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CW-3000 INDUSTRIAL CHILLER USER MANUAL<1> INTRODUCTIONCW-3000 Series is professional cooling machine referring to internationaladvanced thermolysis cooling system design, suitable for small water-cooled cooling devices requested machinery.1. Specific disconnection alarm security protection.2. Hermetic type water tank, water is available for a long time used.3. Real-time temperature monitoring, accurate knowledge of heating devicesworking condition.4. Professional air-cooled forced radiator with strong heat dissipatingcapacity and difficult to be blocked up.5. Equipped with alarm output port to protect sensitive components quickly.6. High cost performance, low failure rate.7. There are several options of power supply, complete in specifications.<2> CAUTION1. It is strictly forbidden to plug and run the cooler without feeding water.2. Cooler should be placed in a well-ventilated, dry environment place andaway from heat sources. Please keep at least 30cm from obstructions to theair outlet which is in the back of the cooler, and should leave at least 10cmbetween obstructions and air inlets of two sides.3. The cooling water must be drained if the cooler is out of use for long time orbefore being transported.4. To protect laser tubes , the radiator fan of cooler will suspend to work whenwater temperature is lower ( about 10℃ ) , and it will restart to run whenwater temperature rises to higher ( about 20 ℃).<3> Details1.Shape and parts name FRONTBACKPOWER SW TEMPERATURE DISPLAY SYSTEM ALARM INDICATOR RUNNING INDICATOR WATER SUPPLY INLETALARM SIGNAL OUTPUT TERMINALPOWER SOCKET (WITH FUSE) OUTLET INLETWATER DRAINRADIATOR FAN2. The first installationIt is very simple to install this industrial cooling machine. The first time installation of the new machine can be carried out by following steps.1. Open the package to check if the machine is intact and all the necessaryaccessories are completed.2. Open the injection port, then add cooling water.3. According to system conditions, connect the water inlet and outlet pipewell.4. Plug in power, turn on the power switch. (Do not allow the water overflow)5. Check the water level of the water tank again. (It should be 80-150cm fromthe surface of water to the injection port)3. Alarm descriptionCauses of the cooling water circulation loop alarm and the working condition table.Note: The flow alarm port connects to the normally open relay and normally closed relay contacts, requiring operating current to be less than 5A, working voltage less than 300V.4. Maintenance1. To ensure good heat dissipating, please open the lid to clean the dirt after thecooler used in long-term.2. Working in cold north area, it is better to use noncorrosive antifreeze fluid.<4> SPECIFICATIONSModel CW-3000AG CW-3000DG CW-3000AF CW-3000DF CW-3000AK CW-3000DKVoltages AC220~240V AC100~120V AC220~240V AC100~120V AC220~240V AC100~120VFrequency 50/60HzCurrent 0.45A 0.9A 0.45A 0.9A 0.5A 1.0ACooling 50W/ °C 60W/°Ccapacity 9 LInlet and outlet holdOutside dimensions10mm brass connectorInside dimensions8mm speedy connectorInside dimensions6mm speedy connectorMax. pumpinglift10 M 70 MN.W 9.5Kg 12KgG.W 12Kg 14.5Kg Dimensions 47X27X37cm (L X W X H)Packing dimensions 59X39X48cm (L X W X H)<5> SIMPIE TROUBLESHOOTINGFailure Faultcause ApproachMachine turned on but unelectrified Power cord is notplugged in placePlug the powercord in placefuse burnt-outReplace the fuse inside thepower interface which is inthe back of machineFlow alarm (panel red light) with water pipe directlyconnect to the outlet, inlet, there is no water flow Water level inwater tank istoo lowFeed water and check thepipe leakageWhen used with the device,flow alarm (panel red light), but a direct connection with the pipe outlet and inlet, there is water flowing butnot alarmingBlockage incirculating waterpipelineCheck circulatingwater pipelineUltra-high temperatureChiller of poorventilationTo improve the ventilation Excessive heat loadReduce the heat load orto use other modelsA normal boot, but thefan does not work The water temperaturebelow 20 degreesA normal phenomenon,no processingSwitch on with alarming after adding