调节阀数据表

控制阀CONTROL VALVE工程设计位号 TAG NO.计算Cv最大/正常 CAL.Cv MAX./NOR.选择 Cv RATED Cv正常阀门开度 NOR.VALVE OPEN %P&ID号 P&ID NO.计算噪音声平 CAL.NOI.LEVEL dB(A)管道编号 LINE NO.法兰标准及等级 FLANGE STD.& DEGREE 管道材质 PIPE MATERIAL 法兰尺寸及密封面 FLAN.SIZE & SEAL.管道尺寸 PIPE SIZE法兰材质 FLANGE MATERIAL操作条件 OPERATING CONDITIONS执行机构 ACTUATOR工艺介质 PROCESS FLUID型号 MODEL /尺寸 SIZE 最大/正常流量下温度 @MAX /NOR.FLOW TEMPER.℃型式 TYPE最大流量下的入口压力 IN.PRESS.@MAX.F.kPa(g)弹簧作用 SPRING ACTION最大流量下的压降 PRESS.DROP @MAX.F.kPa空气故障阀位置 AIR FAIL VALVE 正常流量下的入口压力 IN.PRESS.@NOR. F.kPa(g)手轮 HAND WHEEL定位器 POSITIONER关闭压差 SHUT-OFF DIFFE.PRESSURE kPa-d 型号 MODEL输入信号 INPUT SIGNAL增加信号时阀位 INCREASE SIGNAL V.气源压力 AIR SUPPLY PRESS.操作密度 OPER. DENSITY kg/m 3电气接口尺寸 ELEC.CONN.SIZE 动力粘度 DYNAMIC VISCOSITY cP 气源接口尺寸 AIR SUPP.CONN.SIZE 比重 SPECIFIC GRAVITY防爆等级 EXPLOSION-PROOF CLASS气体分子量 GAS MOLECULAR WEIGHT附件 ACCESSORY允许噪音声平 ALLOWED NOISE LEVEL dB(A)过滤器减压阀 REGULATOR 空气故障时阀位置 AIR FAIL VALVE POSITION阀位开关 POSITION SWITH 阀体/阀内件规格 BODY/TRIM SPECIFICATION电磁阀 SOLENOID 阀型号 VALVE MODEL 制造厂 MANUFACTURE 阀体型式 VALVE BODY TYPE 型号 MODEL NO.公称通径 NOMINAL DIAMETER (in)制导型式 GUIDING TYPE阀座尺寸 SEAT SIZE/PORT SIZE (in) 下列数据在需要时填写。

B261•ApplicationStainless Steel Ball and StemTechnical dataFunctional dataValve Size 2.5" [65]Fluidchilled or hot water, up to 60% glycol Fluid Temp Range (water)0...212°F [-18...100°C]Body Pressure Rating 400 psi Close-off pressure ∆ps 100 psiFlow characteristic equal percentage Servicing maintenance-free Flow Pattern 2-way Leakage rate0% for A – AB Controllable flow range 75°Cv60 Body pressure rating note 400 psiCv Flow RatingA-port: as stated in chart B-port: 70% of A – AB Cv MaterialsValve body Nickel-plated brass body Stem seal EPDM (lubricated)SeatPTFEPipe connection NPT female ends O-ring EPDM (lubricated)Ballstainless steel Suitable actuatorsNon-SpringARB(X)Safety notesWARNING: This product can expose you to lead which is known to the State of California to cause cancer and reproductive harm. For more information go to Product featuresThis valve is typically used in air handling units on heating or cooling coils, and fan coil unit heating or cooling coils. Some other common applications include Unit Ventilators, VAV box re-heat coils and bypass loops. This valve is suitable for use in a hydronic system with variable flow.Flow/Mounting detailsB261 DimensionsDimensional drawingsARB, ARXA B C D E F H110.1" [257] 5.6" [141]8.0" [203] 6.0" [152] 2.8" [71] 2.8" [71] 1.9" [48]AFRB, AFRXA B C D E F11.5" [293] 5.6" [141]8.6" [219] 6.6" [168] 2.0" [51] 2.0" [51]ARQB, ARQXA B C D E F H1H29.9" [251] 4.2" [107]8.1" [206] 6.1" [155] 2.3" [58] 2.3" [58]0.8" [20]0.6" [15]AFRB N4, AFRX N4A B D E F11.4" [289] 5.6" [141]8.0" [203] 2.4" [62] 2.4" [62]ARB N4, ARX N4, NRB N4, NRX N4A B D E F11.4" [289] 5.6" [141]8.0" [203] 3.1" [80] 3.1" [80]A B C D E F H1H29.9" [251] 4.2" [107]8.1" [206] 6.1" [155] 2.3" [58] 2.3" [58]0.8" [20]0.6" [15]A B D E F11.4" [289] 5.6" [141]8.0" [203] 3.1" [80] 3.1" [80]AFRBUP-S On/Off, Spring Return, AC 24...240 VTechnical dataElectrical data Nominal voltage AC 24...240 V / DC 24...125 VNominal voltage frequency50/60 HzPower consumption in operation7 WPower consumption in rest position 3.5 WTransformer sizing7 VA @ AC 24 V (class 2 power source), 8.5 VA @AC 120 V, 18 VA @ AC 240 VAuxiliary switch 2 x SPDT, 3 A resistive (0.5 A inductive) @ AC 250 V,one set at 10°, one adjustable 10...90°Switching capacity auxiliary switch 3 A resistive (0.5 A inductive) @ AC 250 VElectrical Connection(2) 18 GA appliance cables with 1/2" conduitconnectors, 3 ft [1 m],Overload Protection electronic throughout 0...95° rotationFunctional data Direction of motion motor selectable by ccw/cw mountingDirection of motion fail-safe reversible with cw/ccw mountingManual override 5 mm hex crank (3/16" Allen), suppliedAngle of rotation90°Running Time (Motor)75 sRunning time fail-safe<20 sNoise level, motor45 dB(A)Noise level, fail-safe62 dB(A)Position indication MechanicalSafety data Degree of protection IEC/EN IP54Degree of protection NEMA/UL NEMA 2 UL Enclosure Type 2Agency Listing cULus acc. to UL60730-1A/-2-14, CAN/CSAE60730-1:02, CE acc. to 