diff --git a/ncac/package/cacdb.sql b/ncac/package/cacdb.sql
index 85553d9..31704a0 100644
--- a/ncac/package/cacdb.sql
+++ b/ncac/package/cacdb.sql
@@ -514,6 +514,35 @@ LOCK TABLES `data_byq_jbfd` WRITE;
 /*!40000 ALTER TABLE `data_byq_jbfd` ENABLE KEYS */;
 UNLOCK TABLES;
 
+--
+-- Table structure for table `data_cnj`
+--
+
+DROP TABLE IF EXISTS `data_cnj`;
+/*!40101 SET @saved_cs_client     = @@character_set_client */;
+/*!50503 SET character_set_client = utf8mb4 */;
+CREATE TABLE `data_cnj` (
+  `id` bigint(20) NOT NULL AUTO_INCREMENT,
+  `eqmid` int(11) DEFAULT NULL COMMENT '设备id',
+  `acquisitionTime` datetime DEFAULT NULL COMMENT '监测时间',
+  `chargeTime` float DEFAULT NULL COMMENT '温度',
+  `isupload` int(11) DEFAULT NULL,
+  `create_time` timestamp NULL DEFAULT NULL COMMENT '创建时间',
+  `update_time` timestamp NULL DEFAULT NULL COMMENT '修改时间',
+  PRIMARY KEY (`id`),
+  KEY `idx` (`eqmid`,`acquisitionTime`)
+) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4 COMMENT='储能电机工作状态';
+/*!40101 SET character_set_client = @saved_cs_client */;
+
+--
+-- Dumping data for table `data_cnj`
+--
+
+LOCK TABLES `data_cnj` WRITE;
+/*!40000 ALTER TABLE `data_cnj` DISABLE KEYS */;
+/*!40000 ALTER TABLE `data_cnj` ENABLE KEYS */;
+UNLOCK TABLES;
+
 --
 -- Table structure for table `data_config`
 --
@@ -2399,7 +2428,7 @@ CREATE TABLE `i2sync_field` (
   `dest_field_name` varchar(128) CHARACTER SET utf8mb4 NOT NULL DEFAULT '',
   PRIMARY KEY (`id`),
   KEY `idxTb` (`table_name`)
-) ENGINE=InnoDB DEFAULT CHARSET=utf8 COMMENT='i2导出字段映射配置';
+) ENGINE=InnoDB AUTO_INCREMENT=50 DEFAULT CHARSET=utf8 COMMENT='i2导出字段映射配置';
 /*!40101 SET character_set_client = @saved_cs_client */;
 