water or changing waterWater drop inelectric circuitNatural drying ordrying off cap Damaged pumpsdry transferTo replace or repair waterpumps,prohibitedanhydrous bootSlow outfall drainage The injection portis not openOpen the injection port<6> PACKING LIST1. Machine 1pc,user manual 1pc.2. Power cord 1pc, connection hose 1pc,sealed hoop 2pcs.3. Spare fuse for 250V/2A 1pc. (Held in the spare fuseholder of power socket.)4. An alarm signal output plug.CAUTION:The appliance is not to be used by children or persons with reduced physical, sensory or mental capabilities, or lack of experience and knowledge, unless they have been given supervision or instruction,children being supervised not to play with the appliance!CW-3000工业循环冷却机 使用安装说明书一、 功能特点简介CW-3000系列是参照国际先进散热型冷却系统设计制造的专业冷却机,适用于小型水冷散热设备。
Instruction Manual5 Port Solenoid Valve/Cassette Type ManifoldSeries SZ3000The intended use of this valve is to control the movement of an actuator.1 Safety InstructionsThese safety instructions are intended to prevent hazardous situationsand/or equipment damage. These instructions indicate the level ofpotential hazard with the labels of “Caution,” “Warning” or “Danger.”They are all important notes for safety and must be followed in additionto International Standards (ISO/IEC) *1), and other safety regulations.*1) ISO 4414: Pneumatic fluid power - General rules relating to systems.ISO 4413: Hydraulic fluid power - General rules relating to systems.IEC 60204-1: Safety of machinery - Electrical equipment of machines.(Part 1: General requirements)ISO 10218-1: Robots and robotic devices - Safety requirements forindustrial robots - Part 1: Robots.•Refer to product catalogue, Operation Manual and HandlingPrecautions for SMC Products for additional information.• Keep this manual in a safe place for future reference.Caution Caution indicates a hazard with a low level of risk which, ifnot avoided, could result in minor or moderate injury.Warning Warning indicates a hazard with a medium level of riskwhich, if not avoided, could result in death or serious injury.Danger Danger indicates a hazard with a high level of risk which, ifnot avoided, will result in death or serious injury.Warning•Always ensure compliance with relevant safety laws andstandards.•All work must be carried out in a safe manner by a qualified person incompliance with applicable national regulations.Caution•The product is provided for use in manufacturing industries only. Donot use in residential premises.2 Specifications2.1 Valve specificationsFluid AirInternal pilotoperatingpressurerange [MPa]2 position single 0.15 to 0.72 position double 0.1 to 0.73 position 0.2 to 0.74 position dual 3 port 0.15 to 0.7External pilotpressurerange [MPa]Operating pressure range -100 kPa to 0.7Pilotpressurerange2 position single0.25 to 0.72 position double3 positionAmbien and fluid temperature [˚C]-10 to 50 (No freezing)Flow rate characteristicsRefer to catalogueResponse timeDuty cycle Contact SMCMinimum operating frequency 1 cycle / 30 daysMaximumoperatingfrequency [Hz]2 position single, double,4 position dual 3 port valve103 position 32 Specifications - continuedManual override (manual operation)Non-locking push typePush-turn locking slotted typeLubrication Not requiredImpact/Vibration resistance [m/s2] Note 150 / 30Enclosure (based on IEC60529) IP40Mounting orientation UnrestrictedWeight Refer to cataloguePilot type Common exhaustTable 1.Note 1) Impact resistance: No malfunction occurred when it was tested in the axialdirection and at right angles to the main valve and armature in bothenergized and de-energized states. Each condition was tested once.