新品HSH-RM2ML-RM3ML HSH-RM2M HSH-RM3M 常用室内温度传感器到货霍尼韦尔HSH-RM2ML 系列室内墙装温湿度传感器可用 于中央空调系统室内空气的温度和湿度测量,HSH-R系列室内墙装温湿度传感器有多种控制信 号输出,可以兼容于多种自动控制系统。接线:a 电流信号HSH-RM2M HSH-RM2MLHSH-RM3M HSH-RM3MLHSH-RM5M HSH-RM5ML电流的为4-20ma 两线制,*少只要3根线b 电压信号HSH-RV2V HSH-RV2VLHSH-RV3VHSH-RV3VLHSH-RV5V HSH-RV5VL信号为0-10vdc 3线制,*少只要4根线测量温度范围:- 10 ℃ ~ 60 ℃工作环境:- 15~60℃ , 0~95%RH(非冷凝)湿度精度@ 25℃,输入电压24VDC 2% 20~80%: ±2%; 0-95%: ±3%3% 20~80%: ±3%; 0-95%: ±5%5% 20~80%: ±5%; 0-95%: ±9%供电 0- 10V 24 VDC/24VAC±20%4-20mA 24 VDC ±20%IP等级 IP30接线规格 0.33~1.65mm2储存环境 -30 ~ 70 ℃外壳材料 PC+ABS (防火等级: UL94-V0)标准电阻:NTC 10K 10 kΩ @ 25 ℃NTC 20K 20 kΩ @ 25 ℃PT1000 1000 Ω @ 0℃温度精度: NTC 10K 0.3K @ 25℃NTC 20K 0.3K @ 25℃PT1000 0.2K @ 0℃0- 10V 0.3K @ 25℃,输入电压24VDC (温度元器件为PT1000)4-20mA 0.3K @ 25℃ , 输入电压24VDC (温度元器件为PT1000)订货型号和技术参数型号 湿度输出信号 湿度精度 温度输出信号 温度精度* LCD显示HSH-RM2A 4~20mA 2% 10K NTC 0.3K @ 25℃ 无HSH-RM2B 4~20mA 2% 20K NTC 0.3K @ 25℃ 无HSH-RM2P 4~20mA 2% PT1000 0.2K @ 0℃ 无HSH-RM2M 4~20mA 2% 4~20mA 0.3K @ 25℃ 无HSH-RM3A 4~20mA 3% 10K NTC 0.3K @ 25℃ 无HSH-RM3B 4~20mA 3% 20K NTC 0.3K @ 25℃ 无HSH-RM3P 4~20mA 3% PT1000 0.2K @ 0℃ 无HSH-RM3M 4~20mA 3% 4~20mA 0.3K @ 25℃ 无HSH-RM5A 4~20mA 5% 10K NTC 0.3K @ 25℃ 无HSH-RM5B 4~20mA 5% 20K NTC 0.3K @ 25℃ 无HSH-RM5P 4~20mA 5% PT1000 0.2K @ 0℃ 无HSH-RM5M 4~20mA 5% 4~20mA 0.3K @ 25℃ 无HSH-RV2A 0~10V 2% 10K NTC 0.3K @ 25℃ 无HSH-RV2B 0~10V 2% 20K NTC 0.3K @ 25℃ 无HSH-RV2P 0~10V 2% PT1000 0.2K @ 0℃ 无HSH-RV2V 0~10V 2% 0-10V 0.3K @ 25℃ 无HSH-RV3A 0~10V 3% 10K NTC 0.3K @ 25℃ 无HSH-RV3B 0~10V 3% 20K NTC 0.3K @ 25℃ 无HSH-RV3P 0~10V 3% PT1000 0.2K @ 0℃ 无HSH-RV3V 0~10V 3% 0-10V 0.3K @ 25℃ 无HSH-RV5A 0~10V 5% 10K NTC 0.3K @ 25℃ 无HSH-RV5B 0~10V 5% 20K NTC 0.3K @ 25℃ 无HSH-RV5P 0~10V 5% PT1000 0.2K @ 0℃ 无HSH-RV5V 0~10V 5% 0-10V 0.3K @ 25℃ 无HSH-RM2ML 4~20mA 2% 4~20mA 0.3K @ 25℃ 有HSH-RM3ML 4~20mA 3% 4~20mA 0.3K @ 25℃ 有HSH-RM5ML 4~20mA 5% 4~20mA 0.3K @ 25℃ 有HSH-RV2VL 0~10V 2% 0-10V 0.3K @ 25℃ 有HSH-RV3VL 0~10V 3% 0-10V 0.3K @ 25℃ 有HSH-RV5VL 0~10V 5% 0-10V 0.3K @ 25℃ 有* 对于电阻输出类型传感器,温度精度为温度元器件精度,对于电流和电压信号输出类型 传感器,温度精度为输入电压为24VDC时的变送器精度。其它更咨询请联系公司.
