美国华瑞PGM-7320VOC检测仪
73EXPEC-3100挥发性有机物检测仪器作业指导书
EXPEC3100型挥发性有机气体分析仪作业指导书文件编号:编制人:审核人:批准人:1 目的规范仪器操作,正确使用和维护仪器,确保测定结果的准确性。
2.适用范围适用于EXPEC-3100挥发性有机气体分析仪的使用。
3.职责3.1使用人员:按照本作业指导书,正确对仪器使用、维护,做使用登记。
3.2保管人员:负责对仪器进行定期维护、保养。
3.3设备管理员:负责仪器综合管理。
4 主要技术参数5 操作步骤5.1采样前准备5.1.1采样过滤开始采样前必须确保气路入口加装过滤装置,EXPEC3100己在采样探头和探头母座预装了探头除尘膜和烧结不锈钢过滤器,安装时确保这些过滤物件完好无损。
为确保仪器性能和除尘效果,过滤物件应定期更换确保和保养。
5.1.2 校准气体EXPEC3100需要校准气体为甲烷(FID)或异丁烯(PID)。
且至少保持几个月的稳定。
现场校准时,可预先准备含有标准气体的气袋(气袋最终通入标准气体前必须先用标准气体置换2~3次以保证无烃残留)进行现场标定。
校准气体的校准应在每次采样前进行。
5.1.3快速充/放氢气在仪器开机启动前确保氧气钢瓶中有剩余氢气。
填装应遵循以下步骤:(1)检漏:确保外置钢瓶存在相当的氢气压力,将充氢管路连接至该钢瓶出口端对各处转接头进行泄露检测,确保管路无泄漏。
(2)充氢:首先确保仪器顶端的截正阀处于CLOSE状态,确保充氢装置针阀旋至闭合状态(按顺时针方向旋紧)三通球阀旋至进气口方向。
然后,将充氢装置安装到氢气钢瓶上将充氢装置的接头按逆时针方向旋入仪器顶端的充氢接口,注意要旋紧否则会漏气。
接着,打开氢气钢瓶气。
观察到充氢装置压力表显示的压力正常后(与氢气钢瓶压力表显示的压力相近)缓慢打开针阀(按逆时针方向)使得仪器顶端的大压力表缓慢上升至最大(与氢气钢瓶压力相近)。
最后,关闭氢气钢瓶气,将充氢装置的针阀旋至闭合状态(按顺时针方向旋紧),将接头从仪器顶端的充氢接口中按顺时针方向旋出,当听到轻微的泄漏声时,代表接头已逐渐脱离仪器内置钢瓶:当听到轻微的“嘭”一声时,代表接头已完全脱离仪器内置钢瓶将接头从仪器内置钢瓶中完全卸除,此时仪器内置钢瓶充氢完成。
FGM-3300氨气检测仪
华瑞FGM-3300氨气检测仪说明书青岛聚创环保设备有限公司一、产品介绍SP-2104Plus是一款隔爆型、固定安装方式的有毒气体检测仪。
可广泛应用于石油、石化、冶金、化工、消防、燃气、环保、电力、通讯、造纸,印染、污水处理、食品酿造、科研、教育、国防等领域。
二、产品特点1、选择性好,具有很好的选择性,避免了其他气体对被检测气体的干扰2、稳定可靠,在十多年的行业应用中,不断为用户提供持续的安全保障3、多种信号输出,标准4~20mA(三线制)、两级开关量输出,既可方便接入PLC/DCS等工控系统,也可以作为单机控制使用4、友好的人机操作界面,直观、清晰的超高亮LED显示和本地报警指示5、免开盖,红外遥控器操作一体化声光报警器(选配)6、防止误操作,仪器具有超量程、反极性保护,能避免人为操作不当引起的危险遥控器具有探测器识别功能,可实现一对一操作7、不锈钢传感器组件,采用不锈钢传感器组件,可应用于极其复杂、恶劣的工况环境8、丰富的电气接口,具有3/4"NPT F、3/4"NPT M、1/2"NPT F/M、G3/4F/M等多种电气接口,可供用户选择三、产品参数1、检测原理:电化学原理2、采样方式:扩散型3、工作电源:DC10~30V,最大60mA4、功率:<1.5w5、输出信号:4~20mA,报警、故障继电器DC30V 2A(无源)6、负载电阻:<600Ω7、重复性:2%8、电气接口:3/4”NPT F(可选3/4″NPTM、1/2″NPTF/M、G3/4F/M)9、防护等级:IP6510、环境温度:-20℃~+50℃11、环境湿度:10-93%RH(无冷凝)12、环境压力:86~106kPa13、显示方式:LED14、外形尺寸:239×185×118mm(HWD)15、外壳颜色:蓝16、壳体材料:铝合金17、重量: 2.2kg18、CMC证书:京制00000301号19、防爆等级:Ex dⅡCT6四、应用领域石油、石化、冶金、化工、消防、燃气、环保、电力、通讯、造纸、印染、污水处理、食品酿造、科研、教育五、产品配置1、标准配置检测仪主机、操作说明书、标气罩、安装附件2、可选配件声光报警器、遥控器、标准气、减压阀等。
美国瓦格纳WAGNER MMC220木材水分测试仪中文说明书
美国瓦格纳WAGNER MMC220木材水分测试仪中文说明书1、将MMC220木材水分测试仪的后盖打开,安装好电池。
2、开机:按下【ON开关键】显示出:2.2.03、设置树种密度按【树种设置键】,在树种密度表中找到所需要的树种的密度(0.20-1.00)——每按一次加1,从020-100循环,4、读取结果按下【ON开关键】,即可读出该种木材的密度,如数字闪烁跳动,请在按【ON开关键】出现【+】锁定键,即可显示精准的数字结果。
注意:测试结果偏差在1°之内属于正常范围。
MMC220木材水分仪,树种表树种规格。
阔叶树种0.41.......................................桤木,红0.61.......................................苹果木0.49.......................................灰,黑0.58.......................................灰,蓝0.56.......................................灰,绿0.55.......................................粉煤灰,俄勒冈州0.55.......................................灰,红0.60.......................................灰,白0.39.......................................阿斯Bigtooth 0.38.......................................阿斯彭,0.37.......................................椴木,美国0.64.......................................榉木,美国0.55.......................................桦木,纸0.65.......................................桦木,甜0.55.......................................桦木,白0.62.......................................桦木,黄河0.38.......................................巴特纳特0.50.......................................樱桃,黑0.43.......................................板栗,美国0.34..........................杨木,苦瓜杨树0.35.......................................杨木,黑色0.40.......................................杨木,东欧0.64.......................................山茱萸,开花0.50.......................................榆木,美国0.63.......................................榆木,阔叶树种规格。
Tiger VOC Detector 产品说明书
• Humidity resistant PID sensor for the most challenging envi-ronments • Anti-contamination design for extended run time • Detects VOCs from 0 up to 20,000 ppm • Minimum sensitivity 0.001 ppm (1 ppb)• Fast 2-second response time and quick clear down • Detects over 480 VOCs and toxic compounds • Fast start-up with no complicat-ed set-up • Battery life up to 24 hours con-tinual use • Simple to use – minimal training required • Direct USB connectivity for fast data downloadTiger incorporates Ion Science patent-ed photoionisation detection (PID) sen-sor technology with humidity resistance and anti-contamination design, proven to dramatically extend run time in the field.A robust VOC detector Tiger pro-vides a dynamic detection range of 0 to 20,000 parts per million (ppm) with a minimum sensitivity of 0.001ppm (1 ppb), offering the widest measurement range of any other VOC detector onthe market.This handheld VOC detector has the fastest response time on the market of just two seconds and is just as quick to clear down. The instrument can be connected directly to a PC via the USB offering extremely fast data download capabilities.Tiger has been designed for the safe replacement of batteries in hazardous environments. Long-life rechargeable Li-ion batteries give up to 24 hours of use. Fast battery charging allows the instrument to be fully charged in 6.5 hours, while 8 hours of use can be achieved from 1.5 hours charge.Low-cost filters and lamps can be easily changed in seconds, minimis-ing instrument downtime. Inexpensive disposable parts mean the Tiger VOC detector has the lowest running costs on the market.Tiger is a fully upgradeable VOC de-tector with multiple functions to choose from. A base unit can be upgraded with data logging, health and safety and ppb options, remotely, without