel & heavy duty recycled PVC Number of cameras: 3 Cable length : 20 meters Gross Vehicle Weight: 40 tons Operating Temperature: -25C to +50C AC Voltage 110-120 60 Hz / 220-240 50 Hz INSPECTION RAMP - Frame: (1) Galvanized steel Covers: (1) each 4mm thick galvanized steel Rubber Sections: (2) Heavy Duty Recycled PVC Shoulders: (2) Heavy Duty Recycled PVC CAMERAS - 2.2 Quantity: 3 Number of Pixels: 510 (H) x 492 (V) Resolution (TV Lines): High Resolution 330 (H) x 350 (H) Lens: 2mm, f3.5 wide angle Lighting: 36 white LEDs with variable intensity Video Format: Color, PAL / NTSC Power: 8 to 13 Volts DC Current: 160mA (camera), ~500 mA with LEDs Dept Rating: 50 meters Weight: 300 grams Diameter: 36mm Length: 52mm Housing: Stainless Steel Monitoring Station The basic UVSS Monitoring Station consist of a Monitor and a DVR for each camera located in the inspection ramp. The system permits life viewing recording and playback of vehicle images at full video resolution. An electronic digital motion detection unit is used to detect vehicles approaching the inspection ramp which automatically starts and stops the recording of the vehicle images. The DVR(s) are connected to a control box. The control box synchronizes the attached DVR(S) for play back and recording. The control box allows the operator to playback the images 11180 - 2 SECTION 11180 UNDER VEHICLE SURVEILANCE SYSTEM ___________________________________________________________________________ of the last vehicle by pressing a single button. High-resolution 14” color monitor with metal cabinets are used. General Characteristics:DVR(S): 1.3 Monitor(s): 1-3 Control Box: 1 BNC Cables 3m: 4.9 Power Strip/Surge Protector:1 DVR Video Format: NTSC / EIA or PAL / CCIR Record Mode: Manual / Alarm / External / Timer RS 232: Yes On Screen Display: Yes Security Password Protection Video Loss Detection: Yes Time Display Format: Yes HHD Storage: IDE type, UTMA 66 above, 1 removable HDD supported Playback Searching: Date & Time / Event / Alarm searching Video Input: 1 video input, composite 1 Vp-p / 75ohm (BNC) Video Output: 1 video output, composite 1 Vp-p / 75ohm (BNC) Video Resolution: 720 x 576 (PAL), 729 x 486 (NTSC) Video Compression: Wavelet Display Refresh Rate: 60 ips (NTSC, 50 ips (PAL) Record Refresh Rate: 60 ips (NTSC, 50 ips (PAL) Alarm Input: TTL input, High (5V) Low (GND) Power Source: AC90-240V switching adaptor Power Consumption: <27W Dimension: 380 (W) x 270 (L) x 65 (H) mm Weight : 5.2 kgs Operating Temperature : 10`40° MONITOR Resolution: 525 Lines NTSC / 625 Lines PAL Video Format: NTSC / PAL Screen Size: 14” (36 cm) Housing: Metal Video Input: 1 video input, composite 1 Vp-p / 75ohm (BNC) Video Output: 1 video output, composite 1 Vp-p / 75ohm (BNC) Power Source: 220-240AC 50Hz Power Consumption: 45W Dimension: 362 (W) x 318 (H) x 376 (L) mm Weight : 15kgs. 11180 - 3 SECTION 11180 UNDER VEHICLE SURVEILANCE SYSTEM ___________________________________________________________________________ Operating Temperature : 10`40° DVR CONTROL BOX Input: 2-3 Serial Cables Dimension 100 (W) x 80 (H) x 150 (L) mm Weight : 400 grams Operating Temperature : 10`40° Functions : Play / Slow / Forward / Reverse / Freeze / Stop PART 3 - EXECUTION 3.1 INSTALLATION A. Installation shall be performed according to the manufacturer’s instructions. Verify all component locations with contract drawings and shop drawings. B. Any disagreement between the Plans, Specifications, and Ordinances, must be called the attention of the Manufacturer to the approval of the Engineer before signing of the shop drawings. After the shop drawings have been signed, the Contractor is responsible for having all work meet requirements of the governing ordinances. END OF SECTION 11180 - 4 ASTM ASTM A 525 ASTM A 526 ASTM A 527 ASTM A 554 ASTM A 569 ASTM B 209 NFPA NFPA 54 NFPA 70 NFPA 96 NEMA LD3 UL AGA UL UL UL gauge (Gauge) A ASTM A 240 2B – – ASTM A ASTM A 213 249 ASTM A 36 ASTM A 526 ASTM A 525 ASTM A 527 G115 NSF 2B WW-P541 Stainless Steel ASTM A 167 Gauge NFPA96 , NFPA70 , NFPA 54 – (Gasket) (Gasket) – Pec dec وزارة الداخلية مركس المشروعات التطويرية Masonry Walls That Resist Bullet Penetration Masonry structures, by there robust nature, convey a feeling of security. Hence, it is probably by no coincidence that many correctional institutions, law enforcement facilities, and government buildings are effectively constructed with different types of masonry. During the second world war, masonry structures were used to house equipment sensitive to sabotage. Today, terrorist attacks and the increasing occurrences of "drive-by shootings" pose a great threat to public safety. However, for both Engineers and Architects, little information is published on the resistance of exterior walls to bullet penetration. Intuitively, masonry should provide better protection from direct or indirect gun shots than do other forms of typical light construction simply because of the mass available to dissipate the energy from an impact. However, to simply specify a building material based on a hunch is not a rational design methodology. In addition, to blacklist other types of