2014/30/EU and 2014/35/EU; Listed to UL 2043 - suitable for use in airplenums per Section 300.22(c) of the NEC andSection 602.2 of the IMCQuality Standard ISO 9001Ambient temperature-22...122°F [-30...50°C]Storage temperature-40...176°F [-40...80°C]Ambient humidity max. 95% r.H., non-condensingServicing maintenance-freeWeight Weight 5.7 lb [2.6 kg]Electrical installationINSTALLATION NOTESActuators with appliance cables are numbered.AFRBUP-SUniversal Power Supply (UP) models can be supplied with 24 VAC up to 240 VAC, or 24 VDC up to 125 VDC.Provide overload protection and disconnect as required.Two built-in auxiliary switches (2x SPDT), for end position indication, interlock control, fan startup, etc.Actuators may be powered in parallel. Power consumption must be observed.Parallel wiring required for piggy-back applications.Meets cULus requirements without the need of an electrical ground connection.Warning! Live Electrical Components!During installation, testing, servicing and troubleshooting of this product, it may be necessary to workwith live electrical components. Have a qualified licensed electrician or other individual who has beenproperly trained in handling live electrical components perform these tasks. Failure to follow all electricalsafety precautions when exposed to live electrical components could result in death or serious injury.Apply only AC line voltage or only UL-Class 2 voltage to the terminals of auxiliary switches. Mixed orcombined operation of line voltage/safety extra low voltage is not allowed.On/Off Auxiliary Switches。

EN. No.位号Designation 用途P&ID No.流程图图号Hook-up No.安装图图号Pipe/Equipment Line No.管道号/设备号Fluid 介质Process Data 工艺数据case1case2case3case1case2case3case1case2case3case1case2case3Flow [m3/h]流量5105106.47.72850.63421Inlet.Press[Mpa]G阀前压力0.220.220.020.1Allowed Diff. Press.[Mpa]允许阀压降0.150.150.0160.08Oper.Temper. [℃]操作温度Viscosity [cP]粘度Density [kg/m3]密度Electrical Design 电气设计Voltage Supply 电源电压Input Signal 输入信号Output Signal 输出信号Cable entry 电气连接Explosive Proof 防爆等级Protection Grade 防护等级Materials 材料Body 阀体Seat 阀座Stem 阀杆Trim 阀芯Packing 填料Process Connection 工艺连接Name 名称Body Size 阀门通径Port Size 阀座口径Characteristic 流量特性Air Failure To…断气时…Flow O/C 流开/流关Leakage Class 泄漏等级Valve Function 作用形式Ex. Proofy/n 防爆Sanitary y/n 卫生型Model 型号Remarks备注带配套法兰，螺栓、螺母、垫片带配套法兰，螺栓、螺母、垫片带配套法兰，螺栓、螺母、垫片带配套法兰，螺栓、螺母、垫片VVVV百分比百分比百分比百分比FC FC FC FL 流开流开流开流开316L 316L 316L 316L 石墨石墨石墨石墨HG/T20592-2009;PN100,RFHG/T20592-2009;PN10,RFHG/T20592-2009;PN10,RFHG/T20592-2009;PN10,RF铸钢铸钢铸钢铸钢304SS 304SS 304SS 304SS 304SS 304SS 304SS 304SS 4~20mA ，HART 协议4~20mA ，HART 协议4~20mA ，HART 协议4~20mA ，HART 协议M20x1.5M20x1.5M20x1.5M20x1.5100010001157水水石灰乳CO2909060602706-HW-502704-HW-50DN80 DN250DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision 版次27DCV0127DCV0233FCV0133ACV02石灰乳密度调节阀石灰乳密度调节阀石灰乳搅拌箱出料控制碳酸饱充罐1#出料PH控制DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次DEVICE设备气动调节阀Pneumatic Control ValveSpec. no.规格号工程设计证书仪表数据表CERTIFICATE NO. 090007DATA SHEET FOR INSTRUMENT 1、带不锈钢铭牌，标有仪表位号2、环境温度：3、带有智能电子阀门定位器4、带有空气过滤减压阀(入口500~700Kpa)及压力表5、气源管 SS Ø8×16、带有气动执行机构Revision版次。

EV..F+BACCharacterised control valve with sensor-operated flow rate or power control, power andenergy-monitoring function, 2-way, Flange, PN 16 (Energy Valve)• Nominal voltage AC/DC 24 V• Control modulating, communicative, hybrid, Cloud• For closed cold and warm water systems • For modulating control of air-handling and heating systems on the water side• Ethernet 10/100 Mbit/s, TCP/IP, integrated web server• Communication via BACnet, Modbus, Belimo MP-Bus or conventional control • optional Belimo Cloud connection • Glycol monitoringType OverviewType DN V'nom [l/s]V'nom [l/min]V'nom [m³/h]kvs theor. [m³/h]PN EV065F+BAC 65848028.85016EV080F+BAC 801166039.67516EV100F+BAC 1002012007212716EV125F+BAC 125311860111.619516EV150F+BAC15045270016225416kvs theor.: Theoretical kvs value for pressure drop calculationTechnical dataElectrical dataNominal voltageAC/DC 24 V Nominal voltage frequency 50/60 HzNominal voltage rangeAC 19.2...28.8 V / DC 21.6...28.8 V Power consumption in operation 7 W Power consumption in rest