 --
@@ -2408,6 +2437,7 @@ CREATE TABLE `i2sync_field` (
 
 LOCK TABLES `i2sync_field` WRITE;
 /*!40000 ALTER TABLE `i2sync_field` DISABLE KEYS */;
+INSERT INTO `i2sync_field` VALUES (1,'data_byq_jbfd','dischargeCapacity','DischargeCapacity'),(2,'data_byq_jbfd','dischargePosition','DischargePosition'),(3,'data_byq_jbfd','dischargeWaveform','DischargeWaveform'),(4,'data_byq_jbfd','pulseCount','PulseCount'),(5,'data_ysp','C2H2','C2H2'),(6,'data_ysp','C2H4','C2H4'),(7,'data_ysp','C2H6','C2H6'),(8,'data_ysp','CH4','CH4'),(9,'data_ysp','CO','CO'),(10,'data_ysp','CO2','CO2'),(11,'data_ysp','H2','H2'),(12,'data_ysp','N2','N2'),(13,'data_ysp','O2','O2'),(14,'data_ysp','TotalHydrocarbon','TotalHydrocarbon'),(15,'data_dlq_jbfd','dischargeCapacity','DischargeCapacity'),(16,'data_dlq_jbfd','dischargePosition','DischargePosition'),(17,'data_dlq_jbfd','dischargeWaveform','DischargeWaveform'),(18,'data_dlq_jbfd','pulseCount','PulseCount'),(19,'data_sf6_qtyl','absolutePressure','AbsolutePressure'),(20,'data_sf6_qtyl','density','Density'),(21,'data_sf6_qtyl','pressure20C','Pressure20C'),(22,'data_sf6_qtyl','temperature','Temperature'),(23,'data_sf6_qtsf','moisture','Moisture'),(24,'data_sf6_qtsf','temperature','Temperature'),(25,'data_dcyw','oilTemperature','OilTemperature'),(26,'data_fhdlbx','action','Action'),(27,'data_fhdlbx','loadWaveform','LoadWaveform'),(28,'data_fhzxq','action','Action'),(29,'data_fhzxq','coilWaveform','CoilWaveform'),(30,'data_tx','totalCoreCurrent','TotalCoreCurrent'),(31,'data_ws','moisture','Moisture'),(32,'data_dr_jyjc','capacitance','Capacitance'),(33,'data_dr_jyjc','lossFactor','LossFactor'),(34,'data_dr_jyjc','systemVoltage','SystemVoltage'),(35,'data_dr_jyjc','totalCurrent','TotalCurrent'),(36,'data_dr_jyjc','unbalanceCurrent','UnbalanceCurrent'),(37,'data_dr_jyjc','unbalanceVoltage','UnbalanceVoltage'),(38,'data_jsyhw_jyjc','actionCount','ActionCount'),(39,'data_jsyhw_jyjc','lastActionTime','LastActionTime'),(40,'data_jsyhw_jyjc','resistiveCurrent','ResistiveCurrent'),(41,'data_jsyhw_jyjc','systemVoltage','SystemVoltage'),(42,'data_jsyhw_jyjc','totalCurrent','TotalCurrent'),(43,'data_microclimate','airPressure','AirPressure'),(44,'data_microclimate','airTemperature','AirTemperature'),(45,'data_microclimate','humidity','Humidity'),(46,'data_microclimate','precipitation','Precipitation'),(47,'data_microclimate','precipitationIntensity','PrecipitationIntensity'),(48,'data_microclimate','radiationIntensity','RadiationIntensity'),(49,'data_cnj','chargeTime','ChargeTime');
 /*!40000 ALTER TABLE `i2sync_field` ENABLE KEYS */;
 UNLOCK TABLES;
 
@@ -2767,7 +2797,7 @@ CREATE TABLE `modevtype` (
   `mc` varchar(50) NOT NULL COMMENT '监测设备类型名称',
   `tablename` varchar(50) DEFAULT NULL,
   PRIMARY KEY (`id`) USING BTREE
-) ENGINE=MyISAM AUTO_INCREMENT=68 DEFAULT CHARSET=utf8 ROW_FORMAT=DYNAMIC COMMENT='监测设备类型表';
+) ENGINE=MyISAM AUTO_INCREMENT=77 DEFAULT CHARSET=utf8 ROW_FORMAT=DYNAMIC COMMENT='监测设备类型表';
 /*!40101 SET character_set_client = @saved_cs_client */;
 
