5500膜式溶解氧传感器系列

CLEAN DO5000溶解氧控制器和溶解氧控制器价格CLEAN DO5000溶解氧控制器 标题：CLEAN DO5000溶解氧控制器CLEAN DO5000 溶解氧控制器 CLEAN DO5000 溶解氧控制器，专为养殖，循环水等工业溶解氧浓度控制分析而设计。

可选配极谱式或原电池式溶解氧电极。

经手动设置可进行自动盐度补偿和气压补偿。

其先进的技术能满足各种高要求的测试需要。

CLEAN DO5000 溶解氧控制器 特点 ● 适合养殖、制药、工业流程的溶解氧分析控制应用。

● 原电池法 (Galvanic) 测量系统与极谱法 (Clark) 测量系统，用户自由设定应用。

● NEMA4X ，IP65 防护等级：全天候防水防气。

● 温度/盐度/大气压力补偿功能。

● 二级密码保护：防止未经授权的更改设置。

● 多行显示液晶屏幕；可自由开关的高亮度 LED 橙色背光。

● 控制模式：(LIT) 开关量控制。

● 两路继电器触点开关：可独立设定高低点控制和迟...厂家：上海政泓 市场价格： 优惠价格：百度搜索联系CLEAN DO500台式溶解氧测定仪 标题：CLEAN DO500台式溶解氧测定仪CLEAN DO500 台式溶解氧测定仪 100*74mm LCD 大屏幕数据显示，120度大视角，可旋转式支架，CLEAN DO500 台式溶解氧测定仪在溶解氧检测领域被广泛运用。

CLEAN DO500 台式溶解氧测定仪 特点 ● 100*74mm 超大LCD 显示屏幕，120度大视角。

● 防刮抗磨损屏幕，防泼水按键/面板。

● 差分信号电路设计，有效防止干扰。

● 可选配Clark 极谱式电极或Galvanic 原电池式电极。

● 自动温度补偿。

● 盐度/大气压力输入后自动补偿。

● 管道压力/液位深度输入后自动补偿。

● 电极标定结果显示：Offset 偏移量/Slope 斜率。

● 已标定点数显示。

YSI 5000YSI 5000/5100溶解氧测量儀操作手册目录概述： 2控制： 3356设置 6 显示设置7 报告设置7 自动稳定设置8 系统设置9校准10 溶解氧校准10 自动校准10 溶解氧校准（手动）11 气压计11 盐度11 零校准12 操作14主模式14 测量14储存15浏览15发送16应用模式17 OUR17 SOUR 18遥控20 诊断22 历史记录22 传感器22 参数复位23242425 附录B26附录C－单位换算表26附录D －遥控命令语法 27概述：5000系列溶解氧分析仪专门设计用于实验室的溶解氧及BOD 测量。

全部选单操作易于使用；内部储存器可储存100组读数；自动稳定检测使读数达到稳定时自动报读，膜检测当膜破损时自动警示。

仪器上的一切功能均可通过RS232接口由电脑直接操控。

操作软件亦可由用户自行升级。

此外，5100型还内置了OUR/SOOUR 测试软件，可快速自动测定活性污泥的活性。

5100型还内置了气压针，能够进行自动气压补偿及自动校准，更可外接条形码阅读器或电脑键盘，以便于数据输入。

控制： 面板5000/5100型控制面板如下图：显示屏键模式开/关MODE 键STORE REVIEW SEND CALIBRATE四个软键的功能显示在显示屏的下端，这些软键的功能将随模式的变化而不同。

