1 00:00:00,000 --> 00:00:05,290 220千伏有载调压开关是一种可在空载和带负荷条件下 2 00:00:05,290 --> 00:00:08,826 无需停电即可调整变压器输出电压的装置 3 00:00:08,826 --> 00:00:12,496 通过分接头档位转换调节高压绕组匝数 4 00:00:12,496 --> 00:00:14,166 从而改变负荷侧电压 5 00:00:14,720 --> 00:00:17,250 由于越靠近中性点电压越低 6 00:00:17,250 --> 00:00:20,300 该调压开关通过改变中性点匝数 7 00:00:20,300 --> 00:00:22,013 以及通过范围开关 8 00:00:22,013 --> 00:00:23,613 选择线圈方向 9 00:00:23,613 --> 00:00:25,153 加位或者减位 10 00:00:25,153 --> 00:00:26,813 来转换电流方向 11 00:00:26,813 --> 00:00:29,013 选择增大或者抵消磁场 12 00:00:29,013 --> 00:00:31,346 使调节倍数增加一倍 13 00:00:31,347 --> 00:00:34,027 它分为操作系统和执行系统 14 00:00:34,027 --> 00:00:37,587 操作系统通过电机或手动转动提供动力 15 00:00:37,587 --> 00:00:40,307 执行机构用于切换绕组匝数 16 00:00:40,307 --> 00:00:44,040 其中执行机构由选择开关和切换开关组成 17 00:00:44,040 --> 00:00:47,790 选择开关连接各个调节的不同匝数的绕组 18 00:00:47,790 --> 00:00:49,500 分别为1-8号抽头 19 00:00:50,067 --> 00:00:53,427 在三相系统中 每相又分为两层 20 00:00:57,652 --> 00:01:02,097 上层为奇数1357抽头抽头及范围开关共用触头 21 00:01:02,097 --> 00:01:06,467 下层为偶数2468号抽头和一个范围开关共用抽头 22 00:01:06,467 --> 00:01:09,767 用于选择需调节的绕组和绕组的方向 23 00:01:09,767 --> 00:01:12,317 也用于预选需要转换的匝数 24 00:01:12,317 --> 00:01:14,427 切换开关主要是选择的匝数 25 00:01:14,987 --> 00:01:17,160 每相绕组有4个触头 26 00:01:17,160 --> 00:01:21,227 分别为A1到A4 27 00:01:21,227 --> 00:01:24,667 B1到B4 28 00:01:24,667 --> 00:01:26,187 C1到C4 29 00:01:26,187 --> 00:01:28,880 总计12个触头 30 00:01:28,880 --> 00:01:35,760 通过步进方式 让一组或两组触头接通 31 00:01:35,761 --> 00:01:37,547 中间经过渡电阻 32 00:01:37,547 --> 00:01:45,934 顺利切换到预选匝数 后经中性点线排回到变压器中性点 33 00:01:45,935 --> 00:01:49,255 接下来让我们演示一下它的操作方法 34 00:01:49,255 --> 00:01:51,085 假设我们现在为一档 35 00:01:51,085 --> 00:01:52,795 想降低负载电压 36 00:01:52,795 --> 00:01:54,065 调节到二档 37 00:01:54,065 --> 00:01:55,935 由于遵循抵挡绕组少 38 00:01:55,935 --> 00:01:57,415 高档绕组多 39 00:01:57,415 --> 00:02:00,385 那么此时范围开关是在加档位置 40 00:02:00,385 --> 00:02:03,515 而选择开关绕组在 上层1号抽头位置 41 00:02:04,069 --> 00:02:09,615 我们手动摇动转动或者电机转动 经竖轴运动 横轴运动 42 00:02:09,616 --> 00:02:12,916 带动调压开关的选择开关的主轴运动 43 00:02:12,916 --> 00:02:14,316 经旋转齿盘 44 00:02:14,316 --> 00:02:17,096 拨动下端选择开关齿盘主轴运动 45 00:02:17,096 --> 00:02:20,322 让预选连接上层2号抽头绕组 46 00:02:20,323 --> 00:02:23,723 同时上端主轴带动切换开关快慢机 47 00:02:23,723 --> 00:02:27,193 使得触头中间的尾推弹簧机构有节奏的运动 48 00:02:27,750 --> 00:02:32,590 现在面临的情况是电经过下方分接开关1号绕组连接 49 00:02:32,590 --> 00:02:35,830 切换开关中的A1触头到达中性点 50 00:02:35,830 --> 00:02:42,176 分接开关2号绕组连接 51 00:02:42,177 --> 00:02:44,617 切换开关中的A4触头上 52 00:02:44,617 --> 00:02:48,137 首先连接A2 53 00:02:48,137 --> 00:02:54,083 然后断开A1触头 54 00:02:54,084 --> 00:02:55,670 接通A3触头 55 00:02:55,670 --> 00:02:59,217 断开A2触头 56 00:02:59,217 --> 00:03:02,977 连接第A4触头 57 00:03:02,977 --> 00:03:08,617 断开A3触头 58 00:03:08,618 --> 00:03:11,524 此时电经过分接开关2号绕组 59 00:03:11,524 --> 00:03:19,151 经过切换开关中的A4触头到达中性点 60 00:03:19,152 --> 00:03:21,952 这就是变压器经有载调压开关 61 00:03:21,952 --> 00:03:24,312 顺利从一档调节到二档的位置 62 00:03:24,872 --> 00:03:26,242 需要注意的是 63 00:03:26,242 --> 00:03:29,192 有载调压开关是不能跳档调节的 64 00:03:29,192 --> 00:03:30,952 只逐步一档一档调节 65 00:03:30,952 --> 00:03:34,178 当八档到九档时情况会比较特殊 66 00:03:34,179 --> 00:03:37,589 9档分为9A、9B和9C共三档 67 00:03:37,589 --> 00:03:40,109 9B为极性转换的标准档位 68 00:03:40,109 --> 00:03:41,285 可长期运转 69 00:03:41,285 --> 00:03:46,379 9A、9C为过渡档位 只可临时运行不可长期运行 70 00:03:46,379 --> 00:03:48,559 这就顺利的从加档位置 71 00:03:48,559 --> 00:03:50,369 切换到了减档位置 72 00:03:50,369 --> 00:03:52,912 从十档开始直至加到十七档 73 00:03:52,912 --> 00:03:56,352 其过程是1号绕组到8号绕组的切换 74 00:03:56,352 --> 00:03:59,052 从而完成1-17档的加档过程 75 00:03:59,059 --> 00:04:01,392 以实现负载的降压过程 76 00:04:01,393 --> 00:04:03,413 而减档责恰恰相反 77 00:04:03,413 --> 00:04:05,583 通过手动或电机反转 78 00:04:05,583 --> 00:04:08,633 下面为17档切换至1档的运动状态 79 00:04:08,633 --> 00:04:13,859 从而完成17-1档的减档过程 以实现负载的电压升高 80 00:04:13,860 --> 00:04:18,606 以上就是220千伏有载调压开关的构造和工作原理