needing to be returned to the factory.Tiger offers simple, one-handed opera-tion for easy VOC detection. Its rugged design and protective, removable rub-ber boot withstand the harshest envi-ronments.The large, clear back-lit display allows for easy viewing in any light condition. An integrated torch is designed for directing the instrument’s probe into dimly lit areas.Ready to use on start-up the Tiger VOC detector needs no complex set up procedures via a PC to perform ba-sic functions. Its simple-to-use software features require minimal user training.The Tiger handheld VOC detector is a revolutionary handheld gas detection instrument for the rapid, accurate detection of volatile organic compounds (VOCs) within the harshest of environments.KEY FEATURESSTANDARD ACCESSORIES• Rechargeable battery (Li-ion)• Battery charger• Mains adaptor• Rubber boot• Explorer case• Carbon zero filter assembly • PTFE filter disc (dust filter)• Removal tool MiniPID stack • PID lamp cleaning kit• Lanyard (wrist strap)• USB cable• Calibration adaptor• Quick start guide & downloadableinstrument manual。
PGM-7320
PGM-7320 二氯乙醚气体检测仪主要特点MiniRAE 3000是一款广谱手持式挥发性有机化合物(VOC)气体检测仪,采用RAE最新的第三代光离子化检测器(PID),提高了检测精度和响应时间,检测范围达到0.1-15000ppm,选择无线传输模块可以实现与控制台的无线数据传输和远程监控。
第三代PID传感器,响应时间短,检测范围宽大屏幕图文液晶显示,图形菜单显示自动背光显示,内置照明灯,便于黑暗环境使用内置温度湿度压力传感器,自动湿度补偿,保证测量精度无需任何工具快速更换传感器和电池自动识别紫外灯型号传感器和紫外灯自动清洁内置蓝牙和无线传输模块,实现实时无线传输多国语言显示,支持中文防护等级高,完全防尘,可直接用水清洗内置强力吸气泵使用大容量锂电池和碱性电池支持AutoRAE 自动标定系统应用领域工业安全监测室内空气质量检测危险物质检测环境保护监测技术参数物理指标尺寸:25.5×7.6×6.4 cm重量:738g(含锂电池)基本性能采样方式:泵吸式外壳材质:工程塑料,橡胶外套防护等级:IP66(开机)/IP67(关机),完全防尘,可水淋安全等级:UL/cUL认证:Class I, Division 1, Group A, B, C, DATEX认证:II 2G EEx ia IIC T4IECEx认证:Ex ia IIC T4抗电磁辐射:EMI/RF等级:EMC Directive 2004/108/EEC环境温度:-20º C ~ 50º C环境湿度:0% ~ 95%相对湿度(无冷凝)传感器参数传感器类型 10.6/9.8/11.7eV紫外灯的PID传感器检测范围 10.6eV :0.1 ppm ~15,000 ppm9.8eV : 0.1 ppm ~5,000 ppm11.7eV : 0.1 ppm ~2,000 ppm分辨率:0.1 ppm响应时间:(T90) 2s检测精度:10-2000 ppm异丁烯标定点的±3%校正系数:内置超过220种VOC气体显示及操作显示屏:大屏幕图形LCD显示、带自动背景灯显示语言:中文/英语+符号显示内容:实时检测值、TWA值、STEL值、峰值、电池电压、日期时间、温度操作模式:卫检模式(数值显示)或调查模式(图形显示)按键:1个操作键、2个功能键、1个照明灯开关报警参数报警方式:95dB@30cm蜂鸣器,红色LED报警信号:气体超标、电池电压不足、传感器故障、电池电量不足报警报警点设置:单独设置TWA、STEL和高/低报警限值报警点模式:锁定或自动重置数据存储及通讯参数数据存储:内置存储260000点的数据容量(1分钟间隔约2个月)记录内容包括日期、时间、序列号、用户ID、检测点ID等采样间隔:1-3600秒可调数据通讯:USB(通过底座)、RS232(通过旅行充电器)、可选内置蓝牙模块下载检测数据、上传仪器参数设定;可选内置无线模块实现无线数据传输采样泵泵方式:内置泵流速:450~550cc/min电源电池:可充电锂离子电池:4.2V/3300mAH碱性电池盒:4个AA电池运行时间:可连续工作16小时(视工作环境和使用频率)锂电池充电时间:8小时标定标定方式:两点/三点式零点/扩展标定标定存储:可存储8次标定数据,包括标气类型、报警限值设定、及标气参数产品配置PGM-7320主机,含传感器及UV灯锂电池、充电/数据下载底座橡胶保套进气管及水阱过滤器操作说明书资料及软件光盘便携软包。
HDL 第三方产品手册说明书
第三方产品手册目录公司简介背景音乐系统遮阳系统环境控制系统012325262728333437394243465254596530050608111503监测环境系统092129安防系统31照明系统357寸迷你主机/4寸迷你主机中央主机扬声器Kaiterra墙内检测仪睿石mini检测仪协议开合电机蛇形帘天棚帘转弯器、弯轨系列轨道安装技术支持中央空调网关/HOMEKIT 迷你家居款轨道条形格栅灯系列条形泛光灯系列90°可调格栅灯系列磁吸轨道灯系列吊线灯系列格栅射灯系列射灯系列212嵌入式射灯室内被动红外入侵探测器(嵌入式) S-one 智能门锁背景音乐系统高品质的音乐,不仅仅在手机、在PC端、在随身听、电视、在播放器,它更在我们人居的每一个角落中响起,同步我们最爱的歌曲,更有最恰到好处的人工语音,提醒我们家中的状态。
03页码04页码4x20W双分区 全无损格式解码专业DSP音频处理喜马拉雅网络电台超远距离蓝牙播放HD全双工对讲通话安卓6.x,7寸IPS显示屏Airplay/DLNA/Qplay推送WIFI连接,无线掌控,互联互通超强的无线实时对讲、音乐控制4英寸全面屏设计音源:本地音乐、喜马拉雅、第三方音乐APP、蓝牙、DLNA、AUX 完美适配QQ音乐、酷狗音乐等热门第三方音乐APP 支持Micro SD卡、U盘读取播放音乐支持对讲、呼叫功能,可与多台DM839或DM858进行对讲、呼叫支持AUX输入和输出功能支持RS485控制支持WIFI连接拥有定时功能三种情景播放模式和自定义模式选择:Party、Sleep、Relax、Customize 支持门铃联动DM858极简风格UI 超全的曲库最精准的推荐最懂你的音乐伴侣只因云雀之声便知流水雀鸟之音温馨的呼叫通话你我之间只是一键的距离有我就是幸福一家DM839因为相信 所以相遇 追梦路上 无所畏惧 每一段拼搏旅程都彰显着不平凡4寸迷你主机独特的气场 豪华的气质 丰富节目源 8-72分区殿堂级音质 8-12区自由点播与推送无线DLNA推送全无损格式解码2x100W+14x30W在线升级APP全宅无线控制4分区每分区2x30W/8Ω100-240V / 50/60Hz交换机/“手拉手”级联支持无线控制备注:AM8300只配套AM8328使用中央主机AM8328它,天生的王者 它,无限的潜力 它,殿堂级音质流畅的线条,磨砂的表面 你是别墅的主人 它是你一生的伴侣分区扩展机AM830006页码AUX168II功率:20W/8Ω 喇叭单元:6.5"x1,1" x1 最大声压级:102±2dB 有效频率范围:60Hz-20,000Hz 灵敏度:89±2dB规格:97×Ø233mm 开孔尺寸:205-210mm 净重:1.6kgAUX167II功率:20W/8Ω 喇叭单元:5"x1,1"x1 最大声压级:102±2dB 有效频率范围:100Hz-20,000Hz 灵敏度:87±2dB规格:78×Ø205mm 开孔尺寸:180-185mm净重:0.55kgAUX521功率:10W/8Ω 喇叭单元:6.5"x1, 0.75"x1 最大声压级:103±2dB 有效频率范围:90Hz-18KHz 灵敏度:93±2dB规格:70×Ø190mm 开孔尺寸:168-172mm净重:1.0kgAUX644功率:15W/8Ω 喇叭单元:5"x1 最大声压级: 98±2dB 有效频率范围:150Hz-20kHz 灵敏度:86±2dB 规格:280×225×298mm 净重:3.6kg室外全天候防水甲醛、TVOC等环境指标更加在意。
CX Purifier产品说明书
化学品安全技术说明书物品名称: CX Purifier; CX 净化器 修正日期: 2022-07-01符合GB/T 16483和GB/T 17519标准SDS ID: 0160 (CHINA)版本 1.6物品名称CX Purifier; CX 净化器 产品说明在设计的,正常的工作条件下,并根据产品简介安装和维护,包含在此产品内的介质预计不会有危害。
这份安全数据单上显示的分类和危险性仅适用于当纯化介质从纯化室里释放出来的这种极端情况。
该纯化器纯化室内部有筛子结构,以防止纯化介质在使用过程中的泄漏。
注意:有些生产单元有用VCR®管件和塞子密封的,用红色热缩塑封覆盖的进料口。
这个端口绝对不能由终用户打开,因为这将导致介质的泄漏。
供应商的详细情况当地信息 (Local information):艾微美科材国际贸易(上海)有限公司 ATMI International Trading Co,LTD上海市科苑路88号德国中心二号楼523-533室Unit 523-533, Tower 2, German Center, No.88 Keyuan Road, Shanghai 201203, China邮政编码: 201203 Zip Code: 201203电话:86-21-80236500 Telephone: 86-21-80236500应急电话: Emergency Call:86-21-80236500 (上海) 1-703-527-3887 (国际)86-532-83889090 (中国,24 小时应急电话) 电子邮箱:********************************产品用途在线气体淨化器,从盐酸,氯和氯硅烷中除去水分和其它分子杂质。
使用限制仅应用于在产品用途中特指的气体。
特异性靶器官毒性 — 一次接触 - 类别 3 ( 呼吸系统。
) 标签要素 象形图信号词警告危险性说明可引起呼吸道刺激。
美国华瑞PGM-1700便携式COH2S检测仪
PGM-1700便携式一氧化碳/硫化氢检测仪图片由青岛环保网提供一、产品介绍ToxiRAE 3单一毒气检测器体积小巧、外形时尚、性能可靠,除可持续显示有毒气体浓度外,还可显示STEL值、TWA值、峰值,以及电池剩余寿命、标定提示等信息,单独设置高/低浓度和STEL/TWA报警限值,可用于有毒有害环境工作人员的防护。
