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数据记录的参数更改

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Tyrone CT
2025-05-21 18:37:46 +08:00
parent 34ec76fda5
commit b6c10f5b6b
9 changed files with 456 additions and 156 deletions
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198
CapMachine.Wpf/Models/CsvRecordModel.cs
View File

@@ -163,35 +163,76 @@ namespace CapMachine.Wpf.Models
[Name("排气温度[℃]")]
public double ExTemp { get; set; }
/// <summary>
/// 膨胀阀前压力[BarA]
/// </summary>
[Name("膨胀阀前压力[BarA]")]
public double TxvFrPress { get; set; }
///// <summary>
///// 膨胀阀前压力[BarA]
///// </summary>
//[Name("膨胀阀前压力[BarA]")]
//public double TxvFrPress { get; set; }
/// <summary>
/// 膨胀阀前温度[℃]
/// 阀前压力P3[BarA]
/// </summary>
[Name("膨胀阀前温度[℃]")]
public double TxvFrTemp { get; set; }
[Name("阀前压力P3[BarA]")]
public double TxvFrPressP3 { get; set; }
/// <summary>
/// EVAP出口压力[BarA]
/// EVAP出口压力P6[BarA]
/// </summary>
[Name("EVAP出口压力[BarA]")]
public double EVAPExpPress { get; set; }
[Name("EVAP出口压力P6[BarA]")]
public double EVAPExpPressP6 { get; set; }
/// <summary>
/// 腔内压力[BarA]
/// 背压压力P8[BarA]
/// </summary>
[Name("腔内压力[BarA]")]
public double IntrplPress { get; set; }
[Name("背压压力P8[BarA]")]
public double BackPressP8 { get; set; }
/// <summary>
/// 压缩机表面温度[℃]
/// 阀前温度T3[℃]
/// </summary>
[Name("压缩机表面温度[℃]")]
public double CapSurfTemp { get; set; }
[Name("阀前温度T3[℃]")]
public double TxvFrTempT3 { get; set; }
/// <summary>
/// COND1入口温度T4[℃]
/// </summary>
[Name("COND1入口温度T4[℃]")]
public double Cond1TempT4 { get; set; }
/// <summary>
/// EVAP出口温度T6[℃]
/// </summary>
[Name("EVAP出口温度T6[℃]")]
public double EVAPExpTempT6 { get; set; }
/// <summary>
/// 压缩机表面温度T11[℃]
/// </summary>
[Name("压缩机表面温度T11[℃]")]
public double CapSurfTempT11 { get; set; }
///// <summary>
///// 膨胀阀前温度[℃]
///// </summary>
//[Name("膨胀阀前温度[℃]")]
//public double TxvFrTemp { get; set; }
///// <summary>
///// EVAP出口压力[BarA]
///// </summary>
//[Name("EVAP出口压力[BarA]")]
//public double EVAPExpPress { get; set; }
///// <summary>
///// 腔内压力[BarA]
///// </summary>
//[Name("腔内压力[BarA]")]
//public double IntrplPress { get; set; }
/// <summary>
/// PTC流量[L/min]
@@ -200,88 +241,157 @@ namespace CapMachine.Wpf.Models
public double PTCFlow { get; set; }
/// <summary>
/// PTC入水温[℃]
/// PTC入水温[℃]
/// </summary>
[Name("PTC入水温[℃]")]
public double PTCEntTemp { get; set; }
[Name("PTC入水温[℃]")]
public double PTCInTemp { get; set; }
/// <summary>
/// PTC出水温度[℃]
/// PTC功率[W]
/// </summary>
[Name("PTC出水温度[℃]")]
public double PTCExpTemp { get; set; }
[Name("PTC功率[W]")]
public double PTCPw { get; set; }
///// <summary>
///// PTC出水温度[℃]
///// </summary>
//[Name("PTC出水温度[℃]")]
//public double PTCExpTemp { get; set; }
/// <summary>
/// 通讯Cmp母线电流[A]
/// 制冷量[W]
/// </summary>
[Name("通讯Cmp母线电流[A]")]
[Name("制冷量[W]")]
public double Qcool { get; set; }
/// <summary>
/// 制热量[W]
/// </summary>
[Name("制热量[W]")]
public double Qheat { get; set; }
/// <summary>
/// 制冷性能系数[W]
/// </summary>
[Name("制冷性能系数[W]")]
public double COPCooling { get; set; }
/// <summary>
/// 制热性能系数[W]
/// </summary>
[Name("制热性能系数[W]")]
public double COPHeating { get; set; }
/// <summary>
/// 容积效率[%]
/// </summary>
[Name("容积效率[%]")]
public double VolumeEfficiency { get; set; }
/// <summary>
/// 等熵效率[%]
/// </summary>
[Name("等熵效率[%]")]
public double IsentropyEfficiency { get; set; }
/// <summary>
/// 过冷度[K]
/// </summary>
[Name("过冷度[K]")]
public double Subcooling { get; set; }
/// <summary>
/// 过热度[K]
/// </summary>
[Name("过热度[K]")]
public double Superheat { get; set; }
/// <summary>
/// 干度[%]
/// </summary>
[Name("干度[%]")]
public double Dryness { get; set; }
/// <summary>
/// 通讯母线电流[A]
/// </summary>