(Values quoted are for a new valve).Vibration resistance: No malfunction occurred in a one-sweep test between45 and 2000 Hz. Test was performed in both energized and de-energizedstates in the axial direction and at right angles to the main valve andarmature. (Values quoted are for a new valve).2.2 Solenoid specificationsElectricalentryPlug-in, EX140, EX510 L type plug connector (L)Non plug-in M type plug connector (M)Coil rated voltage [VDC] 24, 12Allowable voltage fluctuation ±10% of rated voltageCoil insulation class Contact SMCPower consumption [W] 0.6 (With light: 0.65)Surge voltage suppressor DiodeIndicator light LEDTable 2.Note 1) Only 24 VDC and 12 VDC are available for plug-in use.2.3 Manifold specificationsModelD-subType 60FFlat ribbon cable type 60P#SS5Z3-60Type 60P Type 60PG Type 60PHManifold type Plug-in (L)Non plug-in(M)1(P:SUP)/3/5(R: EXH) systemCommon SUP, EXHValve stations 2 to 20 2 to 16 2 to 8 2 to 204(A)/2(B)portLocation ValveDirection Lateral, upward, downwardPortsize1(P), 3/5(R) C84(A), 2(B) C4, C6, M5Table 3.2.4 Pneumatic symbolsRefer to catalogue Pneumatic symbols.2.5 Indicator lightM type plug connector L type plug connectorFigure 1.2.6 Special productsWarningSpecial products (-X) might have specifications different from thoseshown in this section. Contact SMC for specific drawings.3 Installation3.1 InstallationWarning•Do not install the product unless the safety instructions have been readand understood.3.2 EnvironmentWarning•Do not use in an environment where corrosive gases, chemicals, saltwater or steam are present.3 Installation - continued•Do not use in an explosive atmosphere.•Do not expose to direct sunlight. Use a suitable protective cover.•Do not install in a location subject to vibration or impact in excess ofthe product’s specifications.•Do not mount in a location exposed to radiant heat that would result intemperatures in excess of the product’s specifications.3.3 PipingCaution•Before connecting piping make sure to clean up chips, cutting oil, dustetc.•When installing piping or fittings, ensure sealant material does notenter inside the port. When using seal tape, leave 1 thread exposedon the end of the pipe/fitting.•Tighten fittings to the specified tightening torque.3.4 LubricationCaution•SMC products have been lubricated for life at manufacture, and do notrequire lubrication in service.•If a lubricant is used in the system, refer to catalogue for details.3.5 Air supplyWarning•Use clean air. If the compressed air supply includes chemicals,synthetic materials (including organic solvents), salinity, corrosive gasetc., it can lead to damage or malfunction.Caution•Install an air filter upstream of the valve. Select an air filter with afiltration size of 5 μm or smaller.3.6 Manual overrideWarning•Regardless of an electric signal for the valve, the manual override isused for switching the main valve. Since connected equipment willoperate when the manual override is activated, confirm that conditionsare safe prior to activation.•Locked manual overrides might prevent the valve responding to beingelectrically de-energised or cause unexpected movement in theequipment.•Refer to the catalogue for details of manual override operation.Non-locking push type Push-turn locking slotted typeFigure 2. – Position is the same on L and M types3.7 Valves with switches (L type plug-in only)WarningWhen turning OFF with the switch, be sure to move the switch to thelocked position. Connected equipment may be actuated if current flowoccurs with the switch at an improper position.ON position OFF positionNormal operating condition.Switching off valve is based onan electric signal from theconnector.The valve coil is kept in adeenergized state even when thereis an electric signal from theconnector.Figure 3.3 Installation - continued3.8 Electrical circuitsCautionIf a valve type without suppression is used, suppression should beprovided as close as possible to the valve by the host controller.Pos. common specifications Neg. common specificationsSingle solenoid type Single solenoid typeLight/surge voltage suppressorSurge voltage suppressorDouble solenoid, 3 position,4 positionDouble solenoid, 3 position,4 positionLight/surge voltage suppressorSurge voltage suppressorValves with switches (with light/surge voltage suppressor)-Figure 4.Note) Make sure that the polarity is matched on the connector’s (+), (-) and A, Band COM indicators. In case of voltage specifications other than 12 or 24VDC, take care to avoid mistaking polarity, as there is no diode to preventreverse current. In the event that lead wires are connected in advance, theywill be as shown below.Pos. common specifications Neg. common specificationsA (-): BlackCOM (+): RedB (-): White (no lead wire forsingle