二、技术参数1、尺寸:8.6×5.5×2 cm2、重量:76g(含锂电池)3、采样方式:扩散式4、外壳材质:不锈钢、工程塑料5、防护等级: IP67,完全防尘,可水淋6、电磁辐射:EMI/RF等级:EMC Directive 89/336/EEC7、工作温度:-20℃~60℃(连续工作)/-30℃~60℃(间断工作)8、环境湿度: 0% ~95%相对湿度(无冷凝)9、A T E X: II 1G EEx ia IIC T4UL/cUL/CSA认证: Class I, Division 1, Group A, B, C, D,T410、I E C E x:Ex ia IIC T411、显示屏:大屏幕液晶显示12、显示语言:英语+符号13、显示内容:气体名称、测量值、电池电量、标定信息14、报警方式:95dB@30cm蜂鸣器、6LED闪烁、内置振动15、报警信号:高浓度/低浓度/TWA/STEL报警、超量程报警、电池电量不足报警16、报警设置:单独设置TWA、STEL和高/低报警限值17、数据存储:内置存储10次报警数据18、采样间隔:红外数据传输19、电池:2/3 AA 锂离子电池,可更换,不可充电20、运行时间:可连续工作2年(视工作环境和使用频率)21、标定方式:零点/扩展标定,手动/自动标定22、传感器:单一EC传感器23、响应时间:12秒(T90)24、具体参数:传感器量程分辨率———————————————CO0-500ppm1ppmCO0-1999ppm 1ppmH2S0-100ppm0.1ppm三、主要特点1、体积小、重量轻,外形时尚2、大屏幕液晶图形显示3、六只红色高亮度LED报警,多种报警闪烁方式4、响亮声音(95dB)报警及振动多种报警方式5、可更换锂电池供电,使用时间长6、不锈钢外壳,防护等级高,完全防尘,可直接用水清洗7、内置数据存储,红外数据传输8、支持AutoRAE Lite自动标定系统四、标准配置1、PGM-1700主机,含传感器、锂电池2、标气帽3、操作说明书4、资料及软件光盘五、可选配件1、标定气体2、AutoRAE Lite自标定平台六、应用领域工业安全监测、危险物质检测、市政工程安全检测。
LCM系列
航空航天 环境控制 机电 过滤 流体与气体处理 液压 气动 过程控制 密封与屏蔽
NLJ INDUSTRY Tel:0592-5685601 Fax:0592-5685603
Racor燃油处理与过滤 派克空气、燃油和机油过滤系统 为全球任何地方、任何环境下的 引擎运转提供了品质保障。
规格和订购信息见9页
特性:
· 2分钟测试周期即可获得快速、精
确的结果。
· 数据项可以是单台设备的页脚
记录。
· 借助内部打印机可以用图形来
表示数据。
· DATμm数据下载软件为LaserCM升级. · 通过手持LCD输入器自动实现300个测试周
期的纪录。
· RS232串行计算机接口。 · 有限级别输出至外部设备,例如:通过
LaserCM提供 ISO标准3项污染数或 NAS1638. 0-12级标准
NLJ INDUSTRY Tel:0592-5685601 Fax:0592-5685603
系统永久污染监控
MCM20
现在,需要连续、永久安装监控的用户也可以使 用颗粒计数方法啦。 MCM20封装在金属盒内,内部元件安装在 可拆卸的机架上,便于维修和标定。 当进行预设置测试操作时,可以获得具有 完整的用户定义PC/PLC控制程序指令的操 作协议。从而,允许用户通过简单的数据格式
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32字符点阵液晶显示器(LCD) 字母数字键盘
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24字母 数据检索 按照ISO标准标定* 粘度范围2~100cst 对于单点取样器:2~500cst 工作温度:+5~+80℃ 环境温度:+5~+40℃ 4分钟测试周期 2分钟测试周期 内存容量:500测试内存 内存容量:300测试内存 12V直流调节电源输入 电池:6×1.5D 磷酸酯相容性 矿物油和石油基油液相容性 最大压力420bar(6000psi) 内置16列打印机 RS232计算机接口 高级静态测试记录器(Astra)壳体重量(kg) 单元重量(kg) DATUM软件和电缆连接包 气候保护器外罩 CE认证 计算机控制
HJ732014泄漏和敞开液面排放的挥发性有机物检测技术导则
泄漏和敞开液面排放的挥发性有机物检测技术导则(HJ733-2014)1适用范围本标准规定了源自设备泄漏和敞开液面排放的挥发性有机物(VOCs )的检测技术要求。
规定了对设备泄漏和敞开液面等无组织排放源的VOCs的检测方法、仪器设备要求、质量保证与控制等。
本导则不适用直接测定泄漏和敞开液面排放源的VOCs质量排放速率。
2.术语和定义2.1泄漏源leaksources指内部含VOCs物料且可能泄漏排放的各种设备和管线,包括阀门、法兰及其他连接件、泵、压缩机、泄压装置、开口阀或开口管线、取样连接系统、泵和压缩机密封系统排气口、储罐呼吸口、检修口密封处等。
2.2开口阀open-endedvalve指阀座一侧接触有机气体或挥发性有机液体,另一侧接触大气的阀门,但不包括卸压装置。
2.3敞开液面源UncoveredLiquidSurface指含有VOCs的生产物料的集输、储存设备的敞开液面及生产工艺废水、废液的集输、储存以及净化处理装置的敞开液面的无组织排放源。
2.4泄漏控制浓度leakdefinitionconcentration指在相关排放标准或法规中规定的,在泄漏源表面或敞开液面测得的,表示有VOCs泄漏存在,需采取措施进行控制的浓度限值(基于经参考化合物校准的仪器的测定读数)。
2.5未检出排放nodetectableemission指在待测源表面测得的VOCs 浓度,扣除本底后,低于标准浓度限值的2.5%时,定义为未检出排放。
2.6参考化合物referencecompound本导则中的参考化合物是指相关排放标准或法规中指定的,作为测定泄漏仪器的校准基准的VOCs化合物。
如某个排放标准中的某个排放源以甲烷为参考化合物,标准浓度限值为“500X10-6mol/mol”。
2.7校准气体calibrationgas指校准时用于将仪器读数调节至已知浓度的VOCs化合物。
校准气体通常是接近相关控制标准浓度限值的参考化合物标准气体。
F732-V型智能型测汞仪操作规程
F732-V型智能型测汞仪操作维护规程一、主要技术参数1、检测线:≤0.05μg/L;2、线性误差:±10%;3、重复性:≤3%;4、稳定性:±0.002/3分钟(在A=0处);5、电源:交流220v/50HZ;6、泵流量调节范围:300~1200毫升/分;7、重量:12Kg;8、外形尺寸:510x330x155(mm)。
二、操作规程1.测汞仪应放置在洁净无汞污染的实验室。
用塑料软管连接仪器左部的气嘴与还原瓶,接通220V电源。
2.开启电源开关及泵开关,打开前盖观察汞灯应点燃,还原瓶内应有气泡出现,预热1小时。
3.待仪器稳定后,按“RESET”键,使微机系统复位,按“T(0)”键,则“T(0)”灯亮,仪器自动进入透过滤调零。
在使用中每半小时左右进行一次此项操作。
4.按“A(0)”键,则“A(0)”灯亮,仪器自动进入吸光度调零。
5.若“P”灯灭时,按“PEAK HOLD”键,则“P”灯亮,仪器具有峰值保持功能,若“P”灯亮时,按“PEAK HOLD”键,则“P”灯灭,仪器消除峰值保持功能。
6. 若“A”灯亮时,按“A/C”键,则“A”灯灭,“C”灯亮,此时仪器显示的是浓度值,若“C”灯亮时,按“A/C”键,则“C”灯灭,“A”灯亮,此时仪器显示的是吸光度值。
7.通过以上程序,即可进入测试,应按汞浓度从高到低的顺序进行,读数后,倒出还原瓶内溶液,并进行清洗,待泵将吸收管线内残余汞蒸汽排除干净,此时数字显示0.000,方可进行下一个样品的测定。
8.若使用仪器所带微机直接计算回归曲线,则依次按“1”“F”键,仪器显示相关系数r。
依次按“2”“F”键,仪器显示截距a。
依次按“3”“F”键,仪器显示斜率b。
依次按“4”“F”键,仪器显示标准差SD。
依次按“5”“F”键,仪器显示变异系数CV。
依次按“6”“F”键,仪器进入计算直线回归方程程序。
依次按“7”“F”键,仪器进入计算标准差和变异系数程序。
美国华瑞PGM-1600可燃气氧气检测仪
美国华瑞PGM-1600可燃气/氧气检测仪说明书青岛聚创环保设备有限公司一、产品介绍SearchRAE是一款可燃气、毒气复合式检测器,可选可燃气LEL及LEL/VOL 双量程传感器、电化学氧气/毒气传感器及MOS传感器,体积小巧,携带方便,内置中文菜单,方便使用,可满足燃气及石油石化行业应用。
二、基本参数1、采样方式:泵吸式2、外壳材质:工程塑料,橡胶外套3、防护等级: IP65,防水,完全防尘4、电磁辐射:EMI/RF等级:EMC Directive 89/336/EEC5、环境温度: -20o C ~ 50o C6、环境湿度: 0% ~ 95%相对湿度(无冷凝)7、显示屏:图形液晶显示器、带自动背光8、显示语言:中文/英语+符号9、显示内容:同时显示两个传感器及实时检测值、峰值、电池电压、存储状态、泵状态10、按键: 1个操作键、2个功能键、1个照明灯开关11、报警方式:95dB@30cm蜂鸣器、LED闪烁12、报警信号:高/低浓度报警、电池电量不足报警、传感器故障报警、泵阻塞报警13、报警设置:单独设置高/低报警限值14、报警模式:锁定或自动重置15、数据存储:使用SD卡数据存储,EXCEL数据格式16、采样间隔:1-3600秒可调17、数据通讯:通过SD读卡器下载检测数据,通过USB(通过底座)、RS232(通过旅行充电器)下载仪器参数18、泵方式:内置19、泵流速:450-550cc/min20、电池: 3.7V可充电锂离子电池碱性电池适配器,使用4节AA碱性电池21、运行时间:可连续工作16小时(视工作环境和使用频率)锂电池充电时间 8小时22、标定方式:零点/扩展标定23、尺寸:21×8.5×6.5 cmv 重量 700g(含锂电池)三、传感器参数传感器配置1个LEL或LEL/VOL传感器、1个EC传感器检测CO/H2S/O2、1个MOS传感器检测甲烷* 传感器检测范围分辨率响应时间(T90秒) 检测误差(标定点) O2 0-30%VOL 0.1%VOL15 <±3%LEL 0-100%LEL 1%LEL15 <±3%LEL/VOL 0-100%VOL/LEL 1%LEL/VOL 15<±3%CO 0-500 125<±3%H2S 0-100 0.130<±3%CO* 0-2000 125<±3%H2S* 0-1000 130<±3%MOS* 0-2000 160<±3%*供货时间待定四、应用领域航空、管道、燃气、化工、政府五、产品配置1、标准配置PGM-1600主机、含指定传感器、锂电池、旅行充电器、橡胶保护套、进气管及水阱过滤器、使用说明书、资料及软件光盘2、可选配置充电/数据下载底座、碱性电池适配器、数据电缆(USB或RS232)、标定气体、便携软包。
美国华瑞PGM-7320VOC检测仪
美国华瑞PGM-7320VOC检测仪一、产品介绍MiniRAE 3000是一款广谱手持式挥发性有机化合物(VOC)气体检测仪,采用RAE 最新的第三代光离子化检测器(PID),提高了检测精度和响应时间,检测范围达到0.1-15000ppm,选择无线传输模块可以实现与控制台的无线数据传输和远程监控。