[Mode]键和软键用于菜单间的引导，[Mode]键用于两个主操作模式间的循环，按一个软键将导出一组新的软键功能（选单）。

[Mode]键也用于返回上一级选单。

软件流程图下图是500/5100型两个操作模式软件的流程图，其中阴影的方框只适用于5100型。

背板仪器背板包括了电源插口，探头、条码阅读器/外接电脑键盘接口以及RS232串行口，如图所示，条码阅读器和外接电脑键盘共用一个接口，此功能仅5100型可用。

1．电源插头：电源输入为-4.5至5.5V AC，最小电流350ma。

2．探头接口：探头接口是一个8针小型DIN接口。

溶解氧传感器膜式
溶解氧传感器是一种用于监测溶液中溶解氧浓度的设备。

膜式溶解氧
传感器是常用的一种类型，其基本原理是利用一种透氧膜将测量环境
隔离，使氧气可以从测量液体中渗透到传感器内部。

传感器内部的电
极测量氧分压，进一步计算出溶解氧浓度。

膜式溶解氧传感器的优点是易于维护且反应迅速。

传感器的膜可以更换，保证测量精度并延长使用寿命。

同时，传感器反应时间短，响应
迅速，可实现实时监测。

此外，膜式传感器适用于液体和气体介质，
在水处理、环境监测等领域广泛应用。

然而，膜式溶解氧传感器也存在一些缺点，例如温度、压力等环境因
素对传感器响应的影响，以及传感器长时间使用后可能会影响膜的透
氧性能。

此外，传感器的精度也会受到污染物、颗粒物等因素的影响。

因此，在使用膜式溶解氧传感器时需要注意环境因素的影响，并进行
定期维护以保证传感器的正常运行和测量精度。

总的来说，膜式溶解氧传感器是一种重要的测量设备，其优点包括易
于维护且反应迅速。

然而，需要注意环境因素的影响，并进行定期维
护以保证传感器的正常运行和测量精度。

重要提示：使用前，请先阅读以下使用说明6155光学溶解氧膜套件的设计，可使6150光学溶解氧传感器的用户完成光学表面的配件更换。

为确保传感器的最高精度，YSI推荐每年更换一次光学溶解氧膜。

6155膜套件使用方便，用户可自己完成膜的更换，不需要将传感器返回YSI技术服务中心处理。

下文将详细说明如何更换YSI光学溶解氧传感器的光学溶解氧膜。

特别提示： 6155溶解氧膜必须一直保持在高湿度条件下运输和贮存，在新更换膜之前，包装应该完好无损并未曾打开过。

一旦按如下方式，把膜安装到6150溶解氧传感器上，重要的确保膜始终处于100%湿度的环境下。

因此，更换完膜并安装好传感器系统后，带有膜的溶解氧探头应该浸在水中保存，或者贮存在含水的密封校准杯中，确保空气处于水饱和状态。

如果由于一时疏忽使得传感器暴露在周围的空气中超过2小时，请参看下文的传感器保养说明。

6155膜安装说明请参照下面的图示说明更换YSI光学溶解氧膜。

以下操作步骤适用于安装或拆卸水质监测仪上的探头。

•从6150光学溶解氧传感器上卸下清洁刷，放置在一旁，待用。

•在6155套件中取出1.6毫米的六角器，旋下传感器表面的3个螺丝（如上图所示），放置在一旁，待用。

然后，从钛金属刷轴上取出旧膜。

•从6155套件的含水容器中取出一片新膜，并彻底干燥膜的背面。

同时，请确保溶解氧膜的安装槽中没有水分残留，安装槽可用擦镜纸轻按擦拭或用轻柔的压缩空气干燥。

切记不可加热干燥膜件。

•确保在安装槽的凹槽上正确放置一个完好的密封圈。

•将溶解氧膜安装在刷轴上，使膜上的孔与探头表面的孔一一对准，确保传感器孔位于探头表面的光纤尾部。

在下一步操作之前，一定要确保传感器孔与探头光学口完全契合。

•装入螺丝，轻轻转动，以使其进入准确的位置，再用1.6毫米的六角拧器器轻拧一下即可。

装螺丝时一定要小心仔细，以免刮伤膜表面。

注意：如上图所示，把六角起钉器的长端插在螺丝上，然后转动起钉器的短轴，动作一定要轻，以免螺丝拧得过紧。

Operating ManualGWO 5610Dissolved Oxygen Sensors for GMH 5630, GMH 5650Specification:Measuring range:Oxygen partial pressure: 0 ... 1200 hPa O2Temperature:-5,0 ... 50,0 °CElectrodes:Active membrane type platinum/lead, integrated-NTC-ResistorResponse time:90% in 10 sec., temperature dependingLife time: 3 years or more, depending on application and maintenanceOperating pressure:max. 3 barShaft diameter:Ø 12,0 ±0,2 mmLength over all:approx. 170 mm incl. cable glandIntegration length:approx. 100 mmWeight:approx. 120 gConnection:approx. 2 m cable, 7-pole bayonet plug.(optional longer cables possible)Working temperature:0 ... +40°CStorage temperature: 0 ... +60°CStandards and directives:The sensors comply with the following Council Directives on the approx-imation of the laws of the Member States:2011/65/EU RoHSApplied harmonised standards:EN IEC 63000 : 2018Note: The sensors contain lead, but according to Annex IV [1b] / forsensors with "lead anodes in electrochemical oxygen sensors"this is exempted from the restriction.Scope of supply:∙Sensor body∙ 2 Membrane heads∙Electrolyte∙Filling pipette∙ 2 polishing foils (plastic, pink)GHM GROUP - GreisingerGHM Messtechnik GmbH | Hans-Sachs-Str. 26 | 93128 Regenstauf | GERMANYTel.: +49 9402 9383-0 | | www.greisinger.deDesign of Sensor GWO 5610Lifetime:At the end of the Lifetime, the signal of the sensor is dropping rapidly. The sensor evaluation in % therefore e can only be taken as a relative measure. An evaluation of 70% does not mean that 70% of lifetime is left, but that the electrode signal has 70% of a good state reference.Note: The sensor state evaluation will be stored after a successful calibration of the oxygen sensorThe nominal lifetime may be reduced due to the application. Negative effecting are:- Extreme storage and operation temperature- D irty water during measuring- Mechanical stress to sensor membrane- Dry storage of filled sensor- Permanent use at higher CO 2-concentrationsMounting/Operation Position:The optimum position is with sensor membrane pointing downwards.Measuring Precision: The precision can be influenced due to:- To less flow- Water and sensor temperature have to be the same, most exact measuring is done, when calibrated at measuring temperature.Generalfilling hole shaft membrane head platinum elec-trode protective flask The oxygen sensor is an active sensor. It consists of a platinum cathode, a lead an-ode and potassium hydroxide (KOH) as an electrolyte. If