霍尼韦尔电动蝶阀V4 V8BFW16安装使用说明及注意事项由于常有现场工程师咨询电动阀门执行器调试,霍尼韦尔电动蝶阀安装注意问题,HONEYWELL电动蝶阀使用问题,为方便现场人调试人员,特总结出霍尼韦尔电动蝶阀V4 V8BFW16 安装使用说明及注意事项,供大家参考使用.霍尼韦尔电动蝶阀V4 V8BFW16 安装使用方法:1. 确定阀门的位置放正:a. 对齐管路,并确保全开阀门时,阀体与法兰面无实际的表 面接触(图1):Align the piping, make sure valve disc does not contact the flange surfaces(Figure 1).b. 将阀置于法兰间并且居中;Place the valve between the flanges and center the valve.c. 螺栓穿入盘,用手预紧螺;Install all of the flange bolts.2. 按对角顺序依次锁紧螺栓:依照图2的顺序依次锁紧螺栓bolts according tto the sequence in (Figure 2)3. 全开全关阀门,确保安装无误(图3).Fully close and open the valve according to Figure 3, make sure the valve is proper installed.注意:1. 为使用蝶阀安装密封性更好,霍尼韦尔蝶阀安装请配用蝶阀专用法兰,确保密封圈密封处尽可能贴合.2. 安装后第一次使用或者长时间未使用(无水充满)的管道壁会附有较多的铁锈,导致阀门增加扭力扭矩增大,所以用前将阀门完全打开,将管道完全冲刷后再正常使用.3. 使用前请确保管道中的介质是中性液体,无腐蚀性溶液。4. 由于霍尼韦尔电动蝶阀执行器,出厂初始位置都是在关闭位置,蝶阀装好后应处于全关位置.判断的标准是阀杆上的横线与管道垂直.反正如需要阀板处理全开时,阀杆上的横线与管道平行即可.5. 执行器安装完成后注意检查密封性,如不好的可以在执行器与执行头本体接触处理加一点黄油在,确保密封没有问题,或者接上执行头上的电加热管,以防执行头里边结露.以下是关于HONEYWELL电动蝶阀相关介绍:霍尼韦尔开关量模拟量电动蝶阀V8BFW16(DN50-600)应用:V8BFW16系列蝶阀及其NOM..-E电动执行器可以应用于商业楼宇、公共建筑及城市管网的水系统或通风系统中,可以实现调节量或开关量控制。执行器调节型产品可接受多种控制信号,如4~20mA, 1~5V或2 ~10V(可现场跳线设定).V8BFW16蝶阀及电动阀门执行器NOM-PX-E产品数据霍尼韦尔电动蝶阀体V8BFW16特点:口径 DN50-DN600 无靠背阀座:密封可靠,扭力小,使用寿命长久开关控制或模拟量控制可以手动操作 位置自锁,3D位置指示 加热器预防冷凝IP67防护等级技术参数霍尼韦尔量电动蝶阀V阀体 口径: DN50-DN600 公称压力:PN16 介质: 冷/热水 介质温度:-10 -- 120 蝶阀阀体材质:GGG40(DN50-150为GG25) 阀板 :尼龙涂层GGG40 阀杆: SS410(DN50-300, DN450/DN500) SS410 class 3(DN350/DN400/DN600) 阀座:EPDM 管道连接: ISO7005-2 密封压力: <=DN400 1.76mPa, DN450-600, 1.1mPa 电动阀门执行器型号:NOM..