二、技术参数1、尺寸:25.5×7.6×6.4 cm2、重量:738g(含锂电池)3、采样方式:泵吸式4、外壳材质:工程塑料,橡胶外套5、防护等级:IP66(开机)/IP67(关机),完全防尘,可水淋6、电磁辐射:EMI/RF等级:EMC Directive 2004/108/EEC7、工作温度:-20℃ ~50℃8、环境湿度:0% ~95%相对湿度(无冷凝)9、产品认证:ATEX认证:II 2G EEx ia IIC T4UL/cUL/CSA认证:Class I, Division 1, Group A, B, C, DIECEx认证:Ex ia IIC T410、显示屏:大屏幕图形LCD显示、带自动背景灯11、显示语言:中文/英语+符号12、显示内容:实时检测值、TWA值、STEL值、峰值、电池电压、日期时间、温度13、按键:1个操作键、2个功能键、1个照明灯开关14、报警方式:95dB@30cm蜂鸣器,红色LED15、报警信号:气体超标、电池电压不足、传感器故障、电池电量不足报警16、报警设置:单独设置TWA、STEL和高/低报警限值17、数据存储:内置存储260000点的数据容量(1分钟间隔约2个月)记录内容包括日期、时间、序列号、用户ID、检测点ID等18、采样间隔:1-3600秒可调19、数据通讯:USB(通过底座)、RS232(通过旅行充电器)、可选内置蓝牙模块下载检测数据、上传仪器参数设定;可选内置无线模块实现无线数据传输20、泵流速:450~550cc/min21、电池:4.2V/3300mAH可充电锂离子电池,碱性电池盒使用4个AA电池22、运行时间:可连续工作16小时(视工作环境和使用频率)23、充电时间:8小时24、标定方式:两点/三点式零点/扩展标定25、传感器:标配10.6eV(可选9.8/11.7eV)紫外灯的PID传感器26、分辨率:0.1ppm27、响应时间:(T90):2s28、检测精度:10-2000ppm异丁烯标定点的±3%29、传感器参数UV灯类型检测范围————————————————10.6eV0.1 ~15000ppm9.8eV 0.1 ~5000ppm11.7eV0.1 ~2000ppm —————————————————三、主要特点1、第三代PID传感器,响应时间短,检测范围宽2、大屏幕图文液晶显示,图形菜单显示3、自动背光显示,内置照明灯,便于黑暗环境使用4、内置温度湿度压力传感器,自动湿度补偿,保证测量精度5、无需任何工具快速更换传感器和电池6、自动识别紫外灯型号7、传感器和紫外灯自动清洁8、内置蓝牙和无线传输模块,实现实时无线传输9、多国语言显示,支持中文10、防护等级高,完全防尘,可直接用水清洗11、内置强力吸气泵12、使用大容量锂电池和碱性电池13、支持AutoRAE 自动标定系统四、标准配置1、PGM-7320主机,含传感器及UV灯2、锂电池、充电/数据下载底座3、橡胶保护套4、进气管及水阱过滤器5、操作说明书6、资料及软件光盘7、便携软包五、应用领域工业安全监测、室内空气质量检测、危险物质检测、环境保护监测。
Bacharach IAM-100 集成区域监测仪及可选16通道控制器操作手册说明书
Integrated Area Monitor and Optional 16-Channel ControllerInstallation and Operation ManualInstruction 6209-9000Rev 2 – January 2016IAM-100 and Controller ManualWARRANTY POLICYBACHARACH, INC. WARRANTS THIS INSTRUMENT, EXCLUDING SENSORS, TO BE FREE FROM DEFECTS IN MATERIALS AND WORKMANSHIP FOR A PERIOD OF ONE YEAR FROM THE DATE OF PURCHASE BY THE ORIGINAL OWNER. THE SENSORS HAVE A WARRANTY PERIOD OF ONE YEAR FROM THE DATE OF PURCHASE. IF THE PRODUCT SHOULD BECOME DEFECTIVE WITHIN THIS WARRANTY PERIOD, WE WILL REPAIR OR REPLACE IT AT OUR DISCRETION.THE WARRANTY STATUS MAY BE AFFECTED IF THE INSTRUMENT HAS NOT BEEN USED AND MAINTAINED PER THE INSTRUCTIONS IN THIS MANUAL OR HAS BEEN ABUSED, DAMAGED, OR MODIFIED IN ANY WAY. THIS INSTRUMENT IS ONLY TO BE USED FOR PURPOSES STATED HEREIN. THE MANUFACTURER IS NOT LIABLE FOR AUXILIARY INTERFACED EQUIPMENT OR CONSEQUENTIAL DAMAGE.DUE TO ONGOING RESEARCH, DEVELOPMENT, AND PRODUCT TESTING, THE MANUFACTURER RESERVES THE RIGHT TO CHANGE SPECIFICATIONS WITHOUT NOTICE. THE INFORMATION CONTAINED HEREIN IS BASED ON DATA CONSIDERED ACCURATE. HOWEVER, NO WARRANTY IS EXPRESSED OR IMPLIED REGARDING THE ACCURACY OF THIS DATA.ALL GOODS MUST BE SHIPPED TO THE MANUFACTURER BY PREPAID FREIGHT. ALL RETURNED GOODS MUST BE PRE-AUTHORIZED BY OBTAINING A RETURN MERCHANDISE AUTHORIZATION (RMA) NUMBER. CONTACT THE MANUFACTURER FOR A NUMBER AND PROCEDURES REQUIRED FOR PRODUCT TRANSPORT.SERVICE POLICYBACHARACH, INC. MAINTAINS AN INSTRUMENT SERVICE FACILITY AT THE FACTORY. SOME BACHARACH DISTRIBUTORS / AGENTS MAY ALSO HAVE REPAIR FACILITIES, HOWEVER, BACHARACH ASSUMES NO LIABILITY FOR SERVICE PERFORMED BY ANYONE OTHER THAN BACHARACH PERSONNEL. REPAIRS ARE WARRANTED FOR 90 DAYS AFTER DATE OF SHIPMENT (SENSORS, PUMPS, FILTERS AND BATTERIES HAVE INDIVIDUAL WARRANTIES). SHOULD YOUR INSTRUMENT REQUIRE NON-WARRANTY REPAIR, YOU MAY CONTACT THE DISTRIBUTOR FROM WHOM IT WAS PURCHASED OR YOU MAY CONTACT BACHARACH DIRECTLY.IF BACHARACH IS TO DO THE REPAIR WORK, SEND THE INSTRUMENT, PREPAID, TO BACHARACH, INC. AT THE FOLLOWING ADDRESS.IAM-100 and Controller ManualALWAYS INCLUDE YOUR RMA #, ADDRESS, TELEPHONE NUMBER, CONTACT NAME, SHIPPING/BILLING INFORMATION AND A DESCRIPTION OF THE DEFECT AS YOU PERCEIVE IT. YOU WILL BE CONTACTED WITH A COST ESTIMATE FOR EXPECTED REPAIRS PRIOR TO THE PERFORMANCE OF ANY SERVICE WORK. FOR LIABILITY REASONS, BACHARACH HAS A POLICY OF PERFORMING ALL NEEDED REPAIRS TO RESTORE THE INSTRUMENT TO FULL OPERATING CONDITION.PRIOR TO SHIPPING EQUIPMENT TO BACHARACH, CONTACT OUR OFFICE FOR AN RMA # (RETURN MERCHANDISE AUTHORIZATION). ALL RETURNED GOODS MUST BE ACCOMPANIED WITH AN RMA NUMBER.PACK THE EQUIPMENT WELL (IN ITS ORIGINAL PACKING IF POSSIBLE), AS BACHARACH CANNOT BE HELD RESPONSIBLE FOR ANY DAMAGE INCURRED DURING SHIPPING TO OUR FACILITY. FAILURE TO INCLUDE A VALID RMA NUMBER WILL RESULT IN LONGER PROCESSING TIME AND MAY ADD EXTRA COST.NOTICESCOPYRIGHTS: THIS MANUAL IS SUBJECT TO COPYRIGHT PROTECTION; ALL RIGHTS ARE RESERVED UNDER INTERNATIONAL AND DOMESTIC COPYRIGHT LAWS. THIS MANUAL MAY NOT BE COPIED OR TRANSLATED, IN WHOLE OR IN PART, IN ANY MANNER OR FORMAT, WITHOUT THE WRITTEN PERMISSION OF BACHARACH, INC.ALL SOFTWARE WHICH BACHARACH UTILIZES AND/OR DISTRIBUTES, HOLDS A PROPRIETARY INTEREST AND IS ALSO SUBJECT TO COPYRIGHT PROTECTION AND ALL RIGHTS ARE RESERVED. NO PARTY MAY USE OR COPY SUCH SOFTWARE IN ANY MANNER OR FORMAT, EXCEPT TO THE EXTENT THAT BACHARACH GRANTS THEM A LICENSE TO DO SO. IF THIS SOFTWARE IS BEING LOADED ONTO MORE THAN ONE COMPUTER, EXTRA SOFTWARE LICENSES MUST BE PURCHASED.TECHNICIAN USE ONLYTHIS UNIT MUST BE INSTALLED BY A SUITABLY QUALIFIED TECHNICIAN WHO WILL INSTALL THIS UNIT IN ACCORDANCE WITH THESE INSTRUCTIONS AND THE STANDARDS IN THEIR PARTICULAR INDUSTRY/COUNTRY. SUITABLY QUALIFIED OPERATORS OF THE UNIT SHOULD BE AWARE OF THE REGULATIONS AND STANDARDS IN THEIR INDUSTRY/COUNTRY FOR THE OPERATION OF THIS UNIT. THESE NOTES ARE ONLY INTENDED AS A GUIDE AND THE MANUFACTURER BEARS NO RESPONSIBILITY FOR THE INSTALLATION OR OPERATION OF THIS UNIT.FAILURE TO INSTALL AND OPERATE THE UNIT IN ACCORDANCE WITH THESE INSTRUCTIONS AND WITH INDUSTRY GUIDELINES MAY CAUSE SERIOUS INJURY INCLUDING DEATH AND THE MANUFACTURER WILL NOT BE HELD