position 5 WPower consumption for wire sizing 6 VA (DN 65, 80)11 VA (DN 100, 125, 150)Connection supply / control Cable 1 m, 6x 0.75 mm²Connection Ethernet RJ45 socketParallel operationYes (note the performance data)Data bus communicationCommunicative controlBACnet/IP, BACnet MS/TP Modbus TCP, Modbus RTU MP-Bus CloudNumber of nodesBACnet / Modbus see interface description MP-Bus max. 8Functional data Operating range Y 2...10 V Input impedance100 kΩOperating range Y variable 0.5...10 V Position feedback U 2...10 V Position feedback U note Max. 1 mA Position feedback U variable 0...10 V 0.5...10 V Sound power level Motor45 dB(A)EV..F+BACFunctional data V'max adjustable30...100% of V'nomControl accuracy±5% (of 25...100% V'nom) @ 20°C / Glycol 0%vol.Control accuracy note±10% (of 25...100% V'nom) @ -10...120°C /Glycol 0...50% vol.Min. controllable flow1% of V'nomParametrisation via integrated web server / ZTH EUFluid Cold and warm water, water with glycol up tomax. 50% vol.Fluid temperature-10...120°C [14...248°F]Close-off pressure ∆ps690 kPaDifferential pressure Δpmax340kPaFlow characteristic equal percentage, optimised in the openingrange (switchable to linear)Leakage rate air-bubble tight, leakage rate A (EN 12266-1)Pipe connection Flangeaccording to EN 1092-2Installation orientation upright to horizontal (in relation to the stem)Servicing maintenance-freeManual override with push-button, can be locked Temperature measurement Measuring accuracy absolute temperature± 0.35°C @ 10°C (Pt1000 EN60751 Class B)± 0.6°C @ 60°C (Pt1000 EN60751 Class B)Measuring accuracy temperature difference±0.18 K @ ΔT = 10 K±0.23 K @ ΔT = 20 KResolution0.05°CFlow measurement Measuring principle Ultrasonic volumetric flow measurementMeasuring accuracy flow±2% (of 25...100% V'nom) @ 20°C / glycol 0%vol.Measuring accuracy flow note±6% (of 25...100% V'nom) @ -10...120°C /glycol 0...50% vol.Min. flow measurement0.5% of V'nomGlycol monitoring Measurement display glycol0...40% or >40%Measuring accuracy glycolmonitoring±4% (0...40%)Safety data Protection class IEC/EN III, Protective Extra-Low Voltage (PELV)Degree of protection IEC/EN IP40IP54 when using protective cap or protectivegrommet for RJ45 socketPressure equipment directive CE according to 2014/68/EUEMC CE according to 2014/30/EUType of action Type 1Rated impulse voltage supply / control0.8 kVPollution degree3Ambient humidity Max. 95% RH, non-condensingAmbient temperature-30...50°C [-22...122°F]Storage temperature-40...80°C [-40...176°F]Materials Valve body EN-GJL-250 (GG 25)Flow measuring pipe EN-GJL-250 (GG 25), with protective paintClosing element Stainless steel AISI 316EV..F+BACMaterialsSpindle Stainless steel AISI 304Spindle seal EPDMSeatPTFE, O-ring Viton Immersion sleeveStainless steel AISI 316Technical data••••Safety notesThis device has been designed for use in stationary heating, ventilation and air-conditioning systems and must not be used outside the specified field of application, especially in aircraft or in any other airborne means of transport.Outdoor application: only possible in case that no (sea) water, snow, ice, insolation or aggressive gases interfere directly with the device and that it is ensured that the ambient conditions remain within the thresholds according to the data sheet at any time.Only authorised specialists may carry out installation. All applicable legal or institutional installation regulations must be complied with during installation.The device contains electrical and electronic components and must not be disposed of as household refuse. All locally valid regulations and requirements must be observed.Product featuresOperating modeThe HVAC performance device is comprised of four components: characterised control valve (CCV), measuring pipe with flow sensor, temperature sensors and the actuator itself. The adjusted maximum flow (V'max) is assigned to the maximum control signal DDC (typically 10 V / 100%). Alternatively, the control signal DDC can be assigned to the valve opening angle or to the power required on the heat exchanger (see power control). The HVAC performance