产品规格: | 不限 |
所属行业: | 电气 低压电器 接触器 |
包装说明: | 无 |
产品数量: | 9999.00 |
价格说明: | 88.00 元/台 起 |
打印本页 添加收藏夹 点此询价 |
施耐德接触器 -- 首先,在水泥行业,大的行业痛点是能耗高,煤、电部分的能耗成本可以占到水泥成本的60%以上;其次,由于水泥的开工率不足70%,所以还存在巨大的利润压力;后,水泥行业在数字化、智能化方向上的底子较薄,底层的数据采集、自动化基础水平和管理效率不足,难以支撑更高层次上的智能化升级。
施耐德接触器 -- 4.能耗——理想的基础设施通过提高能效并大化减载以减少能源使用来帮助控制运营成本。基于以太网的标准化、开放式通信技术能够打破传统数据壁垒,帮助创建重要控制面板和关键绩效指标(KPI),从而加强访问关键能源数据的能力施耐德接触器 -- 首先,在水泥行业,大的行业痛点是能耗高,煤、电部分的能耗成本可以占到水泥成本的60%以上;其次,由于水泥的开工率不足70%,所以还存在巨大的利润压力;后,水泥行业在数字化、智能化方向上的底子较薄,底层的数据采集、自动化基础水平和管理效率不足,难以支撑更高层次上的智能化升级
施耐德接触器 -- 多年来,施耐德电气通过这种对行业和客户的观察和,看到了智能制造在当前很多行业实际痛点上的机遇。何林举了一个典型的例子,他谈到当前像冶金等很多传统企业都面临着产能过剩的问题,尽管造成这一局面的原因难以一言蔽之,但其中一个很重要的因素实质上是产和销的脱节,比如企业传统批量化的生产模式,已经难以适应当前客户小批量、定制化的产品需求。要解决这一挑战,智能制造中的柔性化生产就是一个非常“对题”的解决途径。
施耐德接触器 -- 4.能耗——理想的基础设施通过提高能效并大化减载以减少能源使用来帮助控制运营成本。基于以太网的标准化、开放式通信技术能够打破传统数据壁垒,帮助创建重要控制面板和关键绩效指标(KPI),从而加强访问关键能源数据的能力Reference
订货号
LC1D09CC7C
LC1D09D7C
LC1D09E7C
LC1D09F7C
LC1D09FE7C
LC1D09L7C
LC1D09M7C
LC1D09N7C
LC1D09P7C
LC1D09Q7C
LC1D09U7C
LC1D09V7C
LC1D12B7C
LC1D12C7C
LC1D12CC7C
LC1D12D7C
LC1D12E7C
LC1D12F7C
LC1D12FE7C
LC1D12L7C
LC1D12M7C
LC1D12N7C
LC1D12P7C
LC1D12Q7C
LC1D12U7C
LC1D12V7C
LC1D18B7C
LC1D18C7C
LC1D18CC7C
LC1D18D7C
LC1D18E7C
LC1D18F7C
LC1D18FE7C
LC1D18L7C
LC1D18M7C
LC1D18N7C
LC1D18P7C
LC1D18Q7C
LC1D18U7C
LC1D18V7C
LC1D25B7C
LC1D25C7C
LC1D25CC7C
LC1D25D7C
LC1D25E7C
LC1D25F7C
LC1D25FE7C
LC1D25L7C
LC1D25M7C
LC1D32B7C
LC1D32C7C
LC1D38D7C
LC1D38E7C
LC1D38F7C
LC1D38FE7C
LC1D38L7C
LC1D38M7C
LC1D38N7C
LC1D38P7C
LC1D38Q7C
LC1D38U7C
LC1D38V7C
LC1D40B7C
LC1D40E7C
LC1D40F7C
LC1D40M7C
LC1D40Q7C
LC1D50B7C
LC1D50E7C
LC1D50F7C
LC1D50M7C
LC1D50Q7C
LC1D65B7C
LC1D65E7C
LC1D65F7C
LC1D65M7C
LC1D65Q7C
LC1D80B7C
LC1D80E7C
LC1D80F7C
LC1D80M7C
LC1D80Q7C
LC1D95B7C
LC1D95E7C
LC1D95F7C
LC1D95M7C
LC1D95Q7C
LC1D115006M5C
LC1D11500F5C
LC1D11500F7C
LC1D11500M5C
LC1D11500M7C
LC1D11500Q5C
LC1D15000M7C
LC1D15000Q7C
LC1D17000F7C
LC1D17000M7C