-E电源:220Vac,+/-10%, 50/60 Hz 运行时间:见执行器信息表 行程: 90°± 5° 控制(调节型): 4~20mA, DC 1~5V 或 2~10V 反馈 (调节型): 4~20mA 或 DC2~10V 防护等级:IP67 加热器 :见执行器信息表 过载保护: 内置过热保护,135 ± 5停机,95 ± 15恢复霍尼韦尔开关量,模拟量电动蝶阀V8BFW16(DN50-600)蝶阀特点:DN50以上阀板有加强筋,增加蝶板强度;球墨铸铁蝶板为尼龙涂层,耐腐蚀,耐高温,外形美观,有效降低阀板与阀座间的摩擦;第三面法兰设计符合国际标准ISO 5211衔接介面要求,方 便操作器搭配及高低温延长管使用;阀轴使用无销式连接方式,避免销孔泄漏可能;下轴端八角设计,使蝶板与阀轴紧密咬合,有效减少因加工公差而导致的阀门无法完全关闭,确保阀门密封;无靠背式阀座,避免阀体与阀座的泄漏点;嵌套式阀座设计,方便组装,并有效避免因安装不当而引起的扭力增加;阀座侧面突出于阀体,安装时不需法兰垫片;阀轴与阀体之间,上轴端增加自润式轴承,避免一般蝶阀出现的阀轴与阀体“咬死”现象的发生;并有效降低蝶阀扭力;阀体结构简单,体积小,安装空间小,扭力小,为节能型产品。霍尼韦尔模拟量电动蝶阀阀体及电动阀门执行器型号,注意比例型执行是带有P系列:V8BFW16-050+NOM-P1A-E/CN7220A2007V8BFW16-065+NOM-P1A-E/CN7220A2007V8BFW16-080+NOM-P1A-E/CN7234A2008V8BFW16-100+ NOM-P2A-E(50Nm)V8BFW16-125+NOM-P3A-E(80Nm)V8BFW16-150+NOM-P4A-E(200NmV8BFW16-200+NOM-P4B-E(200NmV8BFW16-250+NOM-P5A-E(400Nm)V8BFW16-300+NOM-P5B-E(400Nm)V8BFW16-350+NOM-P6A-E(800Nm)V8BFW16-400+NOM-P7A-E(1000Nm)V8BFW16-450+NOM-P8A-E(1700Nm)V8BFW16-500+NOM-P8A-E(1700Nm)V8BFW16-600+NOM-P8B-E(1700Nm)V8BFW16-800+NOM-10A-E 5000Nm 开关型量电动蝶阀执行器霍尼韦尔开关量电动蝶阀阀体及电动阀门执行器扭力型号对应如下:V8BFW16-050+NOM-1A-E/CN4620A1001V8BFW16-065+NOM-1A-E/CN4620A1001V8BFW16-080+NOM-1A-E/CN4634A1001V8BFW16-100+ NOM-2A-E(50Nm)V8BFW16-125+NOM-3A-E(80Nm)V8BFW16-150+NOM-4A-E(200Nm)V8BFW16-200+NOM-4B-E(200Nm)V8BFW16-250+NOM-5A-E(400Nm)V8BFW16-300+NOM-5B-E(400Nm)V8BFW16-350+NOM-6A-E(800Nm)V8BFW16-400+NOM-7A-E(1000Nm)V8BFW16-450+NOM-8A-E (1700Nm)V8BFW16-500+NOM-8A-E(1700Nm)V8BFW16-600+NOM-8B-E (1700Nm)V8BFW16-700+NOM-P9A-E 3500Nm模拟量电动蝶阀执行器 V8BFW16-800+NOM-P10A-E , 5000Nm模拟量电动蝶阀执行器霍尼韦尔开关量模拟量电动蝶阀V8BFW16及NOM-PX-E电动阀门执行器产品安装使用方法,由于扭力可选范围大,可以用非常规使用的大扭力风门上使用,比例霍尼韦尔风门执行器极大的扭力34nm,但对特别大的风门或特殊风门,就可选用霍尼韦尔蝶阀及电动阀门执行器NOM作风门执行器使用。霍尼韦尔蝶阀配套用电动阀门执行器 NOM-P10A-E(蝶阀电动阀门比例执行器),NOM-10A-E (蝶阀电动阀门开关型执行器)提供5000Nm的扭力,足以满足大多数蝶阀的对高关断力要求,如有相关需求,请咨询上海创仪相关专业技术人员。关于电动阀门执行器调试,霍尼韦尔电动蝶阀安装注意问题,HONEYWELL电动蝶阀使用问题等相关问题,也可随时咨询上海创仪公司.