device can be controlled via communicative or analogue signals. The fluid is detected by the sensor in the measuring pipe and is applied as the flow value. The measured value is balanced with the setpoint. The actuator corrects the deviation by changing the valve position. The angle of rotation α varies according to the differential pressure through the control element (see flow curves).Flow rate curvesTransmission behaviour HE Heat exchanger transmission behaviourDepending on the construction, temperature spread, fluid characteristics and hydronic circuit,the power Q is not proportional to the water volumetric flow V' (Curve 1). With the classicaltype of temperature control, an attempt is made to maintain the control signal Y proportionalto the power Q (Curve 2). This is achieved by means of an equal-percentage flow characteristic(Curve 3).Power control Alternatively, the control signal DDC can be assigned to the output power required at the heat exchanger.Depending on the water temperature and air conditions, the Energy Valve ensures theamount of water V' required to achieve the desired power.Maximum controllable power on heat exchanger in power control mode:Control characteristics The specially configured control parameters in connection with the precise velocity sensorensure a stable quality of control. They are, however, not suitable for rapid control processes,i.e. for domestic water control.Power controlQ'nom is the maximum possible power output on the heat exchanger.Q'max is the maximum power output on the heat exchanger which has been set with thehighest control signal DDC. Q'max can be set between 1% and 100% of Q'nom.Q'min 0% (non-variable).Flow controlV'nom is the maximum possible flow.V'max is the maximum flow rate which has been set with the highest control signal. V'max canbe set between 30% and 100% of V'nom.Creep flow suppression Given the very low flow speed in the opening point, this can no longer be measured by the sensor within the required tolerance. This range is overridden electronically.Opening valveThe valve remains closed until the flow required by the control signal DDC corresponds to 1%of V'nom. The control along the flow characteristic is active after this value has beenexceeded.Closing valveThe control along the flow characteristic is active up to the required flow rate of 1% of V'nom.Once the level falls below this value, the flow rate is maintained at 1% of V'nom. If the levelfalls below the flow rate of 0.5% of V'nom required by the control signal DDC, then the valvewill close.Configurable actuators The factory settings cover the most common applications. Single parameters can be modified with the Belimo service tools MFT-P or ZTH EU.CommunicationThe parametrisation can be carried out through the integrated web server (RJ45 connection to the web browser) or by communicative means.Additional information regarding the integrated web server can be found in the separate documentation."Peer to Peer" connectionhttp://belimo.local:8080The Notebook must be set to "DHCP".Make sure that only one network connectionis active.Standard IP address:http://192.168.0.10:8080Static IP addressPassword (read-only):User name: «guest»Password: «guest»Control signal inversionThis can be inverted in cases of control with an analogue control signal DDC. The inversion causes the reversal of the standard behaviour, i.e. at a control signal DDC of 0%, regulation is to V'max or Q'max, and the valve is closed at a control signal DDC of 100%.Hydronic balancingVia the integrated web server, the maximum flow rate (equivalent to 100% requirement) can be adjusted on the device itself, simply and reliably, in a few steps. If the device is integrated in the management system, then the balancing can be handled directly by the management system.Delta-T managerIf a heating or cooling register is operated with a differential temperature that is too low and thus with a flow rate that is too high, this will not result in an increased power output.Nevertheless, heating or cooling machines must provide the energy at a lower degree of efficiency. This