oxygen is present, it is re-duced on the platinum cathode and the sensor delivers a signal. If no oxygen is pre-sent, no signal is delivered. The anode is consumed by the oxygen measurement.The sensor ages. Furthermore, the sensor loses liquid through the permeable mem-brane, in particular, when it is stored in dry air. Therefore, it should be checked andmaintained regularly and replaced as necessary. (p.r.t. sensor maintenance)Make it a rule to always store the electrode in a humid environment- in the storage flask filled with water or- in another container filled with waterIf electrode has not been used for some time, clean membrane with softcloth and remove deposits, if any (algae, bacteria etc.).Attention: The membrane is delicate – if damaged, caustic electrolytegets lost and the sensor shows wrong signal. DesignThe electrode housing is made of ABS. With the exception of the electrode shaft all parts need to be maintained regularly and be replaced if necessary. o Protective flask : The protective flask is used to moisten the membrane. This prolongs service life of the electrode. The protective flask contains water. Attention ! Use water only; never use potassium chloride (KCI); this is only re-quired for storage of pH-electrode.o Membrane head : the membrane head is covered with a Teflon membrane. It will be filled with KOH electrolyte and screwed onto the electrode shaft (no airbubbles). Damages in the membrane, large air bubbles or air bubble rings in the membrane head will result in erroneous measurements. This may also be the rea-son for errors in the calibration.The membrane head (GWOK 02) is a spare part and can be ordered individually. o Filling hole : If the electrode is used at high temperatures or if it has been stored without its protective flask for a longer period of time, some electrolyte will be lostdue to evaporation. Please refer to Refilling description below.DANGER Attention when working with electrolyte: The electrolyte is caustic! (strong base, KOH) Avoid contact to skin, protect Your eyes !Visible Residues in the Inner of Membrane Head:As a reaction product in operation, there will be lead oxide (red and brown – from the reaction with oxygen) and lead carbonate (white – from the reaction of carbon dioxide) in the inner of the sensor.These substances may accumulate visibly at the membrane, but usually have now negative effect on the operability. Within a maintenance cycle the residues can be washed off the membrane nearly completely.Significant deposits on the membrane and matt platinum electrode.Deposits already have an effect on the measurement.=> Carry out maintenance to remove these.Slight deposits on the edge of the electrode, predominantly blank platinum elec-trode.No significant influences on the measurement to be expected.=> Maintenance not absolutely necessary.Deposits on the membrane, bare platinum electrode.=> no maintenance required.Polished platinum electrode during maintenance.Before screwing the membrane head on sensor body again they should be washed off, to avoid them getting in be-tween platinum cathode and membrane.A fast occurrence shortly after first filling or an unusual high amount of them (e.g. within some days) may be a sign of air in the sensor – either because of incorrect filling (bubbles), not sufficiently closing membrane head or filling screw or a leaking membrane.First start of operation of dry sensor GWO 5610 / Refilling of GWO 5610The GWO 5610 can be delivered dry as an option. Therefore the sensor is easily storable over a long time.The sensor has to be filled timely towards the measuring. After filling a time of ~ 2 hours has to be considered, until the sensor has stabilized.Wear suitable gloves*) and protect your eyes with safety goggles when filling the electrolyte!Do not touch the electrolyte with bare skin, if there was contact rinse sufficiently with water.Material:∙Sensor GWO 5610 with membrane head∙Filling-pipette∙Electrolyte KOH∙Flat blade screw driver∙Paper towel∙Suitable gloves *), safety goggles∙Wash basinFirst Filling:∙Check membrane head GWOK 02: is it in good state? Is Mem-brane undamaged?