construction materials without performing a scientific comparison between complete wall systems, is simply unprofessional. To address these issues, a research program was initiated by the Canadian Masonry Research Institute (CMRI) and the Royal Canadian Mounted Police (RCMP) to investigate the performance of complete wall assemblies subjected to direct gun shots. To conduct this study, a total of 16 wall assemblies were constructed using standard construction procedures and in accordance with the applicable building standards. Each wall assembly was built in an "L–shape" as viewed in plan. Figure 1 shows a typical wall specimen. For 13 of the walls, the main framing consisted of 51 mm x 102 mm (2"x 4") wood studs spaced at 400 mm (16") on center. The framing was covered with 13 mm (1/2") thick wood sheathing and exterior tar paper while fiberglass insulation was placed between the studs. The interior side of each wall was covered with drywall and then painted. The remaining three walls were constructed using standard 150 mm hollow concrete blocks as the backup wall system. These three walls were detailed with a bituminous air barrier membrane and 50 mm (2”) of rigid foam insulation. No paint was applied to the interior side of the concrete block backup walls. وزارة الداخلية مركس المشروعات التطويرية Figure 1 - Concrete Brick with Wood Stud Backup Wall Specimens وزارة الداخلية مركس المشروعات التطويرية The exterior of the wood framed walls was finished with five different systems: concrete brick, clay brick, Tindlestone, vinyl siding, and stucco. Three walls were finished with concrete brick units of which two walls utilized 90 mm (thick) x 57 mm (high) units and one wall utilized 90 mm (thick) x 200 mm (high) units. The nominal strength of the concrete masonry units was 15 MPa. One wall utilized high strength clay bricks as the veneer. These high strength units were almost black in colour and had a compressive strength of 70 MPa. Another single wall specimen utilized Tindlestone from Manitoba as the veneer. The Tindlestone was saw cut on all faces a typical thickness of 90 mm. Standard vinyl siding was placed on two walls and wire mesh with stucco was applied on four walls. The stucco walls were divided into two categories: a two coat stucco having a وزارة الداخلية مركس المشروعات التطويرية total thickness of 13 mm, and a three coat stucco having a total thickness of 19 mm. The remaining three wall assemblies were constructed using standard 150 mm hollow concrete masonry units as the structural backup. Two of these wall specimens were constructed with 90 mm (thick) x 57 mm (high) clay bricks for the veneer and the concrete block backup was not grouted. The last specimen was constructed using a fully grouted backup with concrete brick as the veneer. Type S mortar was used for both the clay brick and concrete block masonry units. An extensive variety of firearms were used in the testing program. Because literally thousands of different types of firearms exist, the objective was to select a sample of common firearms and ammunition typically available to civilians and police. The following table lists all the firearms along with the corresponding ammunition used. See Table “Description of Firearms and Ammunition” The walls were tested in the firing range at the Royal Canadian Mounted Police (RCMP) forensic laboratory located in Edmonton, Alberta, Canada. Testing was performed on one wall at a time due to the physical layout and size constraints of the firing range; however, the test procedure used for each wall specimen was identical. The walls were positioned at a horizontal distance of 25 m from the location of the riffle. Each wall was then fired upon twice with each caliber of rifle selected. For the first shot, the given wall was positioned such that one leg of the "L–shape" was perpendicular to the trajectory of the bullet. The second was fired with the wall rotated 45 degrees such that the theoretical trajectory of the bullet before impact passed through both faces of the "L– shaped" wall assembly. Figure 2 shows the plan view of the two wall positions used during testing. Figure 2 - Plan View of Test Setup وزارة الداخلية مركس المشروعات التطويرية This procedure was repeated once for each caliber, beginning with the .22 caliber and then sequentially increasing the caliber, until the wall was penetrated. A summary of the test results is listed in the following tables. VINYL SIDING Firearm Direct Corner .177 Pellet embedded in plywood not tested .22 Revolver through wall through both walls .22 Long Rifle through wall through both walls .223 Remington through wall through both walls .25 Automatic through wall through 1 wall .32 Automatic through wall through both walls .308 Winchester through wall through both walls .40 Smith & Wesson not tested through both walls 12 Gauge 0 Buckshot through wall not tested STUCCO SIDING—13 mm Firearm Direct Corner .22 Revolver embedded in stucco not tested .22 Long Rifle through wall not tested .223 Remington not tested embedded in second wall .25 Automatic embedded in stucco not tested .32 Automatic embedded in stucco not