solenoid)A (+): BlackCOM (-): RedB (+): White (no lead wire for singlesolenoid)3.9 Residual voltageCaution•The suppressor arrests the back EMF voltage from the coil to a levelin proportion to the rated voltage.ORIGINAL INSTRUCTIONSSol.AManual overridefor Sol.B (Green)Manual overridefor Sol.A (Orange)Sol.BSol.AManual overridefor Sol.B (Green)Manual overridefor Sol.A (Orange)Sol.BSolenoid ASolenoid BLightA: RedB: GreenDiode to preventreverse currentCoilCOMRed (+)[SOL.a]Black (-)LED(Red)Diode to preventreverse currentCoilCOMYellow (-)[SOL.a]Black (+)LED(Red)Diode to preventreverse currentCoilCOMRed (+)[SOL.a]Black (-)Diode to preventreverse currentCoilCOMYellow (-)[SOL.a]Black (+)Diode to preventreverse currentCoil[Sol.b]White (-)[SOL.a]Black (-)LED(Red)COMRed (+)CoilLED(Green)Diode to preventreverse currentCoil[Sol.b]White (-)[SOL.a]Black (-)COMRed (+)CoilDiode to preventreverse currentCoil[Sol.b]White (+)[SOL.a]Black (+)LED(Red)COMYellow (-)CoilLED(Green)Diode to preventreverse currentCoil[Sol.b]White (+)[SOL.a]Black (+)COMYellow (-)CoilSwitchCoil[Sol.b](-)[SOL.a](-)SwitchCoilCOM(+)LED(Green)LED(Red)3 Installation - continued•Ensure the transient voltage is within the specification of the hostcontroller.•In the case of a diode, the residual voltage is approximately 1 V.•Valve response time is dependent on surge suppression methodselected.3.10 Countermeasure for surge voltageCaution•At times of sudden interruption of the power supply, the energy storedin a large inductive device may cause non-polar type valves in a de-energised state to switch.•When installing a breaker circuit to isolate the power, consider a valvewith polarity (with polarity protection diode), or install a surgeabsorption diode across the output of the breaker.3.11 Extended period of continuous energizationWarningIf a valve will be continuously energized for an extended period of time,the temperature of the valve will increase due to the heat generated bythe coil assembly. This will likely adversely affect the performance of thevalve and any nearby peripheral equipment. Therefore, if the valve is tobe energized for periods of longer than 30 minutes at a time or if duringthe hours of operation the energized period per day is longer than the de-energized period, we advise using a 0.4 W or lower valves, such as theSY series, or a valve with power-saving circuit.3.12 Effect of back pressure when using a manifoldWarning•Use caution when valves are used on a manifold because an actuatormay malfunction due to back-pressure.•Special caution must be taken when using 3 position exhaust centrevalve or when driving a single acting cylinder. To prevent amalfunction, implement counter measures such as using a single EXHspacer assembly or an individual exhaust manifold.3.13 Manifold electrical wiring specificationsRefer to catalogue for manifold electrical wiring specifications.3.14 How to use plug connectorRefer to catalogue for additional information.3.14.1 Attaching and detaching connectorsFigure 5.3.14.2 Crimping of lead wires and socketsFigure 6.3.14.3 Attaching and detaching lead wires with socketsFigure 7.3 Installation - continued3.15 Common connector assembly wiringRefer to catalogue for additional information.Figure 8. Common connector assembly wiring3.16 Exhaust restrictionCautionSince the SZ series is a type in which the pilot valve exhaust joins themain valve exhaust inside the valve, care must be taken that the pipingfrom the exhaust port is not restricted.3.17 Use as a 3-port valveCautionThe SZ3000 series valves can be used as normally closed (N.C.) ornormally open (N.O.) 3 port valves by closing one of the cylinder ports (Aor B) with a plug. However, they should be used with the exhaust portskept open. They are convenient at times when a double solenoid type 3port valve is required.Plug position B port A portType of actuation N.C. N.O.NumberofsolenoidsSingleDoubleTable 4.3.18 One-touch fittings3.18.1 Tube attachment and detachmentCautionRefer to the Specific Precautions in the catalogue.3.18.2 Precautions on other tube brandsCautionWhen using non-SMC brand tubes, refer to the Specific Precautions inthe catalogue.3.19 Built-in back pressure check valveCaution•Valves with built-in back pressure check valve is to protect the backpressure inside a valve. For this reason, use caution that the valveswith external pilot specification cannot be pressurized from exhaustport [3(R)]. As compared with the types which do not integrate the backpressure check valve, C value of the flow rate characteristics goesdown. For details, please contact SMC.