∙Open filling screw∙Fill pipette with KOH∙First fill the membrane head up to ¾ of its height, screw onmembrane head tightly, rinse excess KOH with water.∙Then carefully fill the sensor, try to flick at the shaft from time totime, helping air bubbles coming out. In sum the sensor fillingtakes around 5 ml.∙If there are no more air bubbles and the filling hole is full, closewith filling screw.∙Rinse excess KOH with waterFigure: Filling with pipette ∙Turn sensor upwards: Are air bubbles visible below the mem-brane? If so: Refill once again.∙Wait approximately 2 hours for the sensor to stabilize, afterwards calibrate the sensor – the electrode state evaluation should deliver 100%.*) suitable gloves: Acc. to DIN EN 420, e.g. natural latex, natural rubber, butyl rubber, nitrile rubber,polychloroprene, fluorinated rubber.Sensor Maintenance of GWO 5610If the sensor can no more be calibrated or only unstable values are displayed, it has to be maintained or even or the membrane head has to be exchanged.Wear suitable gloves*) when filling the electrolyte! Do not touch the electrolyte with bare skin. If there was contact rinse sufficiently with water.Material:∙Sensor GWO 5610, eventually spare membrane head GWOK 02∙Filling pipette∙Electrolyte KOH∙Flat blade screw driver∙Paper towel∙Polishing foil (pink)∙Suitable gloves *), Safety goggles∙Wash basinMaintenance is basically the same as the first filling, but first the membrane head is unscrewed and the old electro-lyte is removed.Unscrew the membrane head and the refill opening - Attention! Old electrolyte will now leak out!If the membrane is undamaged and free of deposits, the membrane head can be used again.The platinum electrode must be bright and free of deposits!Wipe off existing deposits from the platinum electrode with a cloth, if necessary polish the electrode using the pink polishing foil.The filling of the sensor is like described bevor.Hints for Operation:a.) Treat device and sensor carefully. Use only in accordance with above specification. (do not throw, hit againstetc.). Protect plug and socket from soiling.b.) The electrode are only suitable for the devices GMH5630, 5650. Unsuitable devices may lead to the destructionof the measuring device and the oxygen sensor.c.) A protective cap, such as GSKA 3600 in plastic or GSKA 3610 in red bronze is recommended for protection ofthe membrane, e.g. for use in bodies of water.Safety guidelines:This device has been designed and tested in accordance with the safety regulations for electronic devices. However, its trouble-free operation and reliability cannot be guaranteed unless the standard safety measures and special safety advises given in this manual will be adhered to when using the device.1. Trouble-free operation and reliability of the device can only be guaranteed if the device is not subjected to anyother climatic conditions than those stated under "Specification".2. Do not use these products as safety or emergency stop devices or in any other application wherefailure of the product could result in personal injury or material damage.Failure to comply with these instructions could result in death or serious injury and material dam-age.3. Attention, caustic! The sensor contains KOH electrolyte (Potassium Hydroxide).KOH may cause burns!Avoid the contact to leaking liquid!When there was contact:- to skin: immediately flush with water for several minutes- to clothing: take of affected clothing.- to the eyes flush with water for several minutes, get medical aid.In case of ingestion:Drink plenty of water immediately, do not induce vomiting! Get medical aid.Disposal instructionsThe electrode contains lead and corrosive electrolytic liquid and must not be disposed of in theresidual waste bin. Do not dispose of together with batteries, risk of explosion!Return it to us, freight prepaid. We will then arrange for the proper and environmentally-friendlydisposal.Private end users in Germany have the possibility of dropping off the product at the municipalcollection centre。

