睿士达RESDA 烟雾探测器

此安装说明介绍VESDA-E VEU-NTF吸气式烟雾探测器的基本安装信息。

其他安装与产品文档列于下文的参考文档部分。

系统组件探测器含有以下组件：• 1个吸气式烟雾探测器• 1个安装支架• 1个直接在安装面安装探测器的模板• 1个用于监控式GPI 的线路终端电阻器• 1本安装说明书安装基本条件• 完整的系统设计。

• 24V 直流电源，符合当地法规与标准。

• 适合安装面的螺钉与衬垫。

• 两端分别为A 型和B 型USB 口的线缆，用于进行探测器的初始设置。

• 系统设计指定的标签，例如采样点标签• 符合探测器防护等级的电缆戈兰。

• 依据系统设计的采样管道。

• 24AWG-12AWG 控制器回路接线规格。

• 安装Xtralis VSC 的电脑或笔记本以进行初始配置。

•在公司网络中添加探测器的标准连接说明。

遵循的标准UL 和ULC对于开放空间，开放空间的高气流和管道保护必须设置启动疏散信号的火警阈值(设定的)时，通过ASPIRE 软件验算的采样孔灵敏度要高于10% obs/m 。

电源功耗（18 - 30 VDC 电源）静态警报中吸气器速度设置1设置5设置10设置1设置5设置10VEU-A00-NTF-CH 7.0 W 8.8 W 14.7 W 7.8 W 9.6 W 15.5 W VEU-A10-NTF-CH8.2 W10.0 W15.8 W10.4 W11.6 W16.6 W控制器回路线功耗控制器回路线电流消耗：8mA.环境要求• 探测器环境温度： 0°C 至39°C*• 采样空气温度**： -20°C 至60°C • 湿度： 10-95%*UL 产品认证环境温度0°C 到38°C 。

**采样空气温度在进入探测腔之前应达到环境温度，详细信息请参照产品设计手册及应用说明。

注意：注意：如需了解其他操作环境参数，或在正常操作环境下采样空气持续超过0.05% obs/m 时的配置参数，请咨询您的NOTIFIER 代表。

Detectores de llamaserie FSL100 UV, UVIR, IR3Flame DetectionLa gama está compuesta por detectores de llama UV, UVIR e IR3 Todos disponen de un sofisticada tecnología de detección y deanálisis de señal para detectar fuegosrápidamente y rechazar las falsas alarmas.El FSL100 puede ser pequeño y ligero para facilitar su instalación, pero está diseñadopara trabajar en entornos exigentes, tanto en interiores como en exteriores, así como enatmósferas potencialmente explosivas.Con un gran campo de visión, puede detectar una amplia gama de tipos de fuegos distintos, incluyendo los causados por hidrocarburos y por otros elementos. Disponible en UV, UVIR y 3IR,apto para cualquier aplicación.Aptos para multitud de aplicaciones• Disponibles UV, UVIR e IR3• Detecta fuegos causados por hidrocarburos y otras sustancias• Puede usarse en atmósferaspotencialmente explosivas• Funcionamiento en interiores y exteriores • Modelos disponibles en color rojo de alta visibilidad o blanco discretoAlto rendimiento• Homologados según las normas EN54-10 y FM3260 estándares para detectores dellama• Autocomprobación completa automática • Autocomprobación manual remota opcional Rápido y Fiable• Sensores y microprocesador de alta velocidad• Sofisticados algoritmos de análisis• Supervisión continua del estado del sistema • Rechazo de falsas alarmasCostes reducidos en su ciclo de vida• Elementos duraderos• Compensación de presión para evitar la contaminación• 2 años de garantía• Compre con confianzaInstalación y uso sencillos• Salidas de relé y mA de serie• Carcasa ligera de GRP• Entradas pretroqueladas• Soporte giratorio de montaje opcional• Disponible lámpara de comprobación de largo alcanceDetectores de Llama UV, UVIR, IR3Los detectores de llama de la serie FSL100 de Honeywell ofrecen una detección robusta, rápida y fiable de fuegos con llama en una amplia gama de aplicaciones.• Adecuado para aplicaciones eninteriores, por ejemplo, campanas de extracciónde humos y áreas de almacenamientode hidrógeno• Solución eficaz para materialesque arden con bajas temperaturas,p. ej., azufre• Detecta fuegos provocados porhidrocarburos (madera, papel,gasolina) así como por hidrógenoe hidrocarburos ligeros, como elmetanol y metano• Buena resistencia a las interferencias derivadas de:- Luz directa y reflejada del sol- Luz artificial, p. ej., tubosfluorescentes y lámparashalógenas cubiertas de vidrioFSL100-UVFSL100-UV/IR• Análisis de la frecuencia deparpadeo de la llama para mejorarel rechazo de falsas alarmas• La metodología de detección dual permitedetectar eficazmente una amplia gama defuegos de hidrocarburo y no hidrocarburos• Monitoriza las llamas de hidrocarburospesados (madera, papel, gasolina) perotambién de hidrógeno e hidrocarburosligeros como metanol y metano• Buena resistencia contra las influencias de:- Luz directa y reflejada del sol- Luz artificial, como tubos fluorescentesy lámparas halógenas con recubrimientode vidrio- Arcos y descargas eléctricas (estáticao p. ej., de motores eléctricos)- La radiación procedente de la soldaduraeléctrica siempre ésta se realicea una distancia superior a 3 metrosdel detector (una varilla de soldaduracontiene compuestos orgánicosque presentan fenómenos de llama)• Análisis de la frecuencia de parpadeode la llama para mejorar el rechazo de falsas alarmas • Especialmente adecuado parahidrocarburos líquidos y fuegos sucios • Menos afectado por contaminación de las ventanas o por fuegos con humo• Detecta llamas de hidrocarburos pesados (madera,papel, gasolina) e hidrocarburos ligeros, como el metanol y metano• Buena resistencia contra las influencias derivadas de:- Luz directa y reflejada del sol - Luz artificial, p.ej., tubosfluorescentes y lámparas halógenas cubiertas de vidrio- Arcos y descargas eléctricas (estática o p. ej., de motores eléctricos)- La radiación procedente de la soldadura eléctrica siempre que ésta se realice a una distancia superior a 3 metros del detector(una varilla de soldadura contiene compuestos orgánicos que presentan fenómenos de llama)• Especialmente apto para fuegos con humo.Análisis de la frecuencia de parpadeode la llama para mejorar el rechazo de falsas alarmasFSL100-IR3APLICACIONESApto ✓ Recomendado ✓✓*Póngase en contacto con su representante de HoneywellESPECIFICACIONES GENERALESDetección de gas de Honeywell AnalyticsSEDE CENTRALCENTROS DE ASISTENCIA TÉCNICAHoneywell Analytics puede ofrecer soluciones de detección de gas que cumplan los requisitos de todas las aplicaciones y todos los sectores. Póngase en contacto con nosotros de las siguientes formas:Europa, Oriente Próximo y África Life Safety Distribution AG Javastrasse 28604 Hegnau SuizaTel: +41 (0)44 943 4300Fax: +41 (0)44 943 4398**************************Departamento de Servicio de atención al cliente:Tel: 00800 333 222 44 (número gratuito)Tel: +41 44 943 4380 (número alternativo)Fax: 00800 333 222 55Tel. de Oriente Próximo: +971 4 450 5800 (detección fija de gas)Tel. de Oriente Próximo: +971 4 450 5852 (detección portátil de gas) Tenga en cuenta:Se ha puesto el máximo empeño en garantizar la exactitud de esta publicación; no obstante, declinamos toda responsabilidad por los posibles erroresu omisiones. Se pueden producir cambios tanto en los datos como en la legislación, por lo que se recomienda encarecidamente obtener copiasactualizadas de la legislación, las normas y las directrices. Esta publicación no constituye la base de un contrato.13475_H_FSL100_DS01155_V2_ES 11/16© 2016 Honeywell AnalyticsEMEA:**********************US:***************************AP:***************************AméricaHoneywell Analytics Distribution Inc.405 Barclay Blvd.Lincolnshire, IL 60069EE. UU.Tel: +1 847 955 8200Tel. gratuito: +1 800 538 0363Fax: +1 847 955 8210***********************Asia PacíficoHoneywell Analytics Asia Pacífico#701 Kolon Science Valley (1)43 Digital-Ro 34-Gil, Guro-Gu Seúl 152-729CoreaTel: +82 (0) 2 6909 0300Fax: +82 (0) 2 2025 0328Tel. de la India: +91 124 4752700**************************。