[Name("通讯母线电流[A]")]
public double ComCapBusCur { get; set; }
/// <summary>
/// 通讯Cmp母线电压[V]
/// 通讯母线电压[V]
/// </summary>
[Name("通讯Cmp母线电压[V]")]
[Name("通讯母线电压[V]")]
public double ComCapBusVol { get; set; }
/// <summary>
/// 通讯Cmp逆变器温度[℃]
/// 通讯逆变器温度[℃]
/// </summary>
[Name("通讯Cmp逆变器温度[℃]")]
public double ComCapInvTemp { get; set; }
[Name("通讯逆变器温度[℃]")]
public double ComCapInverterTemp { get; set; }
/// <summary>
/// 通讯Cmp相电流[A]
/// 通讯相电流[A]
/// </summary>
[Name("通讯Cmp相电流[A]")]
[Name("通讯相电流[A]")]
public double ComCapPhCur { get; set; }
/// <summary>
/// 通讯Cmp功率[W]
/// 通讯功率[W]
/// </summary>
[Name("通讯Cmp功率[W]")]
[Name("通讯功率[W]")]
public double ComCapPw { get; set; }
/// <summary>
/// 通讯Cmp芯片温度[℃]
/// 通讯芯片温度[℃]
/// </summary>
[Name("通讯Cmp芯片温度[℃]")]
[Name("通讯芯片温度[℃]")]
public double ComCapChipTemp { get; set; }
/// <summary>
/// 通讯PTC入水温度[℃]
/// </summary>
[Name("通讯PTC入水温度[℃]")]
public double ComPTCEntTemp { get; set; }
public double CapPTCInWaterTemp { get; set; }
/// <summary>
/// 通讯PTC出水温度[℃]
/// </summary>
[Name("通讯PTC出水温度[℃]")]
public double ComPTCExpTemp { get; set; }
public double CapPTCOutWaterTemp { get; set; }
/// <summary>
/// 通讯PTC峰值电流[A]
/// </summary>
[Name("通讯PTC峰值电流[A]")]
public double ComPTCPeakCur { get; set; }
public double CapPTCPeakCur { get; set; }
/// <summary>
/// 通讯PTC母线电流[A]
/// </summary>
[Name("通讯PTC母线电流[A]")]
public double ComPTCBusCur { get; set; }
public double CapPTCBusCur { get; set; }
/// <summary>
/// 通讯PTC膜温[℃]
/// </summary>
[Name("通讯PTC膜温[℃]")]
public double ComPTCFlmTemp { get; set; }
public double CapPTCFilmTemp { get; set; }
/// <summary>
/// 通讯PTC模块温度[℃]
/// 通讯PTC功率模块温度[℃]
/// </summary>
[Name("通讯PTC模块温度[℃]")]
public double ComPTCMdTemp { get; set; }
[Name("通讯PTC功率模块温度[℃]")]
public double CapPTCPwMdTemp { get; set; }
/// <summary>
/// 创建时间

54
CapMachine.Wpf/Models/CsvRecordModelMap.cs
View File

@@ -40,26 +40,42 @@ namespace CapMachine.Wpf.Models
Map(m => m.VRV).Name("冷媒流量[L/min]");
Map(m => m.LubeFlow).Name("润滑油流量[L/min]");
Map(m => m.ExTemp).Name("排气温度[℃]");
Map(m => m.TxvFrPress).Name("膨胀阀前压力[BarA]");
Map(m => m.TxvFrTemp).Name("膨胀阀前温度[℃]");
Map(m => m.EVAPExpPress).Name("EVAP出口压力[BarA]");
Map(m => m.IntrplPress).Name("腔内压力[BarA]");
Map(m => m.CapSurfTemp).Name("压缩机表面温度[℃]");
Map(m => m.TxvFrPressP3).Name("阀前压力P3[BarA]");
Map(m => m.EVAPExpPressP6).Name("EVAP出口压力P6[BarA]");
Map(m => m.BackPressP8).Name("背压压力P8[BarA]");
Map(m => m.TxvFrTempT3).Name("阀前温度T3[℃]");
Map(m => m.Cond1TempT4).Name("COND1入口温度T4[℃]");
Map(m => m.EVAPExpTempT6).Name("EVAP出口温度T6[℃]");
Map(m => m.CapSurfTempT11).Name("压缩机表面温度T11[℃]");
Map(m => m.PTCFlow).Name("PTC流量[L/min]");
Map(m => m.PTCEntTemp).Name("PTC入水温[℃]");
Map(m => m.PTCExpTemp).Name("PTC出水温度[℃]");
Map(m => m.ComCapBusCur).Name("通讯Cmp母线电流[A]");
Map(m => m.ComCapBusVol).Name("通讯Cmp母线电压[V]");
Map(m => m.ComCapInvTemp).Name("通讯Cmp逆变器温度[℃]");
Map(m => m.ComCapPhCur).Name("通讯Cmp相电流[A]");
Map(m => m.ComCapPw).Name("通讯Cmp功率[W]");
Map(m => m.ComCapChipTemp).Name("通讯Cmp芯片温度[℃]");
Map(m => m.ComPTCEntTemp).Name("通讯PTC入水温度[℃]");
Map(m => m.ComPTCExpTemp).Name("通讯PTC出水温度[]");
Map(m => m.ComPTCPeakCur).Name("通讯PTC峰值电流[A]");
Map(m => m.ComPTCBusCur).Name("通讯PTC母线电流[A]");
Map(m => m.ComPTCFlmTemp).Name("通讯PTC膜温[℃]");
Map(m => m.ComPTCMdTemp).Name("通讯PTC模块温度[℃]");
Map(m => m.PTCInTemp).Name("PTC入水温[℃]");
Map(m => m.PTCPw).Name("PTC功率[W]");
Map(m => m.Qcool).Name("制冷量[W]");
Map(m => m.Qheat).Name("制热量[W]");
Map(m => m.COPCooling).Name("制冷性能系数[W]");
Map(m => m.COPHeating).Name("制热性能系数[W]");
Map(m => m.VolumeEfficiency).Name("容积效率[%]");
Map(m => m.IsentropyEfficiency).Name("等熵效率[%]");
Map(m => m.Subcooling).Name("过冷度[K]");