RESPONSIBLE IN THIS REGARD.IAM-100 and Controller ManualTable of ContentsSECTION 1.OVERVIEW (5)1.1. Introduction (5)1.2. Applications (5)1.3. Specifications (8)SECTION 2.PLACING SENSORS (10)2.1. General Guidelines (10)2.2. Air Conditioning (Direct Systems VRF/VRV) (11)SECTION 3.HOUSING DIMENSIONS (12)SECTION 4.WIRING INSTRUCTIONS (15)4.1. Wiring the IAM-100 (15)4.2. Wiring the IAM-100 Controller (17)4.3. Remote Sensor Head Installation (19)SECTION 5.OPERATING INSTRUCTIONS (22)5.1. IAM-100 (22)5.2. IAM Controller (23)SECTION 6.FUNCTIONAL TESTS AND CALIBRATION (25)6.1. Overview (25)6.2. Bump Testing (27)6.3. Checking and Setting the Zero Setting (29)6.4. IAM Controller (30)SECTION 7.TROUBLESHOOTING (31)CE DECLARATION OF CONFORMITY (32)IAM-100 and Controller Manual Section 1. Overview1.1. IntroductionThe IAM-100 is a system that combines sensor and monitoring features in an integrated unit. It is a stand-alone system used to detect gases in an area, room, zone, airspace or airflow.The IAM-100 can be expanded into large gas detection systems using the optional IAM controller.Up to 16 IAM-100s can connect to an IAM controller. The controller shows any sensor in alarm and has relays for control purposes. These controllers can be connected to each other enabling the construction of large gas detector systems.1.2. ApplicationsThe IAM-100 is an ideal solution for gas detection in the following occupied spaces:•hotel rooms •storage facilities•conference rooms •theaters•apartment blocks •airports•office buildings •light industrial spaces•air conditioned spaces •large systems requiring many sensors. Typical applications include the following.IAM-100 and Controller ManualFigure 1. IAM-100Figure 2. Optional IAM-100 ControllerIAM-100 and Controller ManualFigure 3. Sample Architecture DiagramIAM-100 and Controller Manual 1.3. SpecificationsIAM-100 and Controller ManualIAM-100 and Controller ManualSection 2. Placing Sensors2.1. General GuidelinesNOTE: This instrument is equipped with a semiconductor sensor for the detection of refrigerant gases. Semiconductor sensors are not gas specific and respond to a variety of other gases including propane exhaust, cleaners, and solvents. Changes in temperature and humidity may also affect the sensor’s performance.The IAM-100 and optional controller (where applicable) should be positioned carefully to avoid mechanical damage (from moving machinery, doors, etc.) and thermal extremes (close to heaters). Units should not be placed unprotected in direct or strong drafts/airflows and areas where water, moisture, or steam is present.Avoid routing sensor cabling outside of premises, or between buildings via overhead cables. Also, sensor wiring should be kept a minimum of 500 mm [20 inches] from the main power supply and telephone cables.When connecting the main power supply and/or sensor cables ensure a second strain relief is used. As a strain relief, use a cable tie inside the enclosure within 25mm [1 inch] of the cable termination.NOTE: The IAM-100 and optional controllers must be located within the appropriate wire lengths from the central control unit (if used).In all cases the sensor supplied is designed for maximum sensitivity to a particular gas. However, in certain circumstances false alarms may be caused by the occasional presence of sufficiently high concentrations of other gaseous impurities. Examples of situations where such abnormalities may arise include the following:• Room maintenance activity involving solvent or fumes or refrigerant leaks.•Heavy localized exhaust fumes (carbon monoxide, dioxide, andpropane).An optional response delay may be activated to minimize the possibilities of false alarms.2.2. Air Conditioning (Direct Systems VRF/VRV)To ensure compliance with EN378 at least one detector should be installed in each occupied space being considered. In this case refrigerants are heavier than air and detectors should have their sensors mounted low, e.g., at less than bed height in the case of a hotel or other similar Category Class A space. Ceiling voids or other voids if not sealed are part of the occupied space.CAUTION:Monitoring ceiling voids in a hotel room would not strictly comply with EN378.IMPORTANT: Carefully consider ramifications of using too few sensors. A few extra sensors could make a significant difference if a gas leak occurs.Section 3. Housing DimensionsFigure 4. Dimensions of the IAM-100 Housing (Front)Figure 5. Typical Dimensions of the IAM-100 (Back)Figure 6. Controller HousingSection 4. Wiring Instructions4.1. Wiring the IAM-100Open the IAM-100 by removing the two front cover screws. Remove the metal faceplate and locate the connection terminals.Figure 7. IAM-100 Internal ComponentsNOTE: The maximum wire size into terminal blocks is 1.5 mm2 [16 AWG].NOTE: Review and agree upon end-user requirements before setting buzzer enable/disable, the relay/buzzer delay and manual vs. automatic reset (latching).NOTE: Connection to main power supply must be done in accordance with local wiring regulations, and should not be longer than 3 meters from the controller. It is recommended to connect to main power through approved, switchable, fused (3A fuse recommended) and easily accessible electrical spur. This should be a part of building installation and be marked as disconnect for the unit.