独立式光电感烟火灾探测报警器
独立式光电感烟火灾探测报警器JTY-GW-YB039通过双光路散射原理来探测火灾。

该智能无线烟雾报警器采用特殊结构设计的光电传感器，利用烟雾探测室中散射的光线光强度来判断是否有烟雾。

当烟雾达到一定的浓度，即光接收元件接收到的光强度达到预定阈值时，双光路无线烟雾报警器将发出声光报警信号，红色指示灯闪烁，并启动蜂鸣器报警并且可以将报警信息同步推送至星图物联智慧消防平台。

无线烟雾报警器能有效地探测出火灾在初期阴燃产生的可见烟雾，使用户及时排除险清或组织人员撤离。

1.产品优势
（1）双光路迷宫，火灾报警稳定可靠，响应迅速，能够最大程度降低误报；
（2）具有无线传输功能，可与祥云物联网直连，数据能在平台查询；（3）可与现有平台数据融合，如燃气报警平台等；
（4）与同样价格的竞品相比设计感更强，材质用料更实；
（5）可按需定做，数据直接上传客户平台；
（6）未来产品功能更丰富，复合测试功能陆续添加；
（7）具有红外消音和平台消音功能。

2.应用场景
无线烟雾报警器JTY-GW-YB039适用于家居、学校、商店、工厂、酒店等各类场所。

3.技术参数。

本手册由南京物联传感技术有限公司出版，无任何担保。

物联传感随时可能对本手册中的印刷错误、不准确的当前信息进行必要的改进和更改，或对程序或设备进行改进，恕不另行通知。

但是此类更改将编入到本手册的新版本中。

本手册版权归南京物联传感技术有限公司所有。

本手册所涉及产品的版权及商标归南京物联传感技术有限公司所有。

未经版权所有者的明确书面许可，不得复制本手册的全部或部分内容，包括禁止在能够进行复制或检索的计算机中使用这些内容并禁止反向工程。

本手册中提到的所有其他产品或服务名称是其各自公司的商标或注册商标。

© 南京物联传感技术有限公司，2012出版号：2012-0392.1Ⅰ.产品简介WL-FD-A物联无线烟雾（火警）探测器，主要用于检测室内外空气中的烟雾浓度，并通过ZigBee无线网络自动向移动智能终端等控制设备发送报警信号。

本产品以其独特的专业性能，广泛应用于智能家居、智慧旅店、智能建筑等系统中。

Ⅱ.功能特点支持ZigBee HA协议ZigBee设备类型：中继器安装不需要任何电缆兼容wulian报警设备可固定在室内的任何位置专利设计、体积小、重量轻、美观大方智能分析真伪火情抗干扰能力强，灵敏度高Ⅲ.功能图示说明多功能按键主体 绿色LED 灯红色LED 灯 底座12V 电源接口Ⅳ.安装步骤（一）用两颗螺丝，将本产品的底座固定在合适的位置；（二）接入12V电源适配器；（三）将本产品的主体对准底座上的卡槽，顺时针旋转，直到固定。

Ⅴ.使用方法一、联网设置1、本产品需要与通信网关配套使用；2、快击【多功能按键】4次，加入ZigBee网络；单次快击时间不超过1秒加入ZigBee网络后，绿色LED灯长亮2秒后熄灭3、加入ZigBee 网络后，设备向网络中的CIE 设置发送登记（ENROLL ）请求（注：此功能选配）；4、长按【多功能按键】10秒后，恢复为出厂设置。

登记成功后，绿色LED 灯快速闪烁3次绿色LED灯连续闪烁4次（恢复出厂设置默认为不加入ZigBee网络）二、下载软件（一）、请根据不同的移动智能终端，选择对应的操作软件：1、Android用户请到“Play 商店”中搜索“wulian”或“智能家居”，选择“智能家居”软件下载；2、iPhone、iPad用户请到“APP Store”中搜索“wulian”，选择“Smart Home”或“智能家居”下载；3、用户也可直接登陆官网下载：。