•Do not switch valves when A or B port is open to the atmosphere, orwhile the actuators and air operated equipment are in operation. Theback pressure prevention seal may be peeled off, which may cause airleakage or malfunctions. Use caution especially when performing atrial operation or maintenance work.4 Settings4.1 Changing the connector entry directionCaution•Since lead wires are attached to the connector, excessive pulling ortwisting can cause broken wires or other issues. Also, take care thatlead wires are not pinched when installing the connector.•If an excessive force is applied on the connector in the ‘LOCK’ position,the connector block may be damaged. Connector lead wires maybreak If the switch is in the ‘FREE’ position during operation. Ensurethe switch is moved back in ‘LOCK’ position.•Refer to catalogue for additional information.Figure 9.5 How to OrderRefer to catalogue for ‘How to Order’ or to product drawing for specialproducts.6 Outline DimensionsRefer to catalogue for outline dimensions.7 Maintenance7.1 General maintenanceCaution•Not following proper maintenance procedures could cause the productto malfunction and lead to equipment damage.•If handled improperly, compressed air can be dangerous.•Maintenance of pneumatic systems should be performed only byqualified personnel.•Before performing maintenance, turn off the power supply and be sureto cut off the supply pressure. Confirm that the air is released toatmosphere.•After installation and maintenance, apply operating pressure andpower to the equipment and perform appropriate functional andleakage tests to make sure the equipment is installed correctly.•If any electrical connections are disturbed during maintenance, ensurethey are reconnected correctly and safety checks are carried out asrequired to ensure continued compliance with applicable nationalregulations.•Do not make any modification to the product.•Do not disassemble the product, unless required by installation ormaintenance instructions.7.2 Fitting assembly replacementRefer to catalogue for additional information.Figure 10.7.3 Manifold expansion and replacement parts•When disassembly and assembly are performed, air leakage mayresult if connections between blocks and tightening of the end block’sholding screw, is inadequate. Before supplying air, confirm that thereare no gaps, etc. between blocks, and that manifold blocks aresecurely fastened to the DIN rail. Then supply air and confirm that thereis no air leakage before operating.•Tighten the DIN rail holding screw to the recommended torque of 1.4N∙m.•Refer to catalogue for additional information and replacement parts.8 Limitations of Use8.1 Limited warranty and disclaimer/compliance requirementsRefer to Handling Precautions for SMC Products.Warning8.2 Cannot be used as an emergency shut-off valveThis product is not designed for safety applications such as anemergency shut-off valve. If the valves are used in this type of system,other reliable safety assurance measures should be adopted.8.3 Holding of pressure (including vacuum)Since valves are subject to air leakage, they cannot be used forapplications such as holding pressure (including vacuum) in a system.8.4 Intermediate stoppingRefer to Handling Precautions for 3/4/5 port Solenoid Valves.8.5 Air returned or air/spring returned spool valves•The use of 2-position single valves with air returned or air/springreturned spools has to be carefully considered.•The return of the valve spool into the de-energized position dependson the pilot pressure. If the pilot pressure drops below the specifiedoperating pressure the position of the spool cannot be defined.•The design of the system must take into account such behaviour.