means, that pumps circulate too much water and increase energy consumption unnecessarily.With the aid of the Energy Valve, it is simple to discover that operation is being carried out at a differential temperature that is too low, resulting in the inefficient use of energy.Necessary setting adjustments can now be carried out quickly and easily at any time. The integrated differential temperature limiting offers the user the possibility of defining a low limit value. The Energy Valve limits the flow rate automatically to prevent the level from falling below this value.The settings of the Delta-T manager can be made either directly on the web server or via the Belimo Cloud a direct analysis of the Delta-T behavior is carried out by Belimo experts.Power output of the heating or coolingregisters 1Diff. temperature between supply and return2Loss zone (heating or cooling registersaturation) 3Adjustable minimum differential temperature4Combination analogue - communicative(hybrid mode)With conventional control by means of an analogue control signal DDC, the integrated web server, BACnet, Modbus or MP-Bus can be used for the communicative position feedback.EV..F+BACPower and energy monitoring functionThe HVAC performance device is equipped with two temperature sensors. One sensor (T2) is integrated in the measuring pipe, the second sensor (T1) is included with the system,prewired, and must be installed in the water circuit on site. The sensors are used to record the fluid temperature of the supply and return lines of the consumer (heating/cooling coil). As the water quantity is also known, thanks to the flow measurement integrated in the system, the power released from the consumer can be calculated. Furthermore, the heating/cooling energy is also determined automatically by means of the evaluation of the power over time.The current data, e.g. temperatures, volumetric flow volumes, exchanger energyconsumption etc. can be recorded and accessed at any time by means of web browsers or communication.Data recordingThe recorded data (integrated data recording for 13 months) can be used for the optimisation of the overall system and for the determination of the performance of the consumer (heating/cooling coil).Download csv files through web browser.Belimo CloudAdditional services are available if the Energy Valve is connected to the Belimo Cloud: forinstance, several devices may be managed via Internet. Also, Belimo experts may help analyse the delta-T behaviour or provide written reports about the Energy Valve performance. Under certain conditions, the product warranty according to the applicable Terms and Conditions of Sale may be prolonged. The "Terms of Use for Belimo Cloud Services" in their currently valid version apply to the use of Belimo Cloud services. Further details may be found under [/ext-warranty]Glycol monitoring Glycol monitoring measures the actual glycol content, which is necessary for safe operation and optimised heat exchange.Manual override Manual override with push-button possible (the gear train is disengaged for as long as the button is pressed or remains locked).High functional safetyThe actuator is overload protected, requires no limit switches and automatically stops when the end stop is reached.Product featuresAccessoriesElectrical accessoriesDescriptionType Grommet for RJ connection module, Multipack 50 pcs.Z-STRJ.1Stem heater flange F05 (30 W)ZR24-F05ToolsDescriptionTypeService tool, with ZIP-USB function, for parametrisable and communicative Belimo actuators, VAV controller and HVAC performance devicesZTH EU Connecting cable 5 m, A: RJ11 6/4 ZTH EU, B: 6-pin for connection to service socketZK1-GENElectrical installationSupply from isolating transformer.Parallel connection of other actuators possible. Observe the performance data.The wiring of the line for BACnet MS/TP / Modbus RTU is to be carried out in accordance with applicable RS-485 regulations.Modbus / BACnet: Supply and communication are not galvanically isolated. Connect earth signal of the devices with one another.EV..F+BACWire colours:1 = black 2 = red 