•The main power cable used should be compliant with local regulations.•If replacement of the main fuse is required, use a suitable replacement.4.2. Wiring the IAM-100 ControllerOpen the IAM-C by removing the two front cover screws. Remove the metal faceplate and locate the connection terminals. To install the IAM-C, refer to the network drawing (Figure 3) and wiring diagram (Figure 8).Figure 8. Controller Internal ComponentsNOTE: The maximum wire size into terminal blocks is 1.5 mm2[16 AWG].NOTE: Review and agree upon end-user requirements before setting buzzer enable/disable, the relay/buzzer delay andmanual vs. automatic reset (latching).NOTE: Connection to main power supply must be via an approved, readily accessible, switched spur and fused (3 Amp fuse) or as per local wiring regulations which should be within 3 meters (10 feet) of the controller. It should be part of the building installation and be marked as the disconnect for the device. • The main power cable used should be compliant with local regulations.•If replacement of the main fuse is required, use a suitable replacement.4.3. Remote Sensor InstallationIf you do not wish to surface mount the IAM or need to match room decor, Bacharach can supply a remote sensor and a decorative faceplate (standard finish is a unit with brushed stainless steel). The remote sensor is mounted in an electrical back box 44 mm [1.73 inches] deep to which the faceplate is fitted.IMPORTANT: Cleaning the decorative faceplate should be limited to light dusting. It should not be sprayed with cleaning/polishing aerosols.NOTE: For remote sensor configurations, the sensor element is mounted on a small remote sensor PCBthatconnects to the IAM-100’s main PCB via a 4-wire cable.Figure 9. Local vs. Remote SensorSection 5. Operating Instructions 5.1. IAM-1005.2. IAM ControllerFigure 11. External Components of the ControllerNOTE: If all of the red LEDs are blinking approximately every 5 seconds on a master panel, then remove the link on Jumper position JP3 as this should be in the disabled position on a master panel (factory default setting is disabled).Access Screws (2 Places)Section 6. Functional Tests and Calibration6.1. OverviewNOTE: The IAM-100 is calibrated at the factory. After installation, a zero adjustment maybe required due to differences in environmental conditions.IMPORTANT: If the IAM-100 is exposed to a large leak it should be tested to ensure correct functionality, and the sensor replaced if necessary.To comply with the requirements of EN378 and the European F-GAS regulation, sensors must be tested annually. However, local regulations may specify the nature and frequency of this test. After sensor element replacement, recalibration of the unit using known concentration of gas is required.CAUTION: Check local regulations on calibration or testing requirements.IMPORTANT: The testing and/or calibration of the unit must be carried out by a suitably qualified technician, and must be done:• in accordance with this manual•in compliance with locally applicable guidelines and regulations.Suitably qualified operators of the unit should be aware of the regulations and standards set down by the industry/country for the testing or calibration of this unit. This manual is only intended as a guide and, insofar as permitted by law, the manufacturer accepts no responsibility for the calibration, testing, or operation of this unit.The frequency and nature of testing or calibration may be determined by local regulation or standards.EN378 and the F-GAS Regulation require an annual check in accordance with the manufacturer’s recommendation.IMPORTANT: Failure to test or calibrate the unit in accordance with applicable instructions and with industry guidelines may result in serious injury or death. The manufacturer is not liable for any loss, injury, or damage arising from improper testing, incorrect calibration, or inappropriate use of the unit.IMPORTANT: Calibration should be done at least once per year.IMPORTANT: In applications where life safety is critical, calibration should be done quarterly (every 3 months) or on a more frequent basis. Bacharach is not responsible for setting safety practices and policies. Safe work procedures including calibration policies are best determined by company policy, industry standards, and local codes.There are two concepts that need to be differentiated:Bump Test Exposing the sensor to a known concentration of targetgas and observing its response to the gas. The objective is to establish if the sensor is reacting to the gas and all the sensor outputs are working correctly. There are two types of bump test. • Quantified: A known concentration of gas isused.• Non-Quantified: A gas of unknown concentration isused.Calibration Exposing the sensor to a calibration gas, setting the“Standby voltage”, the span/range, and checking/ adjusting all the outputs, to ensure that they are activated at the specified gas concentration.NOTE: For improved accuracy and response, the instrument should be zeroed and calibrated in the environment in which it is being installed.CAUTION: Before performing the bump test:•Advise occupants, plant operators, and supervisors.