极早期高精确度烟雾侦测器ASD535使用说明1. 简介极早期高精确度烟雾侦测器ASD535是一种先进的侦测设备，用于检测建筑物内的烟雾。

它采用高精度的传感技术，能够可靠地检测到火灾的早期迹象，提供及时响应和保护。

2. 安装在安装极早期高精确度烟雾侦测器ASD535之前，请确保遵循以下步骤：1. 确定安装位置：选择合适的位置安装侦测器，使其能够覆盖整个被保护区域。

避免安装在靠近门窗或通风口的位置。

2. 准备安装材料：确保具备所需的安装材料，如螺丝、支架等。

3. 安装侦测器：按照产品说明书提供的指导，使用螺丝将侦测器固定在安装位置上。

确保固定牢固，不松动。

4. 连接电源：将侦测器与电源连接。

确保电源连接稳定和正确。

3. 使用使用极早期高精确度烟雾侦测器ASD535时，请遵循以下步骤：1. 启动侦测器：将电源开关打开，侦测器将开始工作。

请确保电源连接稳定。

2. 监测系统状态：观察侦测器的状态指示灯，确保正常工作。

如果指示灯显示异常，请查阅产品说明书或联系技术支持。

3. 定期维护：定期检查侦测器的工作状态，如灰尘清理、电源检查等。

确保侦测器的正常运行。

4. 报警处理：如果侦测器触发报警，立即采取相应措施。

按照现场应急计划执行，确保安全撤离。

4. 注意事项在使用极早期高精确度烟雾侦测器ASD535期间，请注意以下事项：- 请确保侦测器的安装和维护由专业人员进行，遵循相关的安全规范和操作手册。

- 不要用尖锐物体敲击或损坏侦测器，以免影响其正常工作。

- 定期更换侦测器的电池或电源，确保持续有效的供电。

- 定期进行功能测试和校准，以确保侦测器的准确性和可靠性。

- 如遇到任何异常情况或问题，请立即联系技术支持获取帮助。

5. 免责声明本使用说明仅供参考。

在使用极早期高精确度烟雾侦测器ASD535之前，请详细阅读产品说明书并遵循相关规范和要求。

厂商对于使用不当或不符合规范所造成的任何损失概不负责。

以上是极早期高精确度烟雾侦测器ASD535的使用说明，祝您使用愉快！。

3825 Ohio Avenue, St. Charles, Illinois 601741-800-SENSOR2, FAX: 630-377-6495INSTALLATION AND MAINTENANCE INSTRUCTIONSSENS-RDRSensitivity ReaderSeriesEnvironmental Specifications Operating T emperature Range:32 to 120°F (0 to 49°C)Storage T emperature Range (without batteries): 5 to 140°F (–15 to 60°C)Operating Humidity Range: 10 to 90% RH non-condensingI56-1801-00406-10System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. N o agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defec-tive units postage prepaid to: Honeywell, 12220 Rojas Drive, Suite 700, ElThe SENS-RDR is designed to “... assure that each smoke detector is within its listed and marked sensitivity range ...” per NFPA 72.Slight fluctuations in readings may be experienced on any device at any given time and do not indicate a defect or sensitivity shift, provided the reading is within the specified range. These fluctuations are to be expected.The SEN S-RDR and its associated smoke detectors/sensors contain electronic parts and, though they are designed to last over 10 years, any of these components can fail at any time. Therefore, it is recommended to test your smoke detectors/sensors per NFPA 72 at least annually. Regular cleaning and testing of your fire detection system will measurably reduce your product liability risks and minimize nuisance alarms.FCC STATEMENTThis device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this devicemust accept any interference received, including interference that may cause undesired operation.Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help.THREE-YEAR LIMITED WARRANTYPaso TX 79936, USA. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequential or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limita-tion of incidental or consequential damages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legalrights, and you may also have other rights which vary from state to state.SENS-RDR BATTERIES AND BATTERY LIFEThe SEN S-RDR operates with two AA alkaline batteries only. Other battery types may result in improper function of the reader.NOTE: When the batteries in the SEN S-RDR get low, the LCD display will read “LOW BATT”. Once the low battery condition is reached, the reader will no longer function. Replace batteries to restore operation to the SENS-RDR.The SENS-RDR automatically turns off when not used after 30 minutes. T o conserve the battery life of the SENS-RDR, it is recommended that the reader be turned off when not in use. T o turn off the reader, press and hold the button for approximately 2 seconds until the reader sounds.2 I56-1801-004 ©2016 System Sensor. 06-10。

威士达(VESDA)对于烟草仓库消防报警系统的解决方案当宁消防网发表日期：2015-03-30 11:18:03 浏览次数：261多年以来，由于原料贮存和成品加工及贮存所形成的恶劣环境，烟草业一直令消防产业感到困惑。

长期以来，人们一直使用点式或对射式探测器，但在保护这些恶劣环境方面收效甚微。

烟叶储存为防止贮藏的烟叶里出现昆虫和受霉菌感染，需要定期对烟叶仓库进行熏蒸。

但消防系统在保护烟叶仓库时所面临的内在问题恰恰是熏蒸过程中产生的一定量腐蚀性气体和微粒。

磷化铝杀虫剂产生活动熏蒸气体呈酸性，具有很强的腐蚀性。

传统探测器较薄的金属部分会被腐蚀，使其在极短时间内就无法工作。

这些酸性气体还会腐蚀用于从传统探测器向火灾报警控制盘(FACP)发送信号和数据的电缆绝缘层内的导线。

生产将烟叶加工成香烟和雪茄的过程中会产生大量粉尘。

这一加工工艺再加上多数制造厂的潮湿环境，使大多数烟雾探测器遇到了问题。

传统的离子和光电感烟探测器及对射式探测器会把粉尘当作烟雾而产生误报警。

另外，在静电和潮湿气体的作用下，粉尘会粘附在这些探测器上，使系统因过滤网和进烟孔被堵塞而失去作用。

威士达(VESDA)的优越性....威士达(VESDA)是世界领先的吸气式感烟火灾探测系统，它能够在火灾的极早期阶段(参看图1）对烟雾进行可靠的探测，从而提供最佳的防火性能。

无论仓库的环境多么恶劣，威士达(VESDA)都能够为用户提供高性价比的以及可靠、有效的烟雾探测。

威士达(VESDA)可以连续采集并分析被保护区内的空气样品，从而探测烟雾是否存在。

这种可靠的极早期报警能够最大限度地降低货物被烟雾污染、设施及财产被损害、货物配送业务中断的可能性。

威士达(VESDA)探测器是通过采样管网上许多采样孔不断采集空气样品，并将空气样品传送到安装在外部的探测器进行精确分析，因而可以提供极早期报警。

每台威士达(VESDA)探测器采样管网的最大保护面积可达2000m2(20000ft2)，采样管网系统的配置非常灵活，可以适用于所有类型的车间和仓库。

一、VESDA烟雾报警系统原理简介前言VESDA烟雾报警系统是采用了当代先进的光电技术、网络通信技术和计算机技术制造的高技术产品，内含有多项专利保护的专门制造技术。

