1 00:00:00,000 --> 00:00:04,280 现在让我们模拟一下线路控制 合上空气开关 2 00:00:04,280 --> 00:00:07,210 假设此时的线路处于分闸状态 3 00:00:07,210 --> 00:00:09,240 此时分闸指式灯点亮 4 00:00:09,240 --> 00:00:11,260 分闸位置继电器吸合 5 00:00:11,266 --> 00:00:13,376 而由于两个电器的分压 6 00:00:13,376 --> 00:00:16,653 致使合闸电磁铁只通电而没有吸合 7 00:00:16,654 --> 00:00:19,914 这样的好处就是可以检测其是否好坏 8 00:00:19,914 --> 00:00:22,004 当合闸电磁铁损害时 9 00:00:22,004 --> 00:00:23,414 分闸指示灯会熄灭 10 00:00:23,974 --> 00:00:26,074 我们先进行手动合闸 11 00:00:26,074 --> 00:00:28,564 我们将旋钮达到手动合闸 12 00:00:28,564 --> 00:00:31,667 电首先到达KKJ继电器让其吸合 13 00:00:31,667 --> 00:00:36,254 经二极管 吸合合闸保持继电器和合闸电磁铁 14 00:00:36,254 --> 00:00:38,214 此时由于电走捷径 15 00:00:38,214 --> 00:00:39,864 分闸指示灯熄灭 16 00:00:39,864 --> 00:00:42,004 分闸位置继电器恢复 17 00:00:42,004 --> 00:00:44,414 其合闸自保触点也会吸合 18 00:00:44,414 --> 00:00:47,044 自保触点用于当旋钮复位后 19 00:00:47,044 --> 00:00:49,774 线路一直保持合闸电磁吸合 20 00:00:49,774 --> 00:00:51,534 防止中途一半停止 21 00:00:51,534 --> 00:00:53,240 直到合闸完成 22 00:00:53,241 --> 00:00:55,801 此时断路器常闭触点分开 23 00:00:55,801 --> 00:00:57,361 常开触点吸合 24 00:00:57,361 --> 00:00:59,867 这导致了合闸回路全部熄灭 25 00:00:59,867 --> 00:01:01,787 而合闸指示灯亮起 26 00:01:01,787 --> 00:01:03,957 合闸位置继电器吸合 27 00:01:03,957 --> 00:01:05,377 同样由于分压 28 00:01:05,377 --> 00:01:07,161 电经过分闸电磁铁 29 00:01:07,161 --> 00:01:10,147 却由于电压过低无法吸合铁芯 30 00:01:10,148 --> 00:01:11,568 手动分闸时 31 00:01:11,568 --> 00:01:13,708 旋钮打到手动分闸 32 00:01:13,708 --> 00:01:16,208 此时电到达KKJ继电器 33 00:01:16,208 --> 00:01:18,348 此继电器是保持继电器 34 00:01:18,348 --> 00:01:19,718 合闸时亮起 35 00:01:19,718 --> 00:01:22,018 直到分闸信号到达熄灭 36 00:01:22,018 --> 00:01:24,228 可将辅助触点做为备用 37 00:01:24,228 --> 00:01:25,968 用于重合闸的先决条件 38 00:01:26,535 --> 00:01:28,225 后经二极管往下 39 00:01:28,225 --> 00:01:31,185 此二极管是利用其单向导通性 40 00:01:31,185 --> 00:01:34,668 防止电从别的入口进入影响我们线路控制 41 00:01:34,668 --> 00:01:38,648 使两套跳闸保持继电器和分闸电磁铁吸合 42 00:01:38,648 --> 00:01:42,908 两个系统只要任何一个吸合均能保持分闸的正常运转 43 00:01:42,908 --> 00:01:45,961 两个分闸自保辅助触点也吸合 44 00:01:45,962 --> 00:01:47,852 合闸指式灯会熄灭 45 00:01:47,852 --> 00:01:50,232 合闸位置继电器也会复位 46 00:01:50,232 --> 00:01:51,562 分闸完成后 47 00:01:51,562 --> 00:01:53,535 断路器常开触点分开 48 00:01:53,535 --> 00:01:58,642 常闭触点吸合 分闸指示点亮 线路回到最初位置 49 00:01:58,642 --> 00:02:00,222 当远程合闸时 50 00:02:00,222 --> 00:02:02,332 我们将旋钮打到远程 51 00:02:02,332 --> 00:02:05,032 此时5、6、7、8接通 52 00:02:05,032 --> 00:02:07,162 当远程合闸入口吸合时 53 00:02:07,162 --> 00:02:09,622 同样会吸合KKJ继电器 54 00:02:09,622 --> 00:02:11,122 和合闸电磁铁 55 00:02:11,122 --> 00:02:12,752 让异地控制成为了可能 56 00:02:13,309 --> 00:02:15,989 我们假设线路出现了短路故障 57 00:02:15,989 --> 00:02:19,559 我们装设的两套微机保护保护的保护跳闸入口 58 00:02:19,559 --> 00:02:21,109 只要任何一个吸合 59 00:02:21,109 --> 00:02:26,509 线路经保护连片 可继续走我们的分闸线路 完成跳闸 60 00:02:26,509 --> 00:02:30,949 由于高电压效线路故障百分之八十的故障是瞬时的 61 00:02:30,949 --> 00:02:34,082 我们的两套微机保护会提供重合闸功能 62 00:02:34,082 --> 00:02:36,022 让重合闸入口吸合 63 00:02:36,022 --> 00:02:39,652 线路会到达合闸电磁铁完成一次重合闸 64 00:02:39,652 --> 00:02:41,492 大大提高了线路的可靠性 65 00:02:42,056 --> 00:02:43,886 当我们远程分闸时 66 00:02:43,886 --> 00:02:46,086 将远程分闸入口吸合 67 00:02:46,086 --> 00:02:48,322 假设我们在没有完成分闸时 68 00:02:48,322 --> 00:02:51,262 重合闸或者本地误操作了合闸 69 00:02:51,262 --> 00:02:54,212 此时电会首先到达防跳跃继电器 70 00:02:54,216 --> 00:02:55,416 让其吸合 71 00:02:55,416 --> 00:02:56,406 并自锁 72 00:02:56,406 --> 00:02:59,136 导致防跳跃辅助常闭点打开 73 00:02:59,136 --> 00:03:00,576 切断了合闸回路 74 00:03:00,576 --> 00:03:02,916 使合闸电磁铁不能吸合 75 00:03:02,916 --> 00:03:05,606 保护了断路器的机械结构和误操作 76 00:03:06,163 --> 00:03:07,653 当失误恢复后 77 00:03:07,653 --> 00:03:09,763 而分闸系统不受影响 78 00:03:09,763 --> 00:03:11,443 会继续完成分闸 79 00:03:11,443 --> 00:03:12,763 直到分闸完成 80 00:03:12,763 --> 00:03:14,683 其双电源控制系统 81 00:03:14,683 --> 00:03:17,203 利用两套不同电源的直流屏 82 00:03:17,203 --> 00:03:19,373 形成两套电源一用一备 83 00:03:19,376 --> 00:03:21,306 平时用主控制电源 84 00:03:21,306 --> 00:03:24,056 电源检测和控制继电器吸合 85 00:03:24,056 --> 00:03:26,386 当主系统电源出现故障时 86 00:03:26,389 --> 00:03:27,749 继电器恢复 87 00:03:27,749 --> 00:03:29,499 而另一套电源接通 88 00:03:29,499 --> 00:03:31,399 继续控制我们的线路 89 00:03:31,399 --> 00:03:34,323 使控制系统的可靠性进一步增强