3 = white 5 = orange 6 = pink 7 = greyFunctions:C1 = D- = A (wire 6)C2 = D+ = B (wire 7)Connection of a notebook for parametrisation and manual control via RJ45.Optional connection via RJ45 (direct connection Notebook / connection via Intranet or Internet) for access to the integrated web serverBACnet IP / Modbus TCPMP-Bus, supply via 3-wire connectionA) additional MP-Bus nodes (max. 8)MP-Bus via 2-wire connection, local power supplyA) additional MP-Bus nodes (max. 8)Electrical installationFunctionsFunctions when operated on MP-BusMP-Bus Network topologyThere are no restrictions for the network topology (star, ring, tree or mixed forms are permitted).Supply and communication in one and the same 3-wire cable • no shielding or twisting necessary• no terminating resistors requiredEV..F+BAC Functions with specific parameters (parametrisation necessary)BACnet MS/TP / Modbus RTU with analogue setpoint (hybrid mode)MP-Bus, supply via 3-wireconnectionMP-Bus with analog setpoint (hybrid mode)BACnet MS/TP / Modbus RTU with analog setpoint (hybrid mode)BACnet IP / Modbus TCP with analog setpoint (hybrid mode)MP-Bus via 2-wire connection, local power supplyMax. 8 additional MP-Bus nodesEV..F+BACFunctions with specific parameters (parametrisation necessary)Override control and limiting with DC 24 V with relay contacts (with conventional control or hybrid mode)1) Position control 2) Flow control 3) Power controlFunctionsOperating controls and indicators2LED display green Off:No power supply or wiring error On:In operationFlickering:Internal communication (Valve/Sensor)3Push-button and LED display yellow On:Adaptation or synchronisation process activePress button:Triggers angle of rotation adaptation, followed by standard mode4Manual override button Press button:Gear train disengages, motor stops, manual override possible Release button:Gear train engages, standard mode5Service plugFor connecting parametrisation and service toolsInstallation notesPermissible installation orientationThe ball valve can be installed upright to horizontal. The ball valve may not be installed in ahanging position, i.e. with the spindle pointing downwards.Installation location in return Installation in the return is recommended.Water quality requirementsThe water quality requirements specified in VDI 2035 must be adhered to.Belimo valves are regulating devices. For the valves to function correctly in the long term, they must be kept free from particle debris (e.g. welding beads during installation work). The installation of a suitable strainer is recommended.EV..F+BAC Spindle heater In cold water applications and warm humid ambient air, condensation can be caused in the actuators. This can lead to corrosion in the gear train of the actuator and a breakdown of theactuator. In such applications, the use of a spindle heater is recommended.The spindle heater must only be activated when the system is in operation because it does nothave a temperature controller.Servicing Ball valves, rotary actuators and sensors are maintenance-free.Before any service work on the control element is carried out, it is essential to isolate therotary actuator from the power supply (by unplugging the electrical cable if necessary). Anypumps in the part of the piping system concerned must also be switched off and theappropriate slide valves closed (allow all components to cool down first if necessary andalways reduce the system pressure to ambient pressure level).The system must not be returned to service until the ball valve and the rotary actuator havebeen correctly reassembled in accordance with the instructions and the pipeline has beenrefilled by professionally trained personnel.Flow direction The direction of flow, specified by an arrow on the housing, is to be complied with, since otherwise the flow rate will be measured incorrectly.Inlet section In order to achieve the specified measuring accuracy, a flow-calming section or inflow section in the direction of the flow is to be provided upstream from the flow sensor. Its dimensionsshould be at least 5x DN.EV..F+BACMounting of immersion sleeve andtemperature sensor The valve is equipped with two temperature sensors:• T2: One sensor is already installed in the valve unit.