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摘要:該建筑為商住樓，建筑高度為80.6米。本建筑物所有給水排水均按高層建筑給排水要求進(jìn)行設(shè)計。結(jié)合實際情況，根據(jù)建筑物的性質(zhì)，用途，和室內(nèi)設(shè)有完善的給水排水衛(wèi)生設(shè)備，具體的給排水系統(tǒng)設(shè)計如下：

　　　給水系統(tǒng)：

　　　本建筑采用分區(qū)給水，共計三個區(qū)。地下二層至六層為低區(qū)，七至十六層為中區(qū)，十七到二十五層為高層。由兩臺變頻泵分別向中高區(qū)供水，設(shè)兩條引入管，從不同的方向引入，既保障了供水安全，又節(jié)約了能耗。

　　　排水系統(tǒng)：

　　　本設(shè)計采用污廢合流的排放體制。管材排水管采用UPVC排水管及管件，采用粘接，壓力排水管采用焊接鋼管。污水經(jīng)化糞池處理后排入市政污水管網(wǎng)。

　　　消防系統(tǒng)：

　　　該設(shè)計采用消火栓給水系統(tǒng)。室內(nèi)消火栓給水系統(tǒng)采用臨時高壓給水，由消防水池、加壓泵、供水管、閥門、室內(nèi)消火栓等組成。在屋頂水箱間內(nèi)設(shè)實驗用消火栓裝置，消火栓給水管網(wǎng)呈環(huán)狀布置，各消火栓箱內(nèi)設(shè)消防水泵啟動電鈕，能直接啟動消防泵；火災(zāi)初期10分鐘的用水量由屋頂消防水箱供給，正常供水由消防水泵從貯水池內(nèi)抽取。室外設(shè)地下式水泵結(jié)合器，保證消防安全可靠。

　　　熱水系統(tǒng)：

　　　根據(jù)設(shè)計資料，本設(shè)計需對1-25層供應(yīng)熱水。為保證同一用水點的冷、熱水壓力平衡，熱水管道沿著給水管道布置，采用封閉式機械循環(huán)熱水系統(tǒng)。

　　　各系統(tǒng)中的立管設(shè)在管井內(nèi)或沿墻敷設(shè)，水平管根據(jù)各系統(tǒng)的特點明敷或暗敷。

　　　本設(shè)計以經(jīng)濟(jì)、環(huán)保、節(jié)能為原則，通過借鑒以前的設(shè)計方法和經(jīng)驗，采用了合理的技術(shù)措施，使設(shè)計的各個系統(tǒng)達(dá)到了很好的使用效果。

關(guān)鍵詞：給水；排水；熱水；消火栓；自動噴淋

Abstract:The building for the commercial and residential  buildings, building height of 80.6 meters. All the buildings are carried at high-rise building water supply and drainage and drainage requirements for the design. Combined with the actual situation, according to the nature of the building, use, and indoor sanitation has improved water supply and drainage facilities, the specific design of the drainage system as follows:

Water supply system:

    The building adopts regional water supply, a total of three areas.Six for the ground floor to the lower zone, seven to 16 layers for the Central District, seventeen to twenty five-story high-rise. Respectively by two high pump water supply, set two inlet tube, introduced from different directions, both to protect the safety of water supply, but also saves energy.

Drainage System:

    The design uses a confluence of waste and sewage discharge system. Drain pipe with UPVC pipes and fittings, using adhesive, pressure pipes welded steel pipe. The septic tank effluent discharged into the municipal sewage treatment pipe network.

Fire System:

    The design uses a Fire Hydrant System. Indoor Fire Hydrant System uses high-pressure water supply temporarily, by the fire pond, pressure pumps,  water pipes, valves, fire hydrant and other components. Equipped with water tanks on the roof with a fire hydrant experimental apparatus, fire hydrant annular arrangement, the fire box equipped with push-button start fire pumps, fire pumps can be started directly; initial fire from the roof of a 10-minute fire water tank water supply, the normal water storage tanks by a fire pump extracted from. Underground water pump chamber peripheral devices, to ensure fire safety.

Hot water system:

    According to the design information, the design must supply hot water for 1-25 layers. To ensure the same point in the cold water, hot water pressure balance, piping hot water pipes along the water, the use of closed mechanical circulatory hot water system.

Each system riser tube wells located within or along the wall in the laying, horizontal tube according to the characteristics of each system for surface or concealed.

    The design of the economy, environmental protection, energy conservation principle, by drawing on the previous design methods and experience, using reasonable technical measures to make the design of the various systems used to achieve good results.

Keywords: Water supply;Drainage; Hot water; Fire hydrant; Sprinkler