-
公开(公告)号:KR101773292B1
公开(公告)日:2017-09-01
申请号:KR1020160041883
申请日:2016-04-05
Applicant: 한남대학교 산학협력단
CPC classification number: E03D13/005 , E03D5/10 , E03D13/007 , E03D2201/00
Abstract: 본발명은스마트소변기에대한것이다. 보다상세하게는본체와, 상기본체하단부중앙측에소변받이가구비되며, 세척수공급수단이구동되면본체상단일측게구비된세척수공급부를통해세척수가본체의측면으로흘러상기소변받이측으로유동되어소변과함께하수관으로유입되도록구성된소변기에있어서, 상기소변받이하단측에구비되어상기소변의무게를측정하는무게측정부; 상기소변받이와상기무게측정부사이에구비되는소변저장용기; 및상기무게측정부에서측정된소변무게를기반으로상기세척수공급수단을제어하는제어부를포함하여, 악취예방과불필요한세척수의사용을방지할수 있으며, 필수적인행위(소변을보는행위)를해야만세척수가공급되며, 효율적인세척수사용을위해소변량에따라최적의세척수가작동시 1회만공급될수 있는것을특징으로하는스마트소변기에관한것이다.
Abstract translation: 本发明涉及一种智能小便器。 更具体地,主体和配备有尿接收主体的下端中央部,通过设置在本体洗涤的顶部的一侧上的清洗水供给的零件yigudong能够流入所述主体的所述侧朝向尿接收器与尿流量以上时的清洗水供给装置 1。一种小便器,其构造成流入污水管,所述小便器包括:称重单元,其设置在尿液容器的下端以测量尿液的重量; 设置在尿液接收器和重量测量装置之间的尿液储存容器; 和用于控制清洗水供给的控制器基于由所述重量测量,气味预防测定尿重量装置,并且能避免洗涤水的不必要的使用,洗涤水被供给有必要的动作(动作排尿) 并且在操作期间,根据尿液的有效使用洗涤水的量,最佳洗涤水可以仅供应一次。
-
公开(公告)号:KR101263372B1
公开(公告)日:2013-05-21
申请号:KR1020120109417
申请日:2012-09-28
Applicant: 한국건설기술연구원 , 한남대학교 산학협력단
Abstract: PURPOSE: A fire-resistant performance design method for calculating equivalent fire severity with a performance design technique when designing fire-resistant performance of a structure. CONSTITUTION: A partition shape for design of fire-resistant performance is determined by inputting fire prevention partition size data, roof opening data and wall opening data(S111). The conversion factor is calculated by considering a material property forming a fire prevention partition(S112). The material correction factor according to a kind of material forming the fire prevention partition is calculated(S113). The ventilation factor by considering air inflow of the fire prevention partition(S114). The design method is judged whether the method is a detailed design or a simple design(S115), and then combustible material data are inputted if the design is a detailed design method by considering the combustible material of the fire prevention material(S116). Afterward, a net calorific value is calculated by subtracting latent heat taken by vapor from the gross heating value(S117) and the fire load energy density of the partition is calculated(S118). The design method is judged whether the method is a detailed design or a simple design, and if the design is a simple design method by considering the combustible material of the fire prevention partition, the fire load energy density of the partition in case of the simple design is calculated(S120). A danger factor according to the fire partition and residential environment(S119) and the design fire load density by considering the fire load according to the calculated fire load energy density of the partition is calculated(S121). [Reference numerals] (AA) Simple design; (BB) Detailed design; (S111) Determine a partition shape; (S112) Calculate a conversion factor; (S113) Calculate a material correction factor; (S114) Calculate a ventilation factor; (S115) Design method?; (S116) Input combustible material data; (S117) Calculate a net calorific value; (S118) Calculate a partition fire load energy density; (S119) Input a danger factor for each partition and residential environment; (S120) Calculate a partition fire load energy density in case of the simple design; (S121) Calculate a design fire load energy density; (S122) Calculate an equivalent fire severity
Abstract translation: 目的:设计耐火性能结构时,采用性能设计技术计算等效火灾严重性的耐火性能设计方法。 构成:通过输入防火分区尺寸数据,屋顶开放数据和开放数据来确定防火性能设计的分隔形状(S111)。 通过考虑形成防火隔板的材料特性来计算转换系数(S112)。 计算根据形成防火分区的材料的种类的材料校正因子(S113)。 考虑防火隔墙空气流入的通风系数(S114)。 判断方法是详细设计还是简单设计(S115),如果设计是通过考虑防火材料的可燃材料(S116)的详细设计方法,则输入可燃材料数据。 之后,通过从总发热量减去蒸汽所产生的潜热计算净热值(S117),并计算分区的火力负荷能量密度(S118)。 判断设计方法是否是详细设计或简单设计,如果设计是通过考虑防火隔板的可燃材料的简单设计方法,则在简单的情况下隔板的耐火能量密度 计算设计(S120)。 计算根据火灾分隔和住宅环境的危险因素(S119),并根据计算的分区火力负荷能量密度考虑火灾负荷时的设计火灾负荷密度(S121)。 (附图标记)(AA)简单设计; (BB)详细设计; (S111)确定分区形状; (S112)计算转换系数; (S113)计算材料校正系数; (S114)计算通气系数; (S115)设计方法? (S116)输入可燃材料数据; (S117)计算净热值; (S118)计算分区火灾能量密度; (S119)为每个分区和住宅环境输入危险因素; (S120)在简单设计的情况下计算分区火力能量密度; (S121)计算设计火灾能量密度; (S122)计算等效的火灾严重性
-
Search Results
2
records
(took 0.017 seconds)