该系统独劈蹊径，改变了国内外传统火灾探测器的设计思路，其主要特点有：A 变被动等待为主动抽取空气样品。

传统的火灾探测器都是固定在房间的顶棚上或烟雾易到达之处，等待烟雾将其淹没并渗透到探测器内部时才能引起报警，这个过程花费的时间比较长，如同“守株待兔”。

而VESDA采用了高效抽气泵，通过分布到保护区的采样管网，主动抽取保护区的空气进行分析，并探测其中的烟雾含量，变被动等待为主动出击。

B 采用激光做光源，利用光散射原理探测烟雾，实现了极高的探测灵敏度和很宽的探测范围，两者结合体现出的优异的性能，这在传统火灾探测器中是没有的。

要求火灾探测器既有高灵敏度，又有宽的。

可调的探测范围，一直是消防业界追求的目标，因为消防业的最高的理念就是以防为主，制止火灾的发生。

VESDA系统采用高灵敏的探测器能测出保护区出现的早期微量烟雾，根据烟雾量的增长，发出早期予警、中期予警和火灾临界报警，使人们提早发现火灾苗头，将火灾扑灭于萌芽状态，不会酿成大火。

二、操作手册1．编程器操作说明编程器是VESDA系统中重要部件之一。

分为两种：模块试编程器或便携试编程器。

模块试编程器一般安装在主机或集中显示，编程机架上，位置固定。

便携试编程器使用方面，人们可以拿着它到需要编程的探测器上使用。

1.1编程器的作用：●主要用于对VESDA系统进行编程调试。

●VESDA系统出现故障时用编程器来查找故障原因。

●用于查找事件记录和系统内各部件的状态●利用编程器内在菜单，配合面板上的按键对VESDA进行简单的控制。

1.2 编程器上按键的作用：编程器有两排按键，箭头键用于移动屏上的光标，其他键用于增减数值和确认或退出菜单。

详细说明如下：键：用于向左、向右移动光标，或向左、向右滚动高亮条。

在屏幕提示中选“NO”时，按〈键确认。

系统组件探测器含有以下组件：• 1 个吸气式烟雾探测器• 1 个安装支架• 1 个直接在安装面安装探测器的模板• 1 个用于监控式GPI 的线路终端电阻器• 1 本安装说明书（本文件）• 1 个切管器(用胶带贴在探测器门内)安装基本条件• 24 VDC 电源和备用电池，符合本地火灾防护法规和标准。

• 安装支架所使用的螺丝与嵌件(根据安装位置决定)。

• 进行探测器初始配置需使用的A 型至B 型USB接口导线。

• 系统设计指定的标签，例如采样点标签 。

• 符合外壳的IP40等级的电缆葛兰。

• 导管，在系统设计中说明。

• 1.1 mm2 (18 AWG)或更大的电源线缆。

• 24AWG-12AWG控制器回路接线规格。

• 用于初始配置的带有Xtralis VSC软件的PC或笔记本电脑。

• 在公司网络中添加探测器的标准连接说明。

遵循的标准UL和ULC• 特殊应用：特殊应用：高(1.6%/m)至标准(8.0%/m)• 开放区域防护开放区域防护，0至300 ft/min气流速度：高(1.6%/m)至标准(8.0%/m)• 开放区域防护，300/1000/2000 ft/min气流速度：高(1.6%/m)至增强(4.0%/m)• 开放区域防护，3000/4000 ft/min气流速度：高(1.6%/m)电源功耗（24 VDC 电源）型号一般状态一般报警峰值电流VEA-040-A00-NTF-CH27 W27 W 3.5 AVEA-040-A10-NTF-CH27 W27 W 3.5 A控制器回路线功耗: 30mA.环境要求• 探测器环境温度：0°C至39°C*• 采样空气温度**：-20°C至60°C• 湿度：5%至95%*UL产品认证环境温度0°C到38°C。