LC1D17000Q7C
LC1D205F5C
LC1D205F7C
LC1D205M5C
LC1D205M7C
LC1D205Q5C
LC1D245M5C
LC1D245M7C
LC1D245Q5C
LC1D300M7C
LC1D300Q7C
LC1D410F7C
LC1D410M7C
LC1D410Q7C
LC1D475F7C
LC1D475M7C
LC1D475Q7C
LC1D620M7C
LC1D620Q7C
在中国,为中国,这是施耐德电气扎根中国发展恒久不变的历史使命。施耐德不仅见证了中国经济的发展奇迹,更参与中国的每一步成长,相濡以沫,携手共进 [1] 。
施耐德电气创建于1836 年,以钢铁制造业起家 [1] ,发展至今已成为**能效管理领域的。一直以来,公司创新、国际化和尽责,在时代发展的各个阶段为行业的变革和转型做出了重要贡献。如今,公司的业务遍布**100多个国家和地区,拥有**过13万名员工,帮助客户实现“善用其效,尽享其能”。
变革就是使命,施耐德电气 [2] 坚信,在充满挑战的未来世界中,“善用其效,尽享其能”的绿色理念将开创新的历史,不仅是经济发展的动力、更要成为改变工作方式、思维方式和生活方式的新力量。
更多收获,更少消耗,是施耐德电气发展的愿景。提品,更提供智慧。投身中国,助力中国地区建设提质升级,传递绿色能效的理念和价值,与施耐德共同实现可持续发展的期望。
Reference
订货号
LC1D09B7C
LC1D09C7C
LC1D09CC7C
LC1D09D7C
LC1D09E7C
LC1D09F7C
LC1D09FE7C
LC1D09L7C
LC1D09M7C
LC1D09N7C
LC1D09P7C
LC1D09Q7C
LC1D09U7C
LC1D09V7C
LC1D12B7C
LC1D12C7C
LC1D12CC7C
LC1D12D7C
LC1D12E7C
LC1D12F7C
LC1D12FE7C
LC1D12L7C
LC1D12M7C
LC1D12N7C
LC1D12P7C
LC1D12Q7C
LC1D12U7C
LC1D12V7C
LC1D18B7C
LC1D18C7C
LC1D18CC7C
LC1D18D7C
LC1D18E7C
LC1D18F7C
LC1D18FE7C
LC1D80B7C
LC1D80E7C
LC1D80F7C
LC1D80M7C
LC1D80Q7C
LC1D95B7C
LC1D95E7C
LC1D95F7C
LC1D95M7C
LC1D95Q7C
LC1D115006M5C
LC1D11500F5C
LC1D11500F7C
LC1D11500M5C
LC1D11500M7C
LC1D11500Q5C
LC1D15000M7C
LC1D15000Q7C
LC1D17000F7C
LC1D17000M7C
LC1D17000Q7C
LC1D205F5C
LC1D205F7C
LC1D205M5C
LC1D205M7C
LC1D205Q5C
LC1D245M5C
LC1D245M7C
LC1D245Q5C
LC1D300M7C
LC1D300Q7C
LC1D410F7C
LC1D410M7C
LC1D410Q7C
LC1D475F7C
LC1D475M7C
LC1D475Q7C
LC1D620M7C
LC1D620Q7C
接触器
接触器分为交流接触器(电压AC)和直流接触器(电压DC),它应用于电力、配电与用电场合。接触器广义上指工业电中利用线圈流过电生磁场,使触头闭合,以达到控制负载的电器。作用:在电工学上,因为可快速切断交流与直流主回路和可频繁地接通与大电流控制(达800A)电路的装置,所以经常运用于电动机做为控制对象﹐也可用作控制工厂设备﹑电热器﹑工作母机和各样电力机组等电力负载,接触器不仅能接通和切断电路,而且还具有低电压释放保护作用。接触器控制容量大,适用于频繁操作和远距离控制,是自动控制系统中的重要元件之一。在工业电气中其用处相当广泛。
Reference
订货号
LC1D09B7C
LC1D09C7C
LC1D09CC7C
LC1D09D7C
LC1D09E7C
LC1D09F7C
LC1D09FE7C
LC1D09L7C
LC1D09M7C
LC1D09N7C
LC1D09P7C
LC1D09Q7C
LC1D09U7C
LC1D09V7C
LC1D12B7C