溶解氧测定仪换膜及校正1、电解液：称76克氯化钾和56克氢氧化钾用除去二氧化碳水定容至1升。

此溶液必放置24小时后才能用。

测啤酒膜为M2956A，测麦汁膜为M2952A。

2、把仪器测量池取下，按仪器上键头方向旋下探头固定螺丝，把探头座旋到探头上，以保护探头电路，再把仪器端电路插头帽旋上，保护插头，避免进水（插头处潮湿数据易出现负值）。

3、首先，用专用工具取下探头防护帽和压膜环（注意帽里的附件顺序，取环要平稳）。

4、取下膜支撑，膜支撑用硝酸（70%）浸泡30秒，用蒸馏水冲洗干净后再用电解液冲洗几次，每次清洗必须做。

注：在两传感器之间不能相互交换膜支撑环5、用自来水冲洗探头，再用蒸馏水冲洗干净，电解池中注满氨水（25%）浸泡15分钟，然后在清水下冲洗电极至少1分钟。

6、把硝酸（70%）溶液加入电解池中，保持时间不能超过3秒钟，然后立即倒出，用清水彻底冲洗干净；（氨水清洗不能达到效果才使用硝酸清洗）。

注：硝酸不能滴在金极上，如不慎滴上，要立即将电极清洗干净并要在主机开机至少4小时以后再校正，只用氨水清洗必须开机稳定半小时以上再校正。

7、再往探头的电解池注入25%氨水，浸泡15分钟，然后在清水下至少冲洗1分钟；（硝酸清洗后必须步骤，不硝酸清洗只要氨水清洗一次就可以，尽量不用硝酸清洗，常用硝酸洗电极反应迟钝，也易出现负值）8、抛光金极，不要把传感器放到干燥的抛光粉中磨，抛光粉中应加适量的水，逆时针旋转30下，用清水冲洗电极，用底片将金极边凹槽处的磨粉清除干净，勿使其残留。

9、用清水彻底冲洗电极，再用电解液冲洗几次。

10、安装膜支撑环（凹槽面向上），向电极充填电解液（用注射器），缓缓地注入，避免产生气泡直到顶部出现液珠，让电解液充满膜支撑上面及四圈，将溶解氧膜从一侧慢慢放下，从一边向另一边推盖上，勿产生气泡，把膜套环平行套下，用滤纸擦净探头边缘。

11、将探头安装到仪器上，打开电源，让膜曝露在空气中稳定（氨水清洗开机1小时，如果硝酸洗需要开机2小时以上）。