tested 9x19mm Pistol through wall not tested 12 Gauge Sabot Slug not tested through both walls STUCCO SIDING—19 mm Firearm Direct Corner .22 Long Rifle embedded in stucco not tested .223 Remington through wall embedded in second wall .308 Winchester through wall through both walls .40 Smith & Wesson through wall not tested 9x19mm Pistol through wall not tested 9x19mm Sub-machine gun through wall through first wall 12 Gauge 0 Buckshot 4/12 pellets embedded in drywall not tested 12 Gauge Rifle Slug through wall not tested 12 Gauge Sabot Slug through wall not tested Clay Brick—17.5 MPa Firearm Direct Corner .22 Long Rifle large chip in brick not tested .223 Remington large hole in brick not tested .308 Winchester large hole in brick large hole in brick (embedded) 7mm Remington Magnum large hole in brick not tested 7mm Shooting Times Westerner through brick to tar paper not tested .30-06 Springfield large hole in brick not tested وزارة الداخلية مركس المشروعات التطويرية .375 Holland & Holland through brick to tar paper not tested Clay Brick—70 MPa Firearm Direct .22 Long Rifle small chip in brick .223 Remington large hole half way through brick .308 Winchester large hole in brick .50 Browning Machine Gun through wall Concrete Brick Firearm Direct .22 Long Rifle small chip in brick .223 Remington hole in brick 7mm Remington Magnum large hole in brick .308 Winchester large hole in brick .30-06 Springfield large hole in brick Concrete Block (hollow) Firearm Direct .22 Long Rifle large chip in brick .223 Remington hole through first face shell .308 Winchester hole through both face shells Cavity wall—Ungrouted Firearm Direct Corner .50 Browning Machine Gun through wall through first wall and embedded in second Cavity wall— Fully Grouted Firearm Direct Corner .50 Browning Machine Gun 3 successive shots required to penetrate wall not tested Manitoba Tindlestone Firearm Direct .22 Long Rifle small chip in brick .223 Remington large diameter surface chip .308 Winchester large deep chip .50 Browning Machine Gun through wall The results of this project were somewhat unexpected. The ability of a .22 Long Rifle bullet to easily travel completely through the corner of a typically constructed vinyl sided house was as unforeseen as the clay and concrete brick walls stopping all but the bullet with the greatest velocity. Standard 13 mm or 19 mm stucco finishing does not significantly reduce life-threatening situations for people inside or outside a wall that is subjected to most centerfire bullet impacts. This danger increases with the velocity and energy of the bullet fired. A person struck by one of these projectiles would be at risk of serious bodily injury or death. Secondary projectiles (wood, lathe, stucco, etc.) produced by a bullet travelling through one of these walls would also present a risk to a person. Walls finished with either a clay brick, concrete brick, or Tindlestone veneer prevented all but the .50 Browning from completely penetrating the wall assembly. The ability of the both the high strength (70 MPa) and low strength (17.5 MPa) clay brick وزارة الداخلية مركس المشروعات التطويرية walls to prevent bullet penetration was very similar. However, the localized behaviour of high and low strength bricks was substantially different. Upon impact, the low strength brick was turned into powder in the localized region of the bullet impact. Figure 3 shows the impact zone caused by the .308 Winchester on the low strength clay brick. Figure 3 - Damage to Low Strength Clay Brick Caused by .308 Winchester Very little flying debris was observed and the bullet typically came to rest inside the wall. For the high strength brick, a more brittle type of behaviour was observed. Rather than turning to powder upon impact, many small chips were formed which scattered as far as 10 m from the impact zone. Figure 4 shows the impact zone caused by the .308 Winchester on the high strength clay brick. وزارة الداخلية مركس المشروعات التطويرية Figure 4 - Damage to High Strength Clay Brick Caused by .308 Winchester Similar characteristics were exhibited by the Tindlestone wall with fragmented pieces travelling as far as 20 m. Figure 5 shows the chipped region caused by the .223 Remington. وزارة الداخلية مركس المشروعات التطويرية Figure 5 - Damage to Tindlestone Caused by .223 Remington These tests have provided valuable forensic firearms information regarding the type of damage expected to buildings after they have been struck by gunfire. Certain inferences about velocities and caliber can be made by observing the damage found on primary and secondary targets. The results provide members of law enforcement with the knowledge of what consequences they can expect in situations where firearms are being used by and/or against them. These results will also provide builders and architects of high risk projects with the knowledge of what finishes can be used in specialized or high risk applications. This project was funded by CMRI and the RCMP. The authors wish to thank the management of the RCMP Crime Laboratory for without their support and cooperation, this project could not have been undertaken.