•Additional measures might be necessary. For example, the installationof an additional air tank to maintain the pilot pressure. Such measuresmust be evaluated by risk assessment within the validation process.EnergysourcestatusSingle Double 3 position 4 positionAir supplypresent,electricitycutSpool returns tothe off positionby air forceSpool stopsmoving afterelectricity cut(Position cannotbe defined)Spool returnsto off positionby spring forceSpools return tooff position by airforceAir supplycut beforeelectricitycutSpool stopsmoving after airpressure cut(Position cannotbe defined)Spool stopsmoving after airpressure cut(Position cannotbe defined)Spool returnsto off positionby spring forceSpool stopsmoving after airpressure cut(Position cannotbe defined)Table 5.Caution8.6 Leakage voltageEnsure that any leakage voltage caused by the leakage current when theswitching element is OFF is ≤ 3% of the rated voltage across the valve.8.7 Low temperature operationUnless otherwise indicated in the specifications for each valve, operationis possible to -10˚C, but appropriate measures should be taken to avoidsolidification or freezing of drainage and moisture, etc.8.8 Momentary energizationIf a double solenoid valve is operated with momentary energization, itshould be energized for at least 0.1 second. However, depending on thesecondary load conditions, it should be energized until the cylinderreaches the stroke end position, as there is a possibility of malfunctionotherwise.9 Product DisposalThis product shall not be disposed of as municipal waste. Check yourlocal regulations and guidelines to dispose this product correctly, in orderto reduce the impact on human health and the environment.10 ContactsRefer to or www.smc.eu for your localdistributor/importer.URL : https:// (Global) https:// www.smc.eu (Europe)SMC Corporation, 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021, JapanSpecifications are subject to change without prior notice from the manufacturer.© 2022SMC Corporation All Rights Reserved.Template DKP50047-F-085M CoverConcavePinLeverPolarity indicatorSocketPart no. DXT170-71-1Lead wireConnectorHookCore wirecrimping areaCrimping areaCore wireLead wireSocketHookInsulation0.2 mm2 to 0.33 mm2Max. cover diameter: ∅1.7 mmSocketHookConnectorLead wireInsert into these square holesSwitch for locking a connectorM5 port block assemblyClipO-ringC4 / C6 one-touch fittingO-ringOne-touch fitting(Elbow type)One-touch fitting(Long elbow type)Common wireSocketInsert socket into connector (below COM indicator)of adjacent solenoid valve。
ZSC-3000系列直流调压使用说明书上海懿博动力电气有限公司地址:上海市华江路1078号2#************ZSC-3000系列直流负载调压装置使用说明书一.概述:ZSC-3000系列直流调压装置是紧凑型墙挂式双闭环模拟控制调压控制器,该装置在吸收西门子公司直流装置的基础上,由本公司及国外有关公司联合开发的产品。
本装置具有体积小,结构紧凑,安装方便,调试方便,调节精度高,调压范围宽,抗干扰能力强,输出线性度好,保护动作灵敏,操作安全方便的特点,其技术性能已达到并超过了国外八十年代水平。
可广泛使用于单机调压或多机同步调压的工业控制装置,也可作为直流稳压电源使用。
本装置的基本功能有:1·慢升压,慢降压;2·电压负反馈;3·电流控制环节;4·过电流保护输出环节;5·输出零点调整环节。
二.型号及意义:ZSC-3A为三相全桥、输出电压0~500VDC,额定输出电流,单位(A)。
3为三相电源制。
紧凑型晶闸管直流调压装置。
例如:ZSC-3100A为额定输出电压0~500VDC,额定输出电流100A的三相直流压装置。
三.技术参数1.控制和调节回路:控制电源电压:3&~380Vac ±10% / 45~65Hz功耗:约10W过载能力:150%额定电流,时间小于30秒.调节电流:0~100%线性设定过电流保护:80~150%可调升降压时间:0.5~30秒四.使用条件:1.环境温度:-10BC~+45BC2.储运温度:-30BC~+85BC3.温度等级:F(DIN40040 SN26556)4.防护等级:IP00(DIN40050 IEC144)5.海拔高度:小于1000米(海拔增加100米,额定值下降1%)五.外形尺寸与安装说明:1.外形尺寸: 见附图一。
2.安装说明:a.装置应垂直安装在立体箱内或机器的框架上,以便冷却空气自下而上自然流通,且电源接线端朝向底部。
CCS3000 使用手册内容内容 (2)插图 (3)1简介...................................................................................................... 错误!未定义书签。
2启动. (4)2.1解包 (4)2.2物理安装 (4)2.3电气连接 (5)3PC设置软件 (7)3.1密码 (9)3.2设置 (10)3.2.1测量模式 (11)3.2.2现场总线配置.......................................................................... 错误!未定义书签。
3.2.3串行l/4-20mA 配置 (11)3.2.4产品代码配置 (12)3.2.5产品过滤 (13)3.2.6以太网设置 (15)4标定...................................................................................................... 错误!未定义书签。
4.1.1纠正偏差方法 (16)4.1.2线性衰退 (17)5仪表选项............................................................................................... 错误!未定义书签。
5.1涡流冷却面板的连接................................................................ 错误!未定义书签。
插图插图 1 仪器安装配置 (5)插图 2 仪器连接 (6)插图 3 由自带电源驱动的远距离显示器, 非隔绝回路#1 (7)插图 4 由外部电源驱动的远距离显示器, 非隔绝回路#2 (7)插图 5 启动主屏幕 (8)插图 6 连接和开试测试后的主屏幕 (9)插图 7基本设置屏幕 (10)插图 8 测试设置屏幕 (10)插图 9 系列/4-20mA 设置屏幕 (11)插图 10产品代码设置–一般参数 (12)插图 11 产品规格参数 (13)插图 12阻尼&过滤带效果图 (14)插图 13 以太网设置 (15)插图 14 标定屏幕 (16)插图 15 发光管 (18)插图 16 嵌入式面板视图窗口 (18)插图 17观察管 (19)插图 18气动取样器 (19)1 简介感谢选用Sensortech Systems, Inc.附属公司MoistTech的测量仪。