•Check if the IAM-100 is connected to external systems then disconnect as instructed by the customer.•Deactivate the alarm delay (if active) by removing the alarm delay jumpers per Figure 7.•To ensure higher accuracy, the IAM-100 should be powered up for at least 24 hours before anytests/calibration or adjustment are made.6.2. Bump TestingAfter installation, it is recommended to perform a bump test to ensure proper functionality of the unit. Expose the sensors to test gas, preferably target gas.The bump test should put the system into alarm. The red LED will light showing the system is in alarm. The delay will prevent the buzzer from sounding and the relay from switching (if the delay is set).To test the buzzer and/or relay function, check the delay is set at zero using the multi-pin connector positions 1 and 2 (as shown in Figure 7) and expose to gas as above. You can mute the buzzer using the mute button.After the gas has cleared and the red LED has switched off you can reset the alarm relay and buzzer by using the reset button (if manual reset has been selected).Before testing the sensors on site the IAM-100 must have been powered up and allowed to stabilize for several hours, preferably over a period of 24 hours.When testing the sensors, also ensure that the IAM Controller functions correctly (if installed) per section 6.4.NOTE: Ideally bump tests are to be conducted at installationsite in a clean air atmosphere.IMPORTANT: After a semiconductor sensor is exposed to asubstantial gas leak, the sensor should be checked andreplaced if necessary. After sensor element replacement,recalibration of the unit using a known concentration of gas isrequired.NOTE: Do not pressurize the sensor.NOTE: You MUST use calibration gas in a balance of air (not N2).NOTE: Prior to carrying out a bump test, check and adjust the zero setting. Refer to Section 6.3.Figure 12. Gas Cylinder and Test Hardware6.3. Checking and Setting the Zero SettingChecking and setting the zero setting may be required upon initial installation. Ensure the unit was powered up for at least 24 hours before making any adjustmentTools Required:• A voltmeter (crocodile clips are recommended)•Factory standby (zero) voltage from side label•ScrewdriverFigure 13. Checking and Setting the Zero Setting 6.4. IAM ControllerIf your installation has an IAM Controller, ensure that the controller’sfunctions are activating accordingly when testing the sensors.Section 7. TroubleshootingD ECLARATION OF C ONFORMITYThe undersigned hereby declares that the above referenced products are in conformity with the provisions of the following standard(s) and is in accordance with the following directive(s). Directive(s):Standard(s):Signature: Name: Aaron Kennison Title: Engineering Manager Date: 1/3/2013The technical documentation file required by this directive is maintained at the corporate headquarters of Bacharach, Inc.D ECLARATION OF C ONFORMITYThe undersigned hereby declares that the above referenced products are in conformity with the provisions of the following standard(s) and is in accordance with the following directive(s).Directive(s):Standard(s):Signature:Name:Aaron KennisonTitle:Engineering ManagerDate: 03/25/2013The technical documentation file required by this directive is maintained at the corporateheadquarters of Bacharach, Inc.World Headquarters621 Hunt Valley Circle, New Kensington, Pennsylvania 15068 Phone: 724-334-5000 • Toll Free: 1-800-736-4666 • Fax: 724-334-5001 Website: • E-mail:********************。
美国华瑞六合一气体检测仪PGM6208,PGM62XX使用说明书
MultiRAE 用户指南
目录
1 标准配置 .............................................................................................................................................. 4 2 总述...பைடு நூலகம்.................................................................................................................................................. 4
7.3.1 编辑和选择参数及传感器............................................................................................. 17 7.3.2 校准.............................................................................................................................. 17
1
MultiRAE 用户指南
7.3.3 测量.............................................................................................................................. 21
3.2 不同数量传感器在屏幕上的显示............................................................................................... 7 3.3 菜单........................................................................................................................................... 8 4 电池.................................................................................................................................................... 11 4.1 使用充电座.............................................................................................................................. 11 4.2 更换电池 ................................................................................................................................. 11 4.3 使用旅行充电器....................................................................................................................... 