THT-N263A 风管型温湿度传感器接线使用注意事项THT-N263A 风管型温湿度传感器是日本神荣SHINYEI主要产品代表,主要用于风管温度温度信号感应测量,实际使用过程常由现场人员不熟悉,经常有咨询使用接线等相关问题.针对由于现场工程师不了解不熟悉的情况,上海创仪公司特别整理关于THT-N263A风管型温湿度传感器接线使用注意事项,为了真实性与可操作性,同时采用文字方式,希望给你带来便捷.接线说明:1. Vp接电源正极,Vn是湿度信号4-20ma输出对应:0 to 1OO%rh2. Vt接电源正极, G(B)是温度信号4-20ma输出对应:0 to 60deg. C3. NC(b)悬空不使用,但是如果温度是要用PT100信号,需要特别改接,详情请咨询创仪公司.以下是关于SHINYEI风管型温湿度传感器THT-N263A,室内温湿度传感器THT-N163A的相关介绍:产品名称:THT-N263A风管型温湿度传感器测量范围:湿度0-1OO%, 温度0-50°C 电源:12-24VDC 输出:湿度4-20mA,二线, 温度:4-20mA,二线 湿度传感器:高精度电阻型 温度传感器:高精度热敏电阻 精度:湿度±2%RH,温度±0.5°C 补偿:全范围补偿SHINYEI THT-N163A 房间温湿度传感器 THT-N163A参数说明:范围:湿度0-1OO %, 温度0-50°C 电源:12-24VDC 输出:湿度4-20mA,二线, 温度:4-20mA,二线 湿度传感器:高精度电阻型 温度传感器:高精度热敏电阻 精度:湿度±2%RH,温度±0.5°C 补偿:全范围补偿以上是关于SHINYEI THT-N263A风管型温湿度传感器接线使用注意事项相关参数说明,更多关于温湿度传感器选型使用等问题欢迎等咨询上海创仪公司.
上海创仪实业有限公司(Shanghai Create Yi Industry Co., Ltd) 总部位于上海,主要业务有:暖通空调系统工程,工厂空调系统维护项目,智能楼宇,暖通空调系统成套设备供应,霍尼韦尔阀门执行器,HONEYWELL,HONEYWELL传感器,阀门执行器 恒温恒湿控制系统集成,室内型温湿度传感器,温湿度传感器,室内温湿度传感器,风管温湿度传感器,风管型温湿度传感器。从事软件开发,弱电系统综合布线工程、自动控制系统和仪器仪表的研发、生产和销售的高科技专业公司.公司有”创仪”等品牌自主品牌产品,同时是霍尼韦尔自动控制(中国)有限公司的授权代理商,主要销售压力表,压差表,压差开关,压差传感器,压差变送器,温湿度传感器,温湿度变送器,流量开关,防爆流量开关,露点传感器,风速传感器,光照度传感器,烟感探测器,烟雾报警器,阀门及执行器,DDC控制器,恒温恒湿控制器,电子空气净化器,二氧化碳传感器等.普遍用于暖通、空调、食品、制药、生物工程、智能楼宇、电厂、化工、水处理、环境监测、工业自动化等领域 公司拥有经验丰富的专业技术队伍.坚持客户至上,诚信经营;以人为本,服务先行的发展理念。我们愿以专业的技术为广大客户提供好的产品与服务.代理销售经营的品牌有:HONEYWELL,SIEMENS,房间温湿度传感器及风管温湿度传感器,暧通空调系统设备,暖通空调阀门执行器,DDC控制器,风门驱动器等各种配套设备,美国DWYER洁净室用压差表和压差变送器, YAMATAKE(azbil) 露点温度传感器, Huba 压差开关,压力传感器,德国BECK压差开关, Sontay 光照度传感器GREYSTONE,VAISALA,E+E, 房间温湿度传感器及风管温湿度传感器等品牌.ESF35-2,DMT142, DMT143,HMT330,HMT360系列防爆温湿度传感器,压差表,压差开关,压差传感器,压差变送器,温湿度传感器,温湿度变送器,流量开关,防爆流量开关,露点传感器,风速传感器,光照度传感器,烟感探测器,烟雾报警器,阀门及执行器,DDC控制器,恒温恒湿控制,电子空气净化器,二氧化碳传感器等更多产品资料及相关技术资料.上海创仪产品手册新产品信息大全,欢迎点击下载!