• T1: The second sensor must be mounted at the installation site ahead of the consumer (valvein the return line; recommended) or after the consumer (valve in the supply line). Theimmersion sleeve required is supplied with the valve unit.The temperature sensor is already wired with the valve.NoteThe cable between valve unit and temperature sensor may not be either shortened orlengthened.Split installation The valve-actuator combination may be mounted separately from the flow sensor. The direction of flow of both components must be observed.Installation notesGeneral notesMinimum differential pressure (pressuredrop)The minimum required differential pressure (pressure drop through the valve) for achieving the desired volumetric flow V'max can be calculated with the aid of the theoretical kvs value(see type overview) and the below-mentioned formula. The calculated value is dependent onthe required maximum volumetric flow V'max. Higher differential pressures are compensated for automatically by the valve.FormulaExample (DN 100 with the desired maximum flow rate = 50% V'nom)Behaviour in case of sensor failure In case of a flow sensor error, the Energy Valve will switch from either power or flow controlto position control (Delta-T manger will be deactivated).Once the error disappears, the Energy Valve will switch back to the normal control setting(Delta-T manager activated)EV..F+BACDimensionsDimensional drawingsIf Y <180 mm, the extension of the hand crank must be demounted as necessary.Further documentation• Tool connections• BACnet Interface description• Modbus Interface description• Description Data-Pool Values• Overview MP Cooperation Partners• MP Glossary• Introduction to MP-Bus Technology• General notes for project planning• Instruction Webserver。

阀门名称：膨胀机进口跳闸阀 阀门标号：TV4401 数量 1管道设计数据压力 2.55 MPa(g)温度 160 o C1. 流体名称 □ 生水 □ 油品_______ □ 蒸汽 ■ 制冷剂R245fa□ 除盐水 □ 空气 □ 天然气最大值 正常 最小值2. 流量 ■ KG/H □ M 3/S □ NM 3/S129847.8 3. 温度 o C127 4. 进口压力 MPa2.218 5. 出口压力 MPa6. C V 值：7. 作用： □ 调节 ■开－关8. 最大关闭压差 MPa, 最高温度. 160 oC 是否可能同时达到 是 9. 阀门进口流速 ____________ M/S10. 阀门全开时压差 _______________ MPa(g) *11. 阀门类型 ■ 直通阀□角式阀□ 三通阀□其他：12. 阀门设计标准 ANSI _______________ *13. 阀体材料 * ■ 碳钢 ASTM _________ □ _______ % CR-MOLY□ 铸铁 ASTM _________□ 青铜 ASTM ___________ □ 304不锈钢 ASTM _______□ 316不锈钢 ASTM ____________□ 其他 ___________14. 连接方式进口出口□ 对焊 ■ 法兰. □ 对焊 ■ 法兰. □ 承插焊□ 螺纹. □ 承插焊□ 螺纹.15. 连接管道管径 mm φ273X7 φ273X7 16. 连接管道材料 20 2017. 特性 □ 线性□ 等百分比□ 快关□ 由卖方定18. 填料 *□ 单□ 双19. 动力（气动或电动）失去时阀门状态 □ 开 ■ 关 □锁住20. 阀座泄漏等级ANSI B16.104 CLASS V21. 执行器类型 ■气动□ 电动 □ 液动 22. 执行器位数* 23. 最大全行程时间 开启 秒 关闭 < 1秒 □ 由卖方定 24. 定位器 □ 有□ 无 □ 由卖方定25. 调节器 □ 无 □ 压力□ 温度.□ 液位□ 其他 □ 特殊（参见备注）26. 位置 □ 阀门上□ 远程27. 流体28. 温度 (正常/最大值) ___________/____________o C 29. 压力 (正常/最大值) ___________/____________MPa(g)30. 限位开关 □ 无 □ 数量□ 电压等级 V A32. 限位开关位置 □ 全开位置 □ 全关位置 □ ___%全开33. 限位开关类型 * □ 形式 _______ □ 形式 _______34. 电磁阀 □无 □交流( Hz)□ 直流□ 电压等级 V35. 电磁阀位置 □ 阀门上 □ 远程37. 电－气转换器 □ 无 □输入信号 至 38. 动力气源压力 ■ 0.60MPa □ 其它 39. 控制信号类型 □ 气信号 □ 电信号40. 控制信号□ □ 其它 41. 位置变送器 □ 无 □ 交流 □ 直流执行器调节器电气数据设计和运行参数阀体管道设计数据压力 2.55 MPa(g)温度 160 o C1. 流体名称 □ 生水 □ 油品_______ □ 蒸汽 ■ 制冷剂R245fa□ 除盐水 □ 空气 □ 天然气最大值 正常 最小值2. 流量 ■ KG/H □ M 3/S □ NM 3/S129847.8 3. 温度 o C127 4. 进口压力 MPa2.218 5. 出口压力 MPa6. C V 值：7. 作用： ■ 调节 □开－关8. 最大关闭压差 MPa, 最高温度. 160 oC 是否可能同时达到 是 9. 阀门进口流速 ____________ M/S10. 阀门全开时压差 _______________ MPa(g) *11. 阀门类型 ■ 直通阀□角式阀□ 三通阀□其他：12. 阀门设计标准 ANSI _______________ *13. 阀体材料 * ■ 碳钢 ASTM _________ □ _______ % CR-MOLY□ 铸铁 ASTM _________□ 青铜 ASTM ___________ □ 304不锈钢 ASTM _______□ 316不锈钢 ASTM ____________□ 其他 ___________14. 连接方式进口出口□ 对焊 ■ 法兰. □ 对焊 ■ 法兰. □ 承插焊□ 螺纹. □ 承插焊□ 螺纹.15. 连接管道管径 mm φ273X7 φ273X7 16. 连接管道材料 20 2017. 特性 □ 线性■ 等百分比□ 快开□ 由卖方定18. 填料 *□ 单□ 双19. 动力（气动或电动）失去时阀门状态 □ 开 ■ 关□ 锁住20. 阀座泄漏等级ANSI B16.104 CLASS IV21. 执行器类型 ■气动□ 电动 □ 液动22. 执行器位数* 23. 最大全行程时间 开启 秒 关闭 秒 □ 由卖方定 24. 定位器 □ 有□ 无 □ 由卖方定25. 调节器 □ 无 □ 压力□ 温度.□ 液位□ 其他 □ 特殊（参见备注）26. 位置 □ 阀门上□ 远程27. 流体28. 温度 (正常/最大值) ___________/____________o C 29. 压力 (正常/最大值) ___________/____________MPa(g)30. 