辽宁联胜机械水处理ZSC3/660泵站用水处理装置使用说明书一、水处理设备在矿山项目中的应用发展当今社会科技飞速发展,日新月异。
大部分科研企业科技研发的主线是解决现实生活、生产中存的实际问题。
特别是煤炭企业,在经历了多年的低谷期,大多数存活的煤企一改往日的辉煌。
为了降低成本,提升效益,大部分煤企不得不压缩吨煤成本,分别采取节能降耗、回收再利用、科技创新、甚至减员增效等一系列应对低迷行情的做法。
更有一些煤矿盲目的追加产量,致使设备维护、保养跟不上,造成采煤设备损坏频繁,事故频发;而为了保障产量就必须加大投入,从而提高吨煤成本,从而被市场所淘汰。
在一些大型矿井中电液控液压支架得到普及使用。
简单的操作方法,可实现临架操作、集中控制、实时监控等诸多优势,更加大了电液控液压支架的使用程度。
但电液控对液压支架介质质量要求更高。
日常人们会以“吃细粮”来形容。
在以往的生产中,各企业对液压支架使用的介质很少关心。
往往是直接单一的以矿井原水作为液压支架的供液介质。
水中含有大量杂质、微生物和金属离子。
这些介质会造成液压支架的反冲洗滤芯堵塞、操纵阀阀芯和液压缸缸筒出现划痕。
液压缸缸筒出现划痕造成缸筒镀层出现不同程度的脱落,使得缸筒生锈,最后造成液压缸内部串液,整个液压系统瘫痪。
有些矿井使用乳化液和水作为液压支架的供液介质,存在的问题是往往以应对检查为目的,不能按要求及时、精准的添加乳化液。
加上工作面严重的跑冒滴漏。
使得乳化液的投入变得浪费,没有实际意义,反而增加了成本。
即使添加乳化液合乎要求,但乳化液的单一使用并不能起到很好的润滑、防锈作用。
二、产品优势公司泵站用水处理装置,严格依照MT76-2002《液压支架(柱)用乳化油、浓缩物及高含水液压液》的标准进行设计并制造,是为煤矿行业量身定制的专业水处理设备。
我公司与业界不同公司合作研发配件,惠请多位专家进行技术论证。
我们的水处理设备主要用罐式过滤器对水进行处理,能去除水中的金属离子,微生物,颗粒物,配有新型的电动浮球阀,控制水处理实现过滤加水自动化,如有饮用水需求可加装饮用水处理器。
1)MOD : 表示电梯的运行模式。
ÖSTARTUP : 系统启动准备中。
ÖINSPECTION : 外部检修运行模式。
ÖOPP INSPECTION : OPP检修运行模式。
ÖCALIBRATION : 楼层高测定模式。
ÖPARKING : 锁梯模式。
ÖAUTO : 自动运行模式。
ÖOPP AUTO : OPP自动运行模式。
ÖAUTO REPEAT : 反复运行模式。
ÖINDEPENDENT : 独立运行模式。
ÖATTENDANT : 司机操作模式。
ÖFIREMAN CONTROL : 消防运行模式。
ÖEACH FLOOR STOP : 每层停止模式。
ÖFIRE CONTROL : 火灾管制运行模式。
ÖSEISMIC VERY LOW : 地震管制运行模式。
ÖSEISMIC LOW : 地震管制运行模式。
ÖSEISMIC HIGH : 地震管制运行模式。
ÖUPS CONTROL : 停电管制运行模式。
ÖGENERATOR CONTROL : 发电机运行模式。
ÖMOVING HOUSE : 搬家运行模式。
ÖOIL TEMP LOW : 低温检测油温传感器模式。
ÖOIL TEMP HIGH : 高温检测油温传感器模式。
ÖAUTO TUNING : 马达自学习功能模式。
ÖRESET : 系统重新设定中。
2)FLR : 表示现在电梯所在楼层。
3)DIR : 表示电梯运行方向。
停止时表示 ‘ - ’。
4)ACT : 表示运行状态以及错误警告。
ÖSystem Check : 正在准备 系统开动中。
ÖNot Calibration : 楼层高度测定没完毕。
★ 自动运行一定需要楼层高测定完毕。
CENTUM-CS3000生产控制系统《操作手册》陕西自威能动化工程公司1. 操作和监视功能启动.在设备的操作和监视之前,需要启动DCS的操作和监视功能,本章说明了操作和监视功能的启动步骤.启动操作和监视功能当在HIS通用的对话栏选择[Startup] 时, 操作和监视功能按如下的启动:1. 合上电源启动计算机的2. 输入用户名和密码. 进行登录3. 操作和监视功能将运转.TIP当在HIS 通用对话栏选择[Auto Logon] 时, 计算机上电时运行Windows,启动操作和监视功能.2.流程图窗口调用本章将说明如何调用设备基本操作和监视功能的流程图窗口.流程图窗口可以直接使用窗口的层次结构进行调用.⏹ 流程图窗口的属性流程图窗口依据它们的属性归类为三种类型.•流程图属性的流程图窗口通过流程图按钮调用目标进行操作.•总貌属性的流程图窗口通过总貌按钮以及流程图按钮调用目标进行操作.•控制属性的流程图窗口通过控制按钮调用目标进行操作.2.1 直接调用流程图窗口流程图窗口可以在系统信息窗口处通过按流程图按钮直接调用, 在导航窗口选择相应的流程图窗口, 或者在工位调用栏输入相应的流程图窗口名.⏹ 从系统信息窗口处调用流程图窗口可以从系统信息窗口通过窗口调用菜单或工具面板进行调用● 从窗口调用菜单进行调用1. 在系统信息窗口选择窗口调用菜单按钮.2. 窗口调用菜单将显示出来.3. 在窗口调用菜单选择流程图按钮.4. 将打开一个流程图属性的流程图窗口.图:在流程图调用菜单中的流程图按钮● 从工具面板调用1. 在系统信息窗口选择工具面板按钮.2. 工具面板将显示出来.3. 在工具面板选择流程图按钮.4.一个流程图属性的流程图窗口将会显示出来.图在工具面板中流程图按钮从导航窗口调用1.在系统信息窗口调导航按钮图调导航窗口2. 将显示导航窗口.3. 在导航窗口直接双击相应的流程图窗口.图从导航窗口调用4. 在以上示例中,一个总貌属性的PLANTOVERVIEW流程图窗口将被打开.⏹ 从工位输入对话栏调用在系统信息窗口选择工位输入按钮图调工位输入对话栏2. 工位输入对话栏显示出来.3. 在工位对话栏直接输入相关流程图窗口的名称.图窗口名称输入实例4. 在以上的示例中, 一个名为GRAPHIC1 的窗口将被打开.2.2 使用窗口层次结构调用流程图窗口当使用窗口层次结构时,流程图窗口可以作为用户定义的窗口,上位窗口或者层次窗口进行调用.⏹ 调用一个用户定义的窗口本节解释了如何使用窗口的示例调用用户定义窗口.图窗口层次1示例1.选择流程图属性的流程图窗口2并激活它.2.流程图窗口调用菜单或工具面板选择流程图按钮.图调用用户定义窗口示例3.流程图属性的流程图窗口3 (该流程图属性的流程图窗口已在激活的流程图层次结构下),将被打开.调用上位窗口当已激活的窗口在层次结构上存在上位的窗口时,可以从当前激活的窗口调用上位窗口.本节解释了如何使用如下的窗口层次结构调用上位窗口的示例.图窗口层次结构2的示例1. 选择控制属性的流程图窗口4并激活它.2. 在系统信息窗口选择操作菜单按钮.3. 操作菜单将显示出来.4. 在操作菜单选择上位按钮.图调用上位窗口示例5.趋势窗口2 将被打开调层次窗口如果窗口同时显示一个层次窗口,则在系统信息窗口,选择左右按钮可以调用层次窗口.本节解释了如何使用如下所示窗口层次结构调用层次窗口的示例.:图窗口层次结构3示例1.选择流程图属性的流程图窗口并激活它.2.在系统信息窗口选择操作菜单按钮.3. 操作菜单将显示.4. 在操作菜单选择左边按钮.5. 流程图属性的流程图窗口3将被打开.6. 再次选择左边按钮.7. 流程图属性的流程图窗口2将被打开.图调层次窗口的示例3. 操作和监视功能有帮助的特征操作和监视功能提供许多有帮助的功能特征, 因为这些功能可以与通用的窗口应用程序同时运行.基于这些特征, 本章解释了如何使用如下的功能:•在监视设备运行的同时调通用窗口应用程序.•在使用通用窗口应用程序的同时调操作和监视窗口•以相同的格式一直显示多窗口.3.1在监视装置运行的同时调通用窗口应用程序在操作/监视装置的同时,可以调用通用的窗口应用程序,通过选择窗口应用程序或者直接运行该程序.选择通用窗口应用程序1. 当操作监视窗口激活时,选择一个通用的窗口应用程序.2. 该选择的通用应用程序窗口将被激活,并且显示在画面的最上部.图选择通用窗口应用程序的示例⏹ 运行通用的窗口应用程序1. 当操作和监视窗口激活时, 运行通用的窗口应用程序.2. 一个通用的窗口应用程序将被打开.3.2 返回流程图窗口使用循环操作功能,当采用通用窗口应用程序时,可以将当前的流程图窗口显示在画面的最上部. 循环操作通过一触操作可以将一组操作和监视窗口显示在画面的最上部或最下部.⏹ 循环操作1.当使用通用窗口应用程序时,在系统信息窗口选择循环按钮图循环按钮在系统信息窗口2.在后面显示的流程图窗口将移到前面.图循环操作3.3 以相同的格式显示多窗口-----------动态窗口设定一组操作和监视窗口可以在一次调用或者存储. 这个功能就叫作动态窗口设定功能,通过使用动态窗口设定功能,在以后的动态窗口方式显示和存储操作和监视窗口的位置和状态.⏹ 存储窗口1.在系统信息窗口选择工具栏按钮.图调用工具栏2.工具栏面板将显示出来.3.在工具栏面板调存储窗口设定按钮.图在工具面板栏存储窗口组4. 此时窗口的位置和状态将被存储.选择存储窗口组按钮时,该操作存储所有将要显示操作和监视的窗口.⏹ 调用已存储的窗口1.操作当操作画面在窗口方式时按存储窗口组按钮,当选择对应的按钮时,操作和监视窗口将被激活.当操作画面在全屏方式时按存储窗口组按钮, 当选择对应的按钮时,窗口以主窗口的形式进行显示.