**采样空气温度在进入探测腔之前应达到环境温度，详细信息请参照产品设计手册及应用说明。

注意：注意： 如需了解其他操作环境参数，或在正常操作环境下采样空气持续超过0.05% obs/m时的配置参数，请咨询您的NOTIFIER代表。

INSTALLATION,OPERATION,MAINTENANCE AND TROUBLE-SHOOTING MANUAL OF VESDA AUTOMATIC FIRE / SMOKEDETECTION WITH ALARM SYSTEMINFULLY AIR CONDITIONED RAILWAY COACHES INTRODUCTIONXtralis VESDA system is a very early warning aspiration type smoke detection system. VESDA system works on the principle of laser light scattering incorporating particle counting function with a fully integrated detection chamber.The particle counting mechanism is used to prevent false alarms due to large volumes of dust or fibers or large airborne particulates presented in the sampled air and not for the purpose of smoke density measurement and detection.The Xtralis VESDA system installed is a proven and established technology system on International Railway systems for the protection of Rail coaches.The Xtralis VESDA Aspiration Smoke Detection System installed consists of the following components.∙Xtralis VESDA LASER FOCUS Detectors-Model No: VLF-500Installed in the passage(attendant location)inside each coach∙Xtralis VESDA System Manager Graphical Software–Model No: VSM-4 Installed in the Pantry Car for control and monitoring of detectors installed in each coach∙Air sampling pipe network with capillary sampling points and sampling holes to transport air to the detection systemI nstalled across the length of the coach covering passenger seating area, toilets,return air path, electrical cabinets and general area.∙Sounder and Strobe lightI nstalled in the passage (attendant location) for audio visual annunciation ofalarm conditionThe detector installed is capable of indicating an alarm in four stages viz., Alert, Action, Fire1 and Fire2. The strobe light(visual indication) is triggered when the ‘Action’ Stage of Alarm is trigged and the sounder (audible indication) is triggered when the ‘ Fire1’Stage of Alarm is triggered.1X TRALIS VESDA D ETECTOR O PERATIONThe diagram below illustrates the different parts of an Air Sampling Smoke Detection System1.Air is sampled by the Xtralis VESDA detector through a pipe network speciallydesigned to the requirements of the individual train coaches.2.The air sample is filtered by the Xtralis VESDA detector to remove dust and dirtbefore it is passed through the laser detection chamber.The filter used for filtering the air borne dust particles is indicated in the below diagram.HighefficiencyFilterchamber Dust FilterFirst stage of the filter removes dust and dirt from the air sample before the sample enters the laser detection chamber for smoke detection. The second (ultra fine) stage provides an additional clean air supply to keep the detector’s optical surfaces free from contamination, ensuring stable calibration and longer detector life. The detector constantly monitors the filter efficiency and a fault is raised automatically on the detector when the filter needs to be replaced.3.The air sample after filtration enters the laser detection chamber. The laserdetection chamber used for smoke measurement and detection is indicated in the below diagramWhen smoke is present,the laser light gets scattered within the detection chamber that is detected by a very sensitive receiver system using sophisticated electronics. This signal is processed to represent the absolute level of smoke present. When the smoke density reaches the set threshold an alarm is raised.4.The sampled air is expelled via an exhaust port at the top of the detector.The Xtralis VESDA detector components are housed inside a polycarbonate enclosure positioned on a standard mounting bracket supplied with the detector. The detector receives power and communicates with the host equipment via screw terminal connections within the unit. Alarms and troubles are communicated to the host equipment via programmable relays and via an RS232 asynchronous communications port. The front of the detector includes a sophisticated user interface to display the operating state, alarm and fault status of the detector.2X TRALIS VESDA L ASER FOCUS(VLF)D ETECTOREach detector covers an area of up to 500m2for open space protection and maximum pipe length of 50 meters.Instant Recognition display and Instant Fault Finder TM on detector–allows easy determination of detector status and alarm and fault detail3M ONITORING AND C ONTROL S YSTEMTo set up a centralised monitoring system, a VESDAnet loop(RS485)is created by networking all the Xtralis VESDA Detectors installed in each coach in peer to peer/daisy chain.The following block diagram indicates the system setup.This VESDAnet loop is used for PC based monitoring and control using VSM-4 software.V E S D A S y s t e m M a n a g e r-4G r a p h i c S o f t w a r e B a s e d C e n t r a l M o n i t o r i n gThe VESDAnet loop is interfaced using High Level Interface (HLI) with a PC installed at the monitoring location. VESDA System Manager-4 (VSM-4) software is installed on the PC for complete monitoring and control of all the VESDA detectors installed.Key features of VSM-4 software are as follows:∙3-D Floor Plan: showing the entire area and the location of each detector within the area∙Real-time Smoke Trending: Click on a detector and see the real time smoke level in the area. You could also see alarm settings, filter status, event log etc.∙Group Trend Graphs: The Operator could compare the smoke level in multiple areas on real time basis in a single graph. This feature is particularly useful, when the operators monitoring finds all of a sudden smoke level rising in a particular coach, then they could compare the smoke level of this coach with the adjacent coach or farthest coach. The supervisor could also review history of the event across multiple detectors on the same graph to ascertain extent and trends of smoke movement.∙Text2Speech Option: provides an audible warning to operators.∙Status Bar: highlights the latest and most important event (prioritised and colour coded)∙Graphical Location information: exact event location is pinpointed on the floor plan.∙Remote Event Log Retrieval, Viewing and Sorting∙Multiple Event Log Database Management∙Auto-discovery of detector network: wiring order and device configurations.∙Full Remote Programming of all the detectors: change any function or parameter through multiple editing views.∙Event Response notification by Email and SMS to defined users on defined events using SMS module4P IPE N ETWORK L AYOUT AND S AMPLING M ETHODSThe following diagram indicates the typical pipe layout in each coach.The typical arrangement of a concealed sampling point is shown in the diagram below.These sampling points are installed at locations with public (passengers) access–passage and seating area.Inside equipment cabinet,normal sampling holes are considered.In certain locations of the train, Heat Activated Sampling Point (HASP) is used. These areas include engine room of the Power Car,Kitchen Area of Pantry Car and in all Lavotories of all the coaches.The picture below is a sample of HASP sampling head.The HASP head operates on thermal detectors principle in its normal operating mode. As fire starts and develops, heat (ambient temperature) increases to such point that the sampling hole is opened and it becomes a normal air sampling hole, hence the detection of the fire and alarm from Xtralis VESDA detectors. As per the Certificate of Appraisal, issued by National Building Technology Centre of Australian Government, the heat activation temperature is 68 C.DETECTOR INSTALLATION&OPERATIOND ETECTOR MOUNTINGThe VESDA Laser FOCUS can be installed upright, inverted or horizontally.Note:Ensure the smoke detector is mounted away from obstructions and below ceiling LevelCaution:An exhaust deflector must be fitted for upright mounting, unless the exhaust port is connected to a return air pipe.Caution:Do not install this unit on its side. There is a risk of particulate and condensation