Map(m => m.Superheat).Name("过热度[K]");
Map(m => m.Dryness).Name("干度[%]");
Map(m => m.ComCapBusCur).Name("通讯母线电流[A]");
Map(m => m.ComCapBusVol).Name("通讯母线电压[V]");
Map(m => m.ComCapInverterTemp).Name("通讯逆变器温度[℃]");
Map(m => m.ComCapPhCur).Name("通讯相电流[A]");
Map(m => m.ComCapPw).Name("通讯功率[W]");
Map(m => m.ComCapChipTemp).Name("通讯芯片温度[℃]");
Map(m => m.CapPTCInWaterTemp).Name("通讯PTC入水温度[℃]");
Map(m => m.CapPTCOutWaterTemp).Name("通讯PTC出水温度[℃]");
Map(m => m.CapPTCPeakCur).Name("通讯PTC峰值电流[A]");
Map(m => m.CapPTCBusCur).Name("通讯PTC母线电流[A]");
Map(m => m.CapPTCFilmTemp).Name("通讯PTC膜温[℃]");
Map(m => m.CapPTCPwMdTemp).Name("通讯PTC功率模块温度[℃]");
Map(m => m.CreateTime).Name("时间");

91
CapMachine.Wpf/Models/LightChart/ChartManager.cs
View File

@@ -245,46 +245,83 @@ namespace CapMachine.Wpf.Models.LightChart
return CurHistoryData.Select(a => new ChartPoint() { Value = a.LubeFlow, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "排气温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ExTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "膨胀阀前压力[BarA]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.TxvFrPress, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "膨胀阀前温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.TxvFrTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "EVAP出口压力[BarA]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.EVAPExpPress, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "腔内压力[BarA]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.IntrplPress, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "压缩机表面温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapSurfTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
//case "膨胀阀前压力[BarA]":
// return CurHistoryData.Select(a => new ChartPoint() { Value = a.TxvFrPress, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
//case "膨胀阀前温度[℃]":
// return CurHistoryData.Select(a => new ChartPoint() { Value = a.TxvFrTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
//case "EVAP出口压力[BarA]":
// return CurHistoryData.Select(a => new ChartPoint() { Value = a.EVAPExpPress, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
//case "腔内压力[BarA]":
// return CurHistoryData.Select(a => new ChartPoint() { Value = a.IntrplPress, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
//case "压缩机表面温度[℃]":
// return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapSurfTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "阀前压力P3[BarA]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.TxvFrPressP3, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "EVAP出口压力P6[BarA]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.EVAPExpPressP6, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "背压压力P8[BarA]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.BackPressP8, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "阀前温度T3[BarA]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.TxvFrTempT3, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "COND1入口温度T4[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.Cond1TempT4, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "EVAP出口温度T6[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.EVAPExpTempT6, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "压缩机表面温度T11[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapSurfTempT11, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "PTC流量[L/min]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.PTCFlow, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "PTC入水温[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.PTCEntTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "PTC出水温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.PTCExpTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯Cmp母线电流[A]":