参照调用操作和监视窗口的步骤,请参照第二章的流程图窗口中的流程图窗口调用.2.作为动态设定的窗口,将一次全部被打开.4. 仪表面板的操作仪表面板块的功能是显示功能块和数据. 除了显示状态和数据,仪表面板也用于数据输入和状态的改变,本章解释了如何操作这些仪表面板块.4.1 数据输入数据可以通过数据输入对话栏面板或通过增/减操作对话栏. 本节解释了如何使用这些方法输入和改变这些数据.也解释了如何输入数据项.⏹ 从数据输入对话栏面板操作1. 在仪表面板块调数据输入对话栏按钮.图调数据输入对话栏面板3.数据输入对话栏面板将显示出来.图数据输入对话栏显示示例4. 在数据输入区输入数据,并按回车键.5. 如果设定超出高低限,则再确认窗口将会显示出来.6.确认数据值.改变数据项1.在数据输入对话栏,选择按钮图调数据项改变对话栏2. 数据项改变对话栏将显示出来.图数据项改变对话栏显示示例3. 在数据项改变对话栏,选择新的数据项并按[OK]按钮.图选择数据项4.在数据输入对话栏数据项名称将改变.图改变数据项名称在以上的示例中, 显示的内容将从[MV] 变为[PH], 此时将可能改变PH的值.从增/减操作对话栏进行操作1. 使用鼠标在仪表面板上选择设定值或操作输出值的操作指针.操作输出值在MAN方式下可以改变,同时设定值在自动方式下可以改变.图调INC/DEC 操作对话栏2. INC/DEC 操作对话栏将显示出来.图INC/DEC操作对话栏显示示例3. 选择INC/DEC按钮改变数据值.4. 如果设定数据超出高低限,则再确认窗口将显示出来.5.确认数据值.警告•如果选择的指针没有发生变化,则INC/DEC操作对话栏将不显示.•当测试功能运行时,登录TESTUSER时再确认窗口不弹出.4.2 改变块的工作方式功能块的操作状态叫做块的工作方式. 本节解释了如何改变块的工作方式.从块的方式改变操作对话栏进行操作1. 选择块工作方式显示区(在该显示区块的工作方式如显示: AUT和MAN状态).图调仪表块工作方式变化操作对话栏2. 仪表块工作方式变化操作对话栏将显示出来.图仪表块工作方式变化操作对话栏显示示例3. 在仪表块工作方式变化操作对话栏,选择工作方式按钮进行变化.对于SEMI工作方式,选择CAS按钮变化为SEMI.4. 选择任何的按钮都将会有一个要求确认的窗口显示出来.5.执行确认操作.5 当信息产生时操作过程中产生的信息包括系统定义的信息以及用户定义的信息,这两种信息都是用来提示操作员系统状态已经发生了变化,过程操作状态和事件信息的产生是以过程信息形式表示的.本节解释了如何去确认和寻找在过去时段所产生的信息.5.1 确认所产生信息的类型和内容与操作和监视功能相关联时,可以产生不同种类型的信息.当信息产生时,在系统信息窗口和导航窗口,其相应的信息按钮进行闪烁,以提示操作员:信息产生了.本节解释了如何去确认所产生信息的类型及内容.从系统信息窗口进行确认当一个过程报警信息,报警器信息,系统报警信息或操作员指导信息产生,则在系统信息窗口相应的按钮将闪烁并产生信息报警声音.图系统信息窗口中的按钮1. 当听到一个信息声音时,在系统信息窗口检查闪烁按钮,以确认信息产生的类型.2. 选择信息显示区或者在系统信息窗口闪烁的按钮.3.相应的信息窗口将会显示出来.4.一次确认所有的信息时,选择确认按钮.单独确认信息时,先选择要确认的信息,然后再选择确认按钮.图确认操作员指导信息时的示例5. 当对一组信息进行确认时,所有未被确认的信息都将被确认,单独确认时,只有选择了的信息才被确认.•交互式信息确认.一个交互式操作员指导信息只能单独确认.在操作员指导窗口,选择所要进行确认的操作员指导信息,然后选择确认按钮,操作指导单独确认窗口,将显示所选择的交互式信息.图交互式信息确认的示例警告在操作员指导信息或系统报警产生的情况下,选择删除按钮,并确认后,将删除相关的信息.从导航窗口进行确认当过程报警信息, 系统报警信息或者操作员指导信息产生时,信息声音以及在导航窗口的相关的符号,将要闪烁.?: 当过程报警或报警器信息产生时颜色变化.: 当操作员指导信息产生时颜色变化.: 当系统报警信息产生时颜色变化.图在导航窗口的信息符号1.当听到信息声音时,在导航窗口通过检查符号的颜色以确认产生信息的类型.2. 在系统信息窗口选择导航按钮.图调导航窗口3. 显示导航窗口.4. 在导航窗口双击颜色改变了的信息符号.5. 相应的信息窗口将显示出来.6. 在信息窗口确认信息的内容.当确认信息时,使用与系统信息窗口相类似的步骤进行确认.警告当正在进行窗口转换的同时信息产生时,显示操作指导窗口和其它窗口,工位标记或信息符号将闪烁,以提示操作员产生了信息.•当过程报警或报警器信息产生时,相应的工位标记(过程报警窗口,仪表面板窗口,调整窗口,SFC窗等)将闪烁.• 当系统报警信息或操作指导信息产生时,则相应的信息符号(系统报警窗口或操作员指导窗口)将闪烁.5.2滤波查找信息一个在过去产生的信息可以进行再显示确认. 这可以用滤波对话栏或功能块来搜寻已经发生的信息.⏹ 使用滤波对话栏搜寻信息使用滤波对话栏去寻找在以前产生的过程报警信息,报警器信息,操作指导信息或系统报警信息.在下例解释了如何去寻找一个过程报警信息:1.在过程报警窗口选择滤波按钮.图调滤波对话栏2.滤波对话栏将显示出来.图过程报警滤波对话栏显示示例3. 在滤波对话栏指定要搜寻报警的类型和范围,然后按[OK]按钮.4. 在过程报警窗口将显示所搜寻到的过程报警.使用功能块搜寻信息与功能块相关的信息可以从功能块进行调用.以下解释了从趋势窗口如何调用过程报警信息.1.在趋势窗口选择趋势笔.图选择功能块2. 在系统信息窗口,在窗口调用菜单选择过程报警按钮, 或者在工具栏选择过程报警按钮.图选择过程报警按钮3. 过程报警窗口将打开,在趋势窗口中选择笔的(FIC001)相关的过程报警信息将在此显示.图显示过程报警窗口的实例6. 读过程数据趋势使用趋势记录功能读过去数据的趋势.使用该趋势记录功能,从装置上采集的数据可以进行存储,而且存储的数据可以进行显示.6.1 在趋势窗口确认数据在趋势窗口显示采集的数据.在趋势窗口,数据可以它所采集的形式进行显示,或者再显示以前采集的数据.在趋势窗口显示采集数据1. 调趋势窗口.请参照调趋势窗口的步骤,请参照第二章的流程图调用.2.趋势窗口以图形或当前数据值的形式显示所采集的数据.图趋势窗口显示实例6.2 改变已分配好的趋势笔在趋势窗口中已分配好的趋势笔,可以再重新分配.趋势分配可以通过操作趋势笔分配对话栏或者通过选择已存储的趋势文件.本节解释了对已分配好的趋势笔如何进行改变.从趋势笔的分配对话栏进行操作1.在趋势窗口的工具栏选择如下的按钮选择.2.将显示笔的分配对话栏.图显示笔的分配对话栏(笔分配)3. 在笔的分配对话栏设定采集的数据和高/低限. 如果没有指定高/限, 则在趋势图中将采用趋势笔分配定义组态中的值.4. 在趋势窗口显示所要显示的数据,在[Display]下隔开相应的检查栏.通过文件选择改变笔的分配1.在趋势窗口在工具栏选择如下的按钮.2.将显示对话窗口,选择已存储过的趋势文件.图显示打开的对话栏实例3. 选择目标文件4. 选择[Open] 按钮5. 所选择的数据存储文件将在当前的窗口进行显示.警告改变窗口笔的分配后,再次调用窗口时,先前的窗口分配将会被覆盖.6.3 改变/显示趋势参照模型在趋势窗口, 趋势参照模型作为趋势流程图显示时的一个样图. 本节解释了如何去产生和显示趋势参照模型.产生趋势参照模型1.I在趋势窗口,在工具栏选择如下的按钮.2.一个用于趋势数据存储的对话窗口将显示.图作为一个Save As 的对话显示实例3. 指定要存储的趋势数据文件,以及文件的存储位置.4. 选择[Save] 按钮.5.将显示注释输入对话栏.图输入注释对话栏实例在趋势窗口改变显示笔的注释,输入新的注释.6.选择[OK] 按钮显示一个趋势参照模型1.在趋势窗口,在工具栏选择如下的按钮.I2.将显示笔的分配窗口.图显示笔的分配对话栏(参考模型)3.在笔分配对话栏选择[Specify File] 按钮.4.将显示一个对话栏; 选择一个趋势参照要存储的文件.图显示一个打开的对话栏5. 选择一个包含参照模型的文件进行显示,然后选择[Open]按钮.6. 在笔分配对话栏, 选择笔号左边的检查按钮,这使得所选择的趋势参照模型与其笔的检查标记相符.7. 从公共按钮栏, 选择作为趋势参照模型的数据进行显示.8. 选择[OK] 按钮.9. 在趋势窗口的工具栏,选择如下的按钮.在趋势窗口将显示趋势参照模型.再次选择这个按钮,将释放趋势参照模型,并返回到先前的采集数据显示状态.7. 输出屏幕印象文件使用屏幕打印功能输出屏幕印象文件. 除屏幕印象文件当前显示之外,使用屏幕打印功能,可以将屏幕印象文件进行多次输出.7.1 输出当前显示窗口的屏幕印象文件输出当前显示窗口的屏幕印象文件时,印象文件的一部分或全部都可以输出.另外,屏幕印象文件也可以向送到打印机一样,存储到文件中.I.仅仅输出印象文件窗口的一部分如下解释了如何在当前显示的所有的窗口中输出一个特定的窗口到打印机.1.显示当前的一个窗口时,在工具栏按如下的按钮.2. 按钮选择到的窗口的印象文件,将输出到打印机.在以下显示的实例中,在流程图窗口按对应的按钮,则仅输出流程图窗口印象文件,而其它的窗口不输出.图打印机输出1实例⏹ 输出屏幕上的所有印象文件1. 在系统信息窗口选择如下的按钮.2. 所有在屏幕上显示的印象文件输出到打印机.在如下显示的实例中,所有印象文件包括通用的应用窗口印象文件,都将输出到打印机.图打印机输出2实例⏹ 输出屏幕映象到文件中1.在系统维护,HIS设置窗口,选择打印机.HIS设定窗口显示实例请参照1.HIS设定窗口的调用步骤,请参照第二章的,流程图窗口调用.2. 切换选择栏转入[Output File]打印机表格栏.3. 在按钮栏选择输出屏幕印象文件到打印机。