限位开关 □ 无 □ 数量□ 电压等级 V A32. 限位开关位置 □ 全开位置 □ 全关位置 □ ___%全开33. 限位开关类型 * □ 形式 _______ □ 形式 _______34. 电磁阀 □无 □交流( Hz)□ 直流□ 电压等级 V35. 电磁阀位置 □ 阀门上 □ 远程37. 电－气转换器 □ 无 □输入信号 至 38. 动力气源压力 ■ 0.60MPa □ 其它 39. 控制信号类型 □ 气信号 □ 电信号40. 控制信号□ □ 其它 41. 位置变送器 □ 无 □ 交流 □ 直流设计和运行参数执行器调节器电气数据阀体管道设计数据压力 2.55 MPa(g)温度 55 o C1. 流体名称 □ 生水 □ 油品_______ □ 蒸汽 ■ 制冷剂R245fa□ 除盐水 □ 空气 □ 天然气最大值 正常 最小值2. 流量 ■ KG/H □ M 3/S □ NM 3/S129847.8 3. 温度 o C38.4 4. 进口压力 MPa0.215 5. 出口压力 MPa2.2489 6. C V 值：7. 作用： ■ 调节 □开－关8. 最大关闭压差 MPa, 最高温度. 41.5 oC 是否可能同时达到 否 9. 阀门进口流速 ____________ M/S10. 阀门全开时压差 _______________ MPa(g) *11. 阀门类型 ■ 直通阀□角式阀□ 三通阀□其他：12. 阀门设计标准 ANSI _______________ *13. 阀体材料 * ■ 碳钢 ASTM _________ □ _______ % CR-MOLY□ 铸铁 ASTM _________□ 青铜 ASTM ___________ □ 304不锈钢 ASTM _______□ 316不锈钢 ASTM ____________□ 其他 ___________14. 连接方式进口出口□ 对焊 ■ 法兰. □ 对焊 ■ 法兰. □ 承插焊□ 螺纹. □ 承插焊□ 螺纹.15. 连接管道管径 mm φ108X4 φ108X4 16. 连接管道材料 20 2017. 特性 □ 线性■ 等百分比□ 快开□ 由卖方定18. 填料 *□ 单□ 双19. 动力（气动或电动）失去时阀门状态 □ 开 □ 关■ 锁住20. 阀座泄漏等级ANSI B16.104 CLASS I V21. 执行器类型 ■气动□ 电动 □ 液动22. 执行器位数* 23. 最大全行程时间 开启 秒 关闭 秒 □ 由卖方定 24. 定位器 □ 有□ 无 □ 由卖方定25. 调节器 □ 无 □ 压力□ 温度.□ 液位□ 其他 □ 特殊（参见备注）26. 位置 □ 阀门上□ 远程27. 流体28. 温度 (正常/最大值) ___________/____________o C 29. 压力 (正常/最大值) ___________/____________MPa(g)30. 限位开关 □ 无 □ 数量□ 电压等级 V A32. 限位开关位置 □ 全开位置 □ 全关位置 □ ___%全开33. 限位开关类型 * □ 形式 _______ □ 形式 _______34. 电磁阀 □无 □交流( Hz)□ 直流□ 电压等级 V35. 电磁阀位置 □ 阀门上 □ 远程37. 电－气转换器 □ 无 □输入信号 至 38. 动力气源压力 ■ 0.60MPa □ 其它 39. 控制信号类型 □ 气信号 □ 电信号40. 控制信号□ □ 其它 41. 位置变送器 □ 无 □ 交流 □ 直流执行器调节器电气数据设计和运行参数阀体调节阀数据表阀门名称：膨胀机旁路阀 阀门标号：FV4402 数量 1管道设计数据压力 2.55 MPa(g)温度 160 o C1. 流体名称 □ 生水 □ 油品_______ □ 蒸汽 ■制冷剂R245fa□ 除盐水 □ 空气 □ 天然气最大值 正常 最小值2. 流量 ■ KG/H □ M 3/S □ NM 3/S129847.8 3. 温度 o C127 4. 进口压力 Mpa.a2.218 5. 出口压力 MPa0.245 6. C V 值：7. 作用： ■ 调节 □开－关8. 最大关闭压差 MPa, 最高温度. 160 oC 是否可能同时达到 否 9. 阀门进口流速 ____________ M/S10. 阀门全开时压差 _______________ MPa(g) *11. 阀门类型 ■ 直通阀□角式阀□ 三通阀□其他：12. 阀门设计标准 ANSI _______________ *13. 阀体材料 * ■ 碳钢 ASTM _________ □ _______ % CR-MOLY□ 铸铁 ASTM _________□ 青铜 ASTM ___________ □ 304不锈钢 ASTM _______□316不锈钢 ASTM ____________□ 其他 ___________14. 连接方式进口出口□对焊 ■ 法兰. □对焊 ■法兰. □ 承插焊□ 螺纹. □ 承插焊□ 螺纹.15. 连接管道管径 mm φ159X4.5φ159X4.516. 连接管道材料 20 2017. 特性 ■线性□等百分比■ 快开□ 由卖方定18. 填料 *□ 单□ 双19. 动力（气动或电动）失去时阀门状态 ■开 □关□锁住20. 阀座泄漏等级ANSI B16.104 CLASS IV21. 执行器类型 ■气动□ 电动 □ 液动22. 执行器位数* 23. 最大全行程时间 开启 秒 关闭 秒 □ 由卖方定 24. 定位器 □ 有□ 无 □ 由卖方定25. 调节器 □ 无 □ 压力□ 温度.□ 液位□ 其他 □ 特殊（参见备注）26. 位置 □ 阀门上□ 远程27. 流体28. 温度 (正常/最大值) ___________/____________o C 29. 压力 (正常/最大值) ___________/____________MPa(g)30. 限位开关 □ 无 □ 数量□ 电压等级 V A32. 限位开关位置 □ 全开位置 □ 全关位置 □ ___%全开33. 限位开关类型 * □ 形式 _______ □ 形式 _______34. 电磁阀 □无 □交流( Hz)□ 直流□ 电压等级 V35. 电磁阀位置 □ 阀门上 □ 远程37. 电－气转换器 □ 无 □输入信号 至 38. 动力气源压力 ■ 0.60MPa □ 其它 39. 控制信号类型 □ 气信号 □ 电信号40. 控制信号□ □ 其它 41. 位置变送器 □ 无 □ 交流 □ 直流执行器调节器电气数据设计和运行参数阀体调节阀数据表阀门名称：热水旁路阀 阀门标号：数量 1管道设计数据压力 3.0 MPa(g)温度 280 o C1. 流体名称 □ 生水 □ 油品_______ □ 蒸汽 □ 其他 _______■ 除盐水 □ 空气 □ 天然气最大值 正常 最小值2. 流量 ■ KG/H □ M 3/SNM 3/S 300000 3. 温度 o C143 4. 进口压力 MPa1.2 5. 出口压力 MPa6. C V 值：7. 作用： ■ 调节 □开－关8. 最大关闭压差 MPa, 最高温度. 160 oC 是否可能同时达到 是 9. 阀门进口流速 ____________ M/S10. 阀门全开时压差 _______________ MPa(g) *11. 阀门类型 ■ 直通阀□ 角式阀□ 三通阀□其他：12. 阀门设计标准 ANSI _______________ *13. 阀体材料 * ■ 碳钢 ASTM _________ □ _______ % CR-MOLY□ 铸铁 ASTM _________□ 青铜 ASTM ___________ □ 304不锈钢 ASTM _______□316不锈钢 ASTM ____________□ 其他 ___________14. 连接方式进口出口□ 对焊 ■ 法兰. □ 对焊 ■ 法兰. □ 承插焊□ 螺纹. □ 承插焊□ 螺纹.15. 连接管道管径 mm φ273X7 φ273X7 16. 连接管道材料 20 2017. 特性 ■线性□等百分比■ 快开□ 由卖方定18. 填料 *□ 单□ 双19. 动力（气动或电动）失去时阀门状态 ■开 □关□ 锁住20. 阀座泄漏等级ANSI B16.104 CLASS IV21. 执行器类型 ■气动□ 电动 □ 液动22. 执行器位数* 23. 最大全行程时间 开启 秒 关闭 秒 □ 由卖方定 24. 定位器 □ 有□ 无 □ 由卖方定25. 调节器 □ 无 □ 压力□ 温度.□ 液位□ 其他 □ 特殊（参见备注）26. 位置 □ 阀门上□ 远程27. 流体28. 温度 (正常/最大值) ___________/____________o C 29. 压力 (正常/最大值) ___________/____________MPa(g)30. 限位开关 □ 无 □ 数量□ 电压等级 V A32. 限位开关位置 □ 全开位置 □ 全关位置 □ ___%全开33. 限位开关类型 * □ 形式 _______ □ 形式 _______34. 电磁阀 □无 □交流( Hz)□ 直流□ 电压等级 V35. 电磁阀位置 □ 阀门上 □ 远程37. 电－气转换器 □ 无 □输入信号 至 38. 动力气源压力 ■ 0.60MPa □ 其它 39. 控制信号类型 □ 气信号 □ 电信号40. 控制信号□ □ 其它 41. 位置变送器 □ 无 □ 交流 □ 直流执行器调节器电气数据设计和运行参数阀体其他：1）气动执行机构带定位器，采用SMC品牌原装进口产品2）设备使用防爆区域按2区，室外；相关仪表、接线考虑本安型，防护等级IP65。