case "PTC入水温[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.PTCInTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "PTC功率[W]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.PTCPw, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "制冷量[W]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.Qcool, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "制热量[W]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.Qheat, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "制冷性能系数[W]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.COPCooling, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "制热性能系数[W]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.COPHeating, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "容积效率[%]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.VolumeEfficiency, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "等熵效率[%]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.IsentropyEfficiency, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "过冷度[K]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.Subcooling, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "过热度[K]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.Superheat, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯母线电流[A]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComCapBusCur, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯Cmp母线电压[V]":
case "通讯母线电压[V]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComCapBusVol, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯Cmp逆变器温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComCapInvTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯Cmp相电流[A]":
case "通讯逆变器温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComCapInverterTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯相电流[A]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComCapPhCur, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯Cmp功率[W]":
case "通讯功率[W]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComCapPw, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯Cmp芯片温度[℃]":
case "通讯芯片温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComCapChipTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯PTC入水温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComPTCEntTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapPTCInWaterTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯PTC出水温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComPTCExpTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapPTCOutWaterTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯PTC峰值电流[A]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComPTCPeakCur, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapPTCPeakCur, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯PTC母线电流[A]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComPTCBusCur, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapPTCBusCur, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯PTC膜温[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComPTCFlmTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapPTCFilmTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
case "通讯PTC模块温度[℃]":
return CurHistoryData.Select(a => new ChartPoint() { Value = a.ComPTCMdTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
return CurHistoryData.Select(a => new ChartPoint() { Value = a.CapPTCPwMdTemp, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
default:
return CurHistoryData.Select(a => new ChartPoint() { Value = a.Speed, Time = a.CreateTime }).OrderBy(a => a.Time).ToList();
break;