12 4.4 电池状态 ................................................................................................................................. 12 4.5 碱性电池适配器....................................................................................................................... 13 5 打开/关闭 MultiRAE ........................................................................................................................... 13 5.1 打开 MultiRAE......................................................................................................................... 13 5.2 关闭 MultiRAE......................................................................................................................... 14 5.3 测试报警指示器....................................................................................................................... 14 5.4 泵状态图标.............................................................................................................................. 14 5.5 校准状态图标 .......................................................................................................................... 14 6 操作模式 ............................................................................................................................................ 15 6.1 卫检操作模式 .......................................................................................................................... 15 6.2 搜索操作模式 .......................................................................................................................... 15 6.3 基本用户模式 .......................................................................................................................... 15 6.4 高级用户模式 .......................................................................................................................... 15 7 编程模式 ............................................................................................................................................ 15 7.1 在高级模式下进入编程............................................................................................................ 15 7.2 在基本模式下进入编程............................................................................................................ 16 7.3 菜单和子菜单 .......................................................................................................................... 17
HTVm甲醛检测仪
HTV-m甲醛检测仪英国PPM公司的HTV-m型甲醛检测仪,采用最先进的微电子及传感器技术,具备湿度补偿功能,即使在温湿度较高的极端环境下HTV-m型能够准确地测量甲醛浓度。
读数以ppm 或mg/m3单位显示。
也可以实时测量温度及湿度。
PPM公司随机提供用于校准的甲醛校正源,用户可以自行为检测仪作现场校准及周期性校准,增加检测仪的检测精确度。
HTV-m型是基本型(HTV)上增加数据内存记忆及实时时钟功能,配合AC适配器使用,可以在线连续地记录7天的检测数据,使HTV-m型成为一台可连续监测及具有数据记录功能的甲醛检测仪。
功能远远优胜于市场上其它产品。
特点:1.不受极端高温湿度环境的影响,具备湿度补偿功能2.甲醛单位显示:ppm或mg/m3(0℃及1个大气压标准状况下)3.单键操作,能够快速采样,恢复时间快4.标准配置包括一支甲醛校正源(有效期半年),只需数秒钟就能完成校准程序。
随机配备10支苯酚过滤器,排除苯酚对读数的影响5.选配件SPC-2型计算机遥控软件及适配器,使甲醛检测仪成为无线监测系统仪器规格:采样方法通过内置泵,采集10ml空气样品采样频率1-3分钟(取决于之前采集浓度)响应时间低浓度大约8秒,高浓度大约60秒体积 /重量150x80x34mm / 270g含电池甲醛传感器:传感器PPM公司自行研发电化学传感器检测范围基本量程:0.00~20.00ppm(或0~13.4mg/m3)另选最高量程:30或80ppm分辨率0.01ppm(另可调0.001 ppm)精度2%﹝根据于12台甲醛分析仪的4-5次重复测量,而统计出来的结果﹞准确度10%﹝依据美国NIOSH所规定,使用可接受的测量方法,于相对湿度介乎于25-70%的环境中测量甲醛浓度0.3ppm。
NIOSH的可接受标准是介乎真值±25%的数据结果均在95%置信区域内。
PPM甲醛检测仪可达到确NIOSH的标准。
﹞温度和湿度模块:类型可互换的数据CMOSens范围温度:-40~+128°C相对湿度:0~100%RH精度温度:±0.4°C;相对湿度:±3%RH另可选配升级到±0.3°C,±1.8%RH校正生产商根据ISO/IEC17025进行校正,可追溯于NIST和“国家物理实验室”PPM HTV型甲醛检测仪根据美国NIOSH 2016标准进行一个全面性评估,并获得以下结论:1.使用甲醛检测仪PPM HTV型收集1小时累积样本在统计学上跟NIOSH方法没有明显分别(p=0.15)2.在测试条件下,基于ROC曲线下的面积及1小时累积采样,PPM HTV型在检测甲醛浓度时有相似差别能力3.在散布图及相关测试中显示出PPM HTV型在1小时累积采样与实验室化学方法具有一样的相关性4.PPM HTV型的平均偏差与NIOSH 2016方法偏差不明显5.在灵敏度及特异度测试,PPM HTV型在超过0.2ppm甲醛浓度的1小时累积样本中是十分准确其它配件1.甲醛校正源:采用一个已知浓度的甲醛校正管,可通过温度及甲醛浓度校准分析仪。
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美国华瑞PGM-7320VOC检测仪
一、产品介绍
MiniRAE3000是一款广谱手持式挥发性有机化合物(VOC)气体检测仪,采用RAE最新的第三代光离子化检测器(PID),提高了检测精度和响应时间,检测范围达到0.1-15000ppm,选择无线传输模块可以实现与控制台的无线数据传输和远程监控。
二、技术参数
1、尺寸:25.5×7.6×6.4cm
2、重量:738g(含锂电池)
3、采样方式:泵吸式
4、外壳材质:工程塑料,橡胶外套
5、防护等级:IP66(开机)/IP67(关机),完全防尘,可水淋
6、电磁辐射:EMI/RF等级:EMC Directive2004/108/EEC
7、工作温度:-20℃~50℃
8、环境湿度:0%~95%相对湿度(无冷凝)
9、产品认证:ATEX认证:II2G EEx ia IIC T4
UL/cUL/CSA认证:Class I, Division1,Group A,B,C,D
IECEx认证:Ex ia IIC T4
10、显示屏:大屏幕图形LCD显示、带自动背景灯
11、显示语言:中文/英语+符号
12、显示内容:实时检测值、TWA值、STEL值、峰值、电池电压、日期时间、温度
13、按键:1个操作键、2个功能键、1个照明灯开关
14、报警方式:95dB@30cm蜂鸣器,红色LED
15、报警信号:气体超标、电池电压不足、传感器故障、电池电量不足报警
16、报警设置:单独设置TWA、STEL和高/低报警限值
17、数据存储:内置存储260000点的数据容量(1分钟间隔约2个月)记录内容包括日期、时间、序列号、用户ID、检测点ID等
18、采样间隔:1-3600秒可调
19、数据通讯:USB(通过底座)、RS232(通过旅行充电器)、可选内置蓝牙模块下载检测数据、上传仪器参数设定;
可选内置无线模块实现无线数据传输
20、泵流速:450~550cc/min
21、电池:4.2V/3300mAH可充电锂离子电池,碱性电池盒使用4个AA电池
22、运行时间:可连续工作16小时(视工作环境和使用频率)
23、充电时间:8小时
24、标定方式:两点/三点式零点/扩展标定
25、传感器:标配10.6eV(可选9.8/11.7eV)紫外灯的PID传感器
26、分辨率:0.1ppm
27、响应时间:(T90):2s
28、检测精度:10-2000ppm异丁烯标定点的±3%
29、传感器参数
UV灯类型检测范围————————————————
10.6eV0.1~15000ppm
9.8eV0.1~5000ppm
11.7eV0.1~2000ppm —————————————————
三、主要特点
1、第三代PID传感器,响应时间短,检测范围宽
2、大屏幕图文液晶显示,图形菜单显示
3、自动背光显示,内置照明灯,便于黑暗环境使用
4、内置温度湿度压力传感器,自动湿度补偿,保证测量精
度
5、无需任何工具快速更换传感器和电池
6、自动识别紫外灯型号
7、传感器和紫外灯自动清洁
8、内置蓝牙和无线传输模块,实现实时无线传输
9、多国语言显示,支持中文
10、防护等级高,完全防尘,可直接用水清洗
11、内置强力吸气泵
12、使用大容量锂电池和碱性电池
13、支持AutoRAE自动标定系统
四、标准配置
1、PGM-7320主机,含传感器及UV灯
2、锂电池、充电/数据下载底座
3、橡胶保护套
4、进气管及水阱过滤器
5、操作说明书
6、资料及软件光盘
7、便携软包
五、应用领域
工业安全监测、室内空气质量检测、危险物质检测、环境保护监测
以上信息来自青岛聚创环保设备有限公司。