collecting on critical elements of the detector chamber reducing the detectors performance.Ensure that there is sufficient clearance to mount the detector, noting the location of air sampling pipes and cable entry points.Owing to the rigid nature of the plastic pipe, installation must provide for sufficient movement in all pipework (air inlet, air exhaust and cable pipes) to allow pipe ends to be easily fitted and removed.Mounting locationInstalling the smoke detectorIn all installation cases the mounting bracket must be fitted (upright) as shown in figure.Note:Ensure the mounting surface is flat. This will permit an air tight seal to be achieved between the sampling pipe and the tapered air ports on the detector. Warning:Prior to drilling the attachment holes for the mounting bracket, ensure that all mounting surfaces (i.e. walls, cabinet sides, etc.). are clear of electrical wiring and plumbing.When the pipe network and cabling are already fitted, the bracket can be used to aid alignment of the detector with the pipes. The Installation procedure below explains this process.Installation procedureCut the air inlet pipe and exhaust pipe (if used) at 90 deg., and to the same length (for normal and inverted mounting). Remove all rough edges. This is critical to obtain an air tight seal with the smoke detector.1. Position the air inlet centerline mark (A), see Figure, of the mounting bracket against the end of the air inlet pipe.2. In the cut out section of the mounting bracket mark a line across the top of the cut out if metric size pipe is used or mark a line across the bottom of the cut out if Imperial size pipe is used.3. Slide the mounting bracket down (up for inverted mounting) until the top of the bracket aligns with the marked line.4. Mark off and drill the 2 bracket mounting holes (H).5. Screw the bracket to the mounting surface.6. Hook the smoke detector onto the mounting bracket tabs and pull it down into place.7. Use the two M4 x 20 mm locking screws provided and screw them into the screw holes on the left and right side of the detector. See the items marked (F) in the Figure Detector removal.8. The air sampling pipe can now be attached and power connected.(See section wiring connections for connection information).Mounting bracket orientation for upright mountingMounting Bracket Rear ViewAir inlet pipe connectionsThe tapered shape of the air inlet port is designed to accept standard pipes of OD 25 mm (ID 21 mm) or IPS¾ in (OD 1.05 in) and provide an air tight seal.Note:Do not glue the air inlet pipe to the detector. This will void your warranty.Detector cabling requirementsThe screw type terminals located on the termination card within the VESDA Laser FOCUS will accept wire sizes from 0.2sq. mm to 2.5sq. mm(30–12 AWG).To reach the terminal block, open the field service access door,(see Controls and indicators section), and then unscrew the front cover retaining screws. Lift off and swingdown the front cover. The terminal block is located on the right hand side of the detector.Terminal blockGPI–General Purpose Input (Terminals 1 & 2)The General Purpose Input (GPI) is a programmable input. When the GPI function parameter is set to external,the detector shall indicate an external equipment fault condition by monitoring the line impedance. An End of Line (EOL) resistor is supplied with the product and must be assembled in parallel with the device to be monitored. The EOL resistor provides a known termination to the external equipment, this allows the VLF to detect open or short circuits. The detector monitors the EOL resistor, see Figure, and reports any faults when the GPI function is set to any value, except None.Caution:These terminal blocks come assembled and should NOT be disassembled.If GPI will not be used we recommend that you leave the EOL resistor assembled.Power supply (Terminals 8, 9, 10 & 11)It is recommended that the power supply be compliant with local codes and standards required by the regional authority.Caution:Check the product termination wiring label during installation and subsequent Maintenance visits.Operating voltage: 24 VDC nominal (18-30 VDC)Power consumption: 5.2 W nominal, 7.0 W in alarmCurrent consumption: 220 mA nominal, 295 mA in alarmRelays (Terminals 12-20)The relays allow alarm and fault signals to be hard wired to external devices, such as fire alarm control panels and loop interface modules away from the detector (example, sounding a siren at Action threshold).Note:By default, the Fault relay is normally energized when no fault is present. For example when there is no fault present, terminal 12 is held open and terminal 14 is held closed. When there is a fault present, terminal 12 is held closed and terminal14 is held open.Interface cardThe VESDA LaserFOCUS allows for the installation of network interface card used for networking multiple detectors to form a VESDAnet.Network CardInstalling the VESDAnet Card into VLFCaution:The detector must be powered down before installing or swapping an interface card otherwise damage may occur.Detector with front cover open showing the space for interface card inside thedetector1.Ensure the detector is powered off.2.Open the VLF. See the VLF product guide for details.3.Plug the interface cable from the VESDAnet Interface Card into the socketmarked (A).4.Place the card in the space provided, ensuring that the mount for the screwmatches up with the hole on the card. The interface cable should fold under thecard.5.Once the card is seated firmly, use the screw provided to secure the card.Themounting screw must be installed as it also grounds the card.6.Power up the detectorDetector with front cover open with interface card installed inside the detectorTesting the Installed VESDAnet Interface CardThe VESDAnet Interface Card uses LEDs to signify certain conditionsTo test the card:1.Apply power to the VLF.2.View green Power LED and flashing SYS OK LED on the card.3.View amber DET LED lit.4.View amber LEDs lit corresponding to correct Port A and B connections to thenext device.Typical Wiring to VESDAnet–Network of detectors installed in different coachesRS232 Compatible serial portThe RS232 serial port requires a standard 9-pin DB9 PC COM serial extension cable (male to female) for configuring the detector using a PC with VESDA System Configurator (VSC)installed, for status monitoring and command input, and for event log extraction and software upgrades.9 Pin connector and RS232 serial portInstallation ChecklistPerform the following checks listed below to ensure that all the necessary items are completedInstallation ChecklistC OMMISSIONING SMOKE TESTIt is recommended that a smoke test be carried out to prove the integrity of the pipe network, to demonstrate that the system is working and to measure the transport time to the detector.This test involves introducing a smoke sample at the furthest sampling hole and then measuring the time taken for the smoke to travel to the detector. Results are logged and compared to subsequent tests to note variations of the system.P RODUCT I NTERFACEThe VESDA LaserFOCUS provides the following information and control options without the need for additional configuration tools.• Detector status: Normal, Alarm, Disabled and Fault.• Alarm levels: Alert, Action, Fire 1 and Fire 2.• Smoke levels relative to Fire 1.• Detector fault types (Instant Fault Finder).• Test, Reset and Disable.• AutoLearn Smoke (setting alarm thresholds).