LC1D12C7C
LC1D12CC7C
LC1D12D7C
LC1D12E7C
LC1D12F7C
LC1D12FE7C
LC1D12L7C
LC1D12M7C
LC1D12N7C
LC1D12P7C
LC1D12Q7C
LC1D12U7C
LC1D12V7C
LC1D18B7C
LC1D18C7C
LC1D18CC7C
LC1D18D7C
LC1D18E7C
LC1D18F7C
LC1D18FE7C
LC1D18L7C
LC1D18M7C
LC1D18N7C
LC1D18P7C
LC1D18Q7C
LC1D18U7C
LC1D18V7C
LC1D25B7C
LC1D25C7C
LC1D25CC7C
LC1D25D7C
LC1D25E7C
LC1D25F7CC
LC1D38L7C
LC1D38M7C
LC1D38N7C
LC1D38P7C
LC1D38Q7C
LC1D38U7C
LC1D38V7C
LC1D40B7C
LC1D40E7C
LC1D40F7C
LC1D40M7C
LC1D40Q7C
LC1D50B7C
LC1D50E7C
LC1D50F7C
LC1D50M7C
LC1D50Q7C
LC1D65B7C
LC1D65E7C
LC1D65F7C
LC1D65M7C
LC1D65Q7C
LC1D80B7C
LC1D80E7C
LC1D80F7C
LC1D80M7C
LC1D80Q7C
LC1D95B7C
LC1D95E7C
LC1D95F7C
LC1D95M7C
LC1D95Q7C
LC1D115006M5C
LC1D11500F5C
LC1D11500F7C
LC1D11500M5C
LC1D11500M7C
LC1D11500Q5C
LC1D15000M7C
LC1D15000Q7C
LC1D17000F7C
LC1D17000M7C
LC1D17000Q7C
LC1D205F5C
LC1D205F7C
LC1D205M5C
LC1D205M7C
LC1D205Q5C
LC1D245M5C
LC1D245M7C
LC1D245Q5C
LC1D300M7C
LC1D300Q7C
LC1D410F7C
LC1D410M7C
LC1D410Q7C
LC1D475F7C
LC1D475M7C
LC1D475Q7C
LC1D620M7C
LC1D620Q7C
寿命长,可靠性高:
??器寿命和可靠性主要是由线圈和触头寿命决定的。交流器由于它工作时线圈和铁芯会,特别是电压、电流、磁隙时容易而将线圈烧毁,而永磁交流触器不存在烧毁线圈的可能。触头烧蚀主要是由分闸、合闸时产生的电弧造成的。与器相比,永磁交流器在合闸时,除同样有电磁力作用外,还具有永磁力的作用,因而合闸速度较交流器快很多,经检测,永磁交流器合闸时间一般小于20ms,而器合闸速度一般在60ms左右。分闸时,永磁交流器除分闸弹簧的作用外,还具有磁较相斥力的作用,这两种作用使分闸的速度较器快很多,经检测,永磁交流器分闸时间一般小于25ms,而器分闸速度一般在80ms以上。此外,线圈和铁芯的会主触头容量,电压波动的吸力不够或振颤会使器主触头、拉弧甚至熔焊。永磁交流器触头寿命与交流器触头相比,在同等条件下寿命3-5倍。
??⑥. 防电磁:
??永磁交流器使用的永磁体磁路是完全密封的,,在使用中不会受到外界电磁,也不会对外界进行电磁
LC1D80F7C
LC1D80M7C
LC1D80Q7C
LC1D95B7C
LC1D95E7C
LC1D95F7C
LC1D95M7C
LC1D95Q7C
LC1D115006M5C
LC1D11500F5C
LC1D11500F7C
LC1D11500M5C
LC1D11500M7C
LC1D11500Q5C
LC1D15000M7C
LC1D15000Q7C
LC1D17000F7C
LC1D17000M7C
LC1D17000Q7C
LC1D205F5C
LC1D205F7C
LC1D205M5C
LC1D205M7C
LC1D205Q5C
LC1D245M5C
LC1D245M7C
LC1D245Q5C
LC1D300M7C
LC1D300Q7C
LC1D410F7C
LC1D410M7C
LC1D410Q7C
LC1D475F7C
LC1D475M7C
LC1D475Q7C
LC1D620M7C
LC1D620Q7C
http://longxun.cn.b2b168.com