 --
@@ -2776,7 +2806,7 @@ CREATE TABLE `modevtype` (
 
 LOCK TABLES `modevtype` WRITE;
 /*!40000 ALTER TABLE `modevtype` DISABLE KEYS */;
-INSERT INTO `modevtype` VALUES (1,'油色谱','data_epa_h'),(2,'铁芯','data_eia_h'),(4,'避雷器','data_moa_h'),(5,'测温','data_etp_h'),(6,'温湿度','data_th_h'),(7,'空气质量','data_aq_h'),(8,'SF6','data_sf6_h'),(9,'红外温度A相','data_eaif_h'),(10,'局部放电A相','data_pd_h'),(11,'油温油压','data_otp_h'),(12,'视频','data_video_h'),(13,'流变','data_eia_h'),(14,'压变','data_eia_h'),(15,'套管','data_eia_h'),(16,'微气象','data_microclimate_h'),(21,'电缆沟','data_dlg_h'),(3,'夹件','data_eia_h'),(25,'局部放电B相','data_pd_h'),(26,'局部放电C相','data_pd_h'),(27,'电缆环流A2相','data_scur_h'),(28,'电缆环流A3相','data_scur_h'),(29,'电缆环流B1相','data_scur_h'),(30,'电缆环流B2相','data_scur_h'),(31,'电缆环流B3相','data_scur_h'),(32,'电缆环流C1相','data_scur_h'),(33,'电缆环流C2相','data_scur_h'),(34,'电缆环流C3相','data_scur_h'),(35,'红外温度B相','data_eaif_h'),(36,'红外温度C相','data_eaif_h'),(38,'光声光谱','data_epa_h'),(39,'油中气设备','data_epa_h'),(40,'接地网','data_jdw_h'),(59,'光纤测温','data_etp_h'),(60,'绕组测温','data_etp_h'),(20,'电缆环流A1相','data_scur_h'),(61,'SF6环境','data_sf6env_h'),(62,'弧闪',NULL),(63,'金属氧化物绝缘监测','data_jsyhw_jyjc'),(64,'SF6气体压力','data_sf6_qtyl'),(65,'断路器局部放电','data_dlq_jbfd'),(66,'铁芯2','data_tx'),(67,'油色谱2','data_ysp');
+INSERT INTO `modevtype` VALUES (1,'油色谱','data_epa_h'),(2,'铁芯','data_eia_h'),(4,'避雷器','data_moa_h'),(5,'测温','data_etp_h'),(6,'温湿度','data_th_h'),(7,'空气质量','data_aq_h'),(8,'SF6','data_sf6_h'),(9,'红外温度A相','data_eaif_h'),(10,'局部放电A相','data_pd_h'),(11,'油温油压','data_otp_h'),(12,'视频','data_video_h'),(13,'流变','data_eia_h'),(14,'压变','data_eia_h'),(15,'套管','data_eia_h'),(16,'微气象','data_microclimate_h'),(21,'电缆沟','data_dlg_h'),(3,'夹件','data_eia_h'),(25,'局部放电B相','data_pd_h'),(26,'局部放电C相','data_pd_h'),(27,'电缆环流A2相','data_scur_h'),(28,'电缆环流A3相','data_scur_h'),(29,'电缆环流B1相','data_scur_h'),(30,'电缆环流B2相','data_scur_h'),(31,'电缆环流B3相','data_scur_h'),(32,'电缆环流C1相','data_scur_h'),(33,'电缆环流C2相','data_scur_h'),(34,'电缆环流C3相','data_scur_h'),(35,'红外温度B相','data_eaif_h'),(36,'红外温度C相','data_eaif_h'),(38,'光声光谱','data_epa_h'),(39,'油中气设备','data_epa_h'),(40,'接地网','data_jdw_h'),(59,'光纤测温','data_etp_h'),(60,'绕组测温','data_etp_h'),(20,'电缆环流A1相','data_scur_h'),(61,'SF6环境','data_sf6env_h'),(68,'变压器局部放电','data_byq_jbfd'),(63,'金属氧化物绝缘监测','data_jsyhw_jyjc'),(64,'SF6气体压力','data_sf6_qtyl'),(65,'断路器局部放电','data_dlq_jbfd'),(66,'变压器铁芯','data_tx'),(67,'变压器油色谱','data_ysp'),(69,'SF6气体水分','data_sf6_qtsf'),(70,'变压器顶层油温','data_dcyw'),(71,'负荷电流波形','data_fhdlbx'),(72,'分合闸线圈','data_fhzxq'),(73,'变压器微水','data_ws'),(74,'电容型设备绝缘监测','data_dr_jyjc'),(75,'变电站微气象','data_microclimate'),(76,'储能电机','data_cnj');
 /*!40000 ALTER TABLE `modevtype` ENABLE KEYS */;
 UNLOCK TABLES;
 
@@ -3858,4 +3888,4 @@ UNLOCK TABLES;
 /*!40101 SET COLLATION_CONNECTION=@OLD_COLLATION_CONNECTION */;
 /*!40111 SET SQL_NOTES=@OLD_SQL_NOTES */;
 
--- Dump completed on 2024-06-19 14:40:35
+-- Dump completed on 2024-06-24 14:48:08