• AutoLearn Flow (setting baseline for normalizing air flow and flow thresholds).Instant Recognition DisplayThe Instant Recognition display provides you with an immediate understanding of smoke levels relative to Fire 1 alarm threshold.Detector control buttonsSmoke level displayThe smoke level is displayed on the Smoke Dial and provides incident information essential for effective response in very early warning situations. This display provides you with an instant understanding of the smoke event relative to the Fire 1 Alarm Threshold. Between 1 and 10segments may illuminate. Each segment is equivalent to 1/10 of a Fire 1 warning.Smoke level and fault condition displayDETECTOR SPECIFICATIONPower Supply-Supply Voltage 24 VDC nominal (18-30 VDC) Power Consumption @ 24 VDC- 5.2 W nominal, 7.0 W in alarmCurrent Consumption @ 24 VDC-220 mA nominal, 295 mA in alarmCase Dimensions (WHD)-245 mm x 175 mm x 90 mm(95/8 in. x 6 7/8 in. x 31/2 in.)Weight- 2 kg (approx. 4.4 lbs)IP Rating-IP30Mounting-Upright, inverted or horizontal with appropriatemounting bracketOperating ConditionsDetector Ambient0o C to 40o C (32o F to 104o F)Sampled Air0o C to 40o C (32o F to 104o F)Humidity (non-condensing)5% to 95%Sampling NetworkAir inlet pipe(PVC pipe)OD 25 mm (ID 21 mm) / IPS ¾ in. (OD 1.05 in.) Single pipe length50 m max.Branch pipe length30m (50 ft.) max. per branchArea Covered-Upto500 m2Field WiringAccess 3 x 25 mm (1 in.) Cable entries (1 rear entry) Terminals0.2 mm2-2.5 mm2 (30-12 AWG)Interfaces Power In/Out.Fire 1 Relay(changeover, 2A @ 30 VDC).Action Relay(changeover, 2A @ 30 VDC).Fault Relay(changeover, 2A @ 30 VDC).General Purpose Input(clean contact).External display port(with power limited output).RS232 programming port.Alarm RangesAlert, Action0.025–2.0% obs/m (0.008–0.625% obs/ft.)*Fire 1, Fire 20.025–20% obs/m (0.008–6.25% obs/ft.)* Individual Delays0-60 seconds2 Threshold sets (1 & 2)Day and nightDisplay4 Alarm State Indicators(Alert, Action, Fire 1 and Fire 2).Fault and Disabled Indicators.10-sector Smoke Level Indicators.VESDA®LaserFOCUS VLF-250 Product Guide3710-sector Instant Fault Finder.Reset, Disable and Test Controls.Smoke and Flow AutoLearn Controls and Indicators.Event LogUp to 18 000 events stored.Smoke trend, flow trend, faults events, configuration events and operational events.Date and time stamp.AutoLearn Smoke & FlowMinimum 15 minutes, maximum 15 days (default 14 days). During AutoLearn, thresholds are NOT changed from pre-set values.TROUBLESHOOTINGInstant Fault FinderWhen a fault is registered on the detector, the fault light remains ON for Major Fault situations and flashes for Minor Fault.The Instant Fault Finder function is operated by pressing the Reset and Disable buttons together.Instant Fault Finder provides rapid fault diagnosis and is an additional function of the Smoke Dial display. One or more segments of the Smoke Dial will illuminate, indicating the fault by number.The Instant Fault Finder function aids rapid diagnosis of faults.Instant fault finder diagnosisMAINTENANCEThe VESDA LaserFOCUS smoke detector continuously monitors its own operation and conducts frequent health checks. There are two serviceable items, the air filter cartridge and the aspirator.Caution:Electrostatic discharge precautions need to be taken prior to removing the front cover from the detector otherwise damage may occur to the detector.Maintenance-replaceable itemsPrior to any work or maintenance being carried out on the VESDA LaserFOCUStake the necessary steps to advise the monitoring authority that power may be removed and the system disabled.Maintenance scheduleMaintenance should be conducted by a qualified service contractor.Maintenance scheduleReplace the Filter Cartridge (VLF)The VESDA Laser FOCUS smoke detector uses a disposable dual stage air filter cartridge. This filter removes dust contamination from sampled air and provides a clean air bleed to preserve the detector chamber optics. The detector constantly monitors filter efficiency. To maintain the operational integrity of the smoke detector, it is recommended that the filter be replaced every2 years, or when a filter fault occurs or more often for environments that experience high levels of contamination.A fault is raised on the detector, when the filter needs to be replaced. During the replacement process the detector needs to be informed that a new filter has been installed.Note:Ensure the area surrounding the filter is clear of dirt and debris prior to replacement.Note:The filter is for single use only, it cannot be cleaned and re-used.Filter replacement stepsEnsure the detector remains powered up during filter replacement and a new filter cartridge is available:1. Push in the security tab and lift up the field service access door (A).2. Set the detector to‘Standby’ mode by pressing the Disable button for 6 seconds. The Disabled LED begins to flash. After releasing the Disable button the disabled LED will slowly flash.3. Undo the recessed retaining screw (C) and pull out the old filter (B).4. Using your finger, firmly press the filter switch (D) (in the filter recess of the detector)5 times within 5 seconds to confirm to the detector that a new filter is about to beinstalled (see inset). A LED next to the serial interface will flash each time you push the filter switch, and will continue flashing once you have successfully pressed the switch 5 times in 5 seconds.5. Insert the new filter (VSP-005) and tighten the retaining screw.6. Press the Disable button for 6 seconds to return the detector to normal operation.7. Record the filter replacement date on the filter.8. Close the field service access door.Filter replacementAspirator replacementCaution:Electrostatic discharge precautions need to be taken prior to removing the front cover from the detector otherwise damage may occur to the unit.Aspirator removal (assumes normal mounting, see Figure):1. Disconnect power to the detector.2. Push in the security tab and lift up the field service access door.3. Unscrew the two front cover retaining screws, lift and swing down the front cover.4. Only disconnect the fan wiring loom from the connection point (E) at the aspirator.5. Undo the retaining screw on the aspirator (A).6. Swing out the aspirator, then lift and remove it from the detector.LegendNote:Any time the aspirator is removed ensure the area surrounding the aspirator is clear of dirt and debris prior to replacement.Note:Care must be taken during aspirator replacement. The aspirator must be correctlyseated; this is essential so that gaskets are not damaged or dislodged from the underside of the aspirator.Aspirator replacement steps1. Clip the aspirator (VSP-715) into the retaining clip (D) and swing it back into the detector.2. Tighten the retaining screw (A) (do not over tighten).3. Reconnect the fan loom to the aspirator (E).4. Replace the front cover and screw it into place.5. Close the field service access door.6. Reconnect power to the detector.Aspirator replacementCleaning Sampling PipesFollow the instructions below to clean the sample pipe network.1.Ensure that detectors are isolated from the monitoring panel and fire suppressionsystems.2.Notify the relevant authorities that the work is being performed.3.Check and record the current airflow for before and after comparison.4.Disconnect the detector power supply.5.Remove all pipes from the detector inlet(s) and exhausts then cover them toensure that no further dust can enter the detector.6.Ensure that end caps are set firmly in place.7.Connect a vacuum cleaner to the detector end of each pipe in turn. When turnedon, it will extract dust and contaminants that have built up inside the pipes. 8.Alternatively, introduce compressed air (400 KPa for 2 minutes) at the detectorend of each pipe in turn to blow dust and contaminants out through the sample holes.9.Take precautions to ensure that dust is not blown into undesired areas. Ensurethat end caps are still set firmly in place.pare the before and after flow rates. Ideally, the flow should be close to100% for each used pipe. If this is not the case, the capillaries and detector may need closer inspection. If the sample pipe network appears to be OK, continue with the remainder of this section to determine the cause of the reduced airflow.11.Once the system has been serviced, cleaned, tested and is operating fault-free,return it to its normal operating mode.。

智能烟雾探测器市场需求分析引言智能烟雾探测器是一种能够检测室内空气中烟雾浓度的装置，广泛应用于家庭、商场、办公室等各类场所，用于及时发现火灾并发出警报，以保障人们的生命财产安全。

本文将对智能烟雾探测器市场的需求进行分析。

市场规模智能烟雾探测器市场规模庞大，随着人们对于火灾安全的重视程度的提高，市场需求呈现逐年增长的趋势。

据统计数据显示，全球智能烟雾探测器市场规模预计将在未来几年内保持强劲增长，预计到2025年市场规模将超过XX亿美元。

主要需求1. 安全性需求随着火灾事故的频发，人们对于家庭以及公共场所的安全需求不断增加。

智能烟雾探测器具备检测火灾的能力，及时发出警报，给用户提供了一个安全保障。

因此，安全性需求是智能烟雾探测器市场最主要的需求之一。

2. 便捷性需求智能烟雾探测器不仅能够检测烟雾，还可以与智能家居系统连接，实现远程监控和控制。

用户可以通过手机应用或者智能音箱等设备，远程获取烟雾报警信息，便于实时处理。

这种便捷性需求正日益受到用户的重视，成为市场需求的另一个重要方面。

3. 能效需求随着能源和环境的紧迫性问题逐渐凸显，人们对于能效需求的关注度也日益提高。

市场上越来越多的智能烟雾探测器在节能方面做出了努力，采用低功耗的处理器和传感器，以减少能源消耗。

因此，节能性能成为智能烟雾探测器市场需求的重要组成部分。

4. 用户体验需求在市场竞争日益激烈的背景下，用户体验的重要性愈发凸显。

智能烟雾探测器在设计上，注重简洁、易用、美观的特点，满足用户对于舒适和个性化需求。

用户体验需求的满足，能够提高产品的竞争力，促进市场的发展。

市场前景智能烟雾探测器市场前景广阔，随着科技的不断进步和人们对火灾安全的持续关注，市场需求将持续增长。

未来的市场发展趋势将主要集中在产品性能的进一步提升和功能的增加，如智能烟雾探测器与智能家居的深度融合，提供更多智能化的服务。

此外，面向特定行业和场所的定制化需求也将成为市场的重要增长点。

烟雾探测器的种类和使用常识大全烟雾探测器是一种非常重要的安全设备，能够及时检测并报警火灾和烟雾。

它们在家庭、办公室、商业建筑和公共场所都得到广泛应用。

本文将介绍烟雾探测器的种类和使用常识，帮助读者更好地了解和使用这些设备。

一、光电式烟雾探测器光电式烟雾探测器是最常见和广泛使用的一种。

它由光电传感器和报警装置组成。

当烟雾进入烟雾探测器内部，烟雾颗粒会散射光线，光电传感器会监测到光的强度变化并触发报警器。

光电式烟雾探测器对烟雾的敏感度很高，可以及早发现火灾迹象，适用于家庭和商业用途。

二、离子式烟雾探测器离子式烟雾探测器利用放射性材料产生离子化空气，当烟雾进入烟雾探测器时，烟雾颗粒会阻碍离子的传输，从而改变电流的流动。

当电流变化超过设定阈值时，报警器将触发。

离子式烟雾探测器对燃烧物质的快速燃烧有很高的敏感度，适用于监测有明火的环境，如厨房和实验室。

三、光学式烟雾探测器光学式烟雾探测器采用红外光束技术，通过检测光的散射来启动报警器。

当烟雾进入烟雾探测器时，烟雾颗粒会散射红外光，传感器会通过分析散射光的变化来判断是否有火灾发生。

光学式烟雾探测器具有快速响应和高抗干扰能力的优点，适用于要求高灵敏度和准确性的环境，如电脑机房和实验室。

四、热式烟雾探测器热式烟雾探测器通过检测环境温度的升高来判断是否有火灾发生。

当检测到环境温度超过设定的阈值时，报警装置将启动。

热式烟雾探测器适用于高温和含有高湿度或粉尘的环境，如车库和工厂。

五、使用常识和注意事项1. 安装位置：烟雾探测器应当安装在通风良好的位置，离火炬和烟雾产生源远离。

若有多层楼，每层都应取消安装探测器，尽量覆盖所有空间。

2. 定期测试：为了确保烟雾探测器正常工作，建议定期进行测试。

可以按下测试按钮，查看警报是否响起。

同时，定期更换电池或电源保证设备正常供电。

3. 防止虚警：烟雾探测器应远离厨房和浴室等易产生水蒸气和烟雾的地方，以免误报警。

4. 定期清理：定期清理烟雾探测器的外表面，以防尘和灰尘的积聚影响其敏感性。

最初编制日期: 25-九月-2017SDS 编号: -产品名称： 烟雾探测器测试剂版本号: 01化学品安全技术说明书按照 GB/T 16483、GB/T 17519编制。

烟雾探测器测试剂 烟雾探测器测试剂 Smoke Test Smoke Test 产品名称No. PR02105 (Item# 1007654)产品编号Manufactured or sold by:企业名称CRC Industries Trading (Shanghai) Co., Ltd.地址武宁南路488号1710室静安区 - 200042上海，中国常规建议+86 21 6236 603524小时紧急电话+86 532 83889090网站 推荐用途及限制用途感烟探测器测试剂推荐用途25-九月-2017最初编制日期紧急情况概述气溶胶 压力下的内容物。

压力罐若接触热量或火焰，可能会爆炸。

造成严重眼刺激。

GHS GHS危险性类别危险性类别类别 1气溶胶物理危险类别 2严重眼睛损伤/眼睛刺激性健康危害未被分类。

环境危害未被分类。

其他不影响分类的危害性标签要素象形图GHS GHS标记标记警示词危险危险性说明H222极易燃气溶胶。

H229压力容器：遇热可爆。

H319造成严重眼刺激。

防范说明预防措施P210远离热源/火花/明火/热表面。

禁止吸烟。

P211切勿喷洒在明火或其他点火源上。

P251切勿穿孔或焚烧，即使不再使用。

P264作业后彻底清洗。

P280戴防护眼罩/防护面具。

事故响应P305 + P351 + P338如进入眼睛：用水小心冲洗几分钟。

如戴隐形眼镜并可方便地取出，取出隐形眼镜。

继续冲洗。

P337 + P313如仍觉眼刺激：求医/就诊。

安全储存P410 + P412防日晒。

不可暴露在超过50°C/122 F的温度下。

废弃处置根据当地管理部门的要求对废弃物和残余物进行处理。

极易燃气溶胶。

产品在正常的使用、储存和运输条件下是稳定的和非活性的。