上海创仪实业有限公司(Shanghai Create Yi Industry Co., Ltd) 总部位于上海,主要业务有: 暖通空调系统工程,工厂空调系统维护项目,智能楼宇,暖通空调系统成套设备供应,霍尼韦尔阀门执行器,HONEYWELL,HONEYWELL传感器,阀门执行器,恒温恒湿控制系统集成,室内型温湿度传感器,温湿度传感器,室内温湿度传感器,风管温湿度传感器,风管型温湿度传感器. 从事软件开发,弱电系统综合布线工程、自动控制系统和仪器仪表的研发、生产和销售的高科技专业公司.公司有”创仪”等品牌自主品牌产品,同时是霍尼韦尔自动控制(中国)有限公司的授权代理商,主要销售压力表,压差表,压差开关,压差传感器,压差变送器,温湿度传感器,温湿度变送器,流量开关,防爆流量开关,露点传感器,风速传感器,光照度传感器,烟感探测器,烟雾报警器,阀门及执行器,DDC控制器,恒温恒湿控制器,电子空气净化器,二氧化碳传感器等普遍用于暖通、空调、食品、制药、生物工程、智能楼宇、电厂、化工、水处理、环境监测、工业自动化等领域 公司拥有经验丰富的专业技术队伍.坚持客户至上,诚信经营;以人为本,服务先行的发展理念.我们愿以专业的技术为广大客户提供好的产品与服务.代理销售经营的品牌有:HONEYWELL,SIEMENS,房间温湿度传感器及风管温湿度传感器,暧通空调系统设备,暖通空调阀门执行器,DDC控制器,风门驱动器等各种配套设备,美国DWYER洁净室用压差表和压差变送器, YAMATAKE(azbil) 露点温度传感器, Huba 压差开关,压力传感器,德国BECK压差开关, Sontay光照度传感器GREYSTONE,VAISALA,E+E, 房间温湿度传感器及风管温湿度传感器等品牌.ESF35-2,DMT142, DMT143,HMT330,HMT360系列防爆温湿度传感器,压差表,压差开关,压差传感器,压差变送器,温湿度传感器,温湿度变送器,流量开关,防爆流量开关,露点传感器,风速传感器,光照度传感器,烟感探测器,烟雾报警器,阀门及执行器,DDC控制器,恒温恒湿控制,电子空气净化器,二氧化碳传感器等更多产品资料及相关技术资料.欢迎随时联系上海创仪咨询合作! GFD霍尼综合样本手册产品信息大全,欢迎点击下载!
压差传感器变送器德威尔 MS-331 MS-111-LCD DWYER风机洁净室批发德威尔MS-331 MS-111-LCD全系列微压差传感器说明常用型号:德威尔MS-331 MS-111-LCD MS-111,MS-121,MS-311,MS-321特性:量程小,现场可调公制英制2种范围,可监测压差或风速介质:空气和非可燃性兼容气体精度:MS-X21:0.5" w.c.和0.25"w.c.: ±1%;0.1"w.c.: ±2%;100Pa和50 Pa:±1%;25Pa:±2%.MS-X11: 5" w.c.和2"w.c.:±1%;1"w.c.:±2%;1000 Pa和500 Pa: ±1%;200Pa:±2% (@标准条件下)稳定性:±1% F.S./年温度限制:0~150°F (-18~66°C)压力限制:1 psi,可选; 10 psi,脉冲压力电源:10~35 VDC (2-线); 17~36 VDC 或隔离的 21.6 ~33 VAC (3-线)输出:4~20 mA (2-线); 0~10 V (3-线)反应时间:0.5 ~15 sec. 现场连续可调. 提供1.5 to 45 seconds 的95%的反应时间零偏和满偏:数字按键环路阻抗:电流输出: 0-1250. 电压输出: min负载阻抗1 k电流消耗:40 mA显示 (可选):4 位LCD电气连接:4-20 mA, 2-线: 欧式端子16~26 AWG.0-10V,3-线:欧式端子16~22AWG气压连接:3/16" (5 mm)内径管子.外径 9 mm封装:NEMA 4X (IP66)安装方向:膜盒垂直位置重量:8.0 oz(230 g)认证:CE德威尔MS-111 MS-121全系列微压差传感器产品大全:MS-121 4-20 mA 0.1 in, 0.25 in, 0.5 in w.c. (25, 50, 100 Pa) MS-122 4-20 mA 0.1", 0.25", 0.5" w.c. (25, 50, 100 Pa)风管压差MS-021 4-20 mA ±0.1", 0.25", 0.5" w.c. (±25, 50, 100 Pa) 挂墙MS-221 0-10 V ±0.1", 0.25", 0.5" w.c. (±25, 50, 100 Pa) 挂墙 MS-321 0-10 V 0.1 in, 0.25 in, 0.5 in w.c. (25, 50, 100 Pa)挂墙 MS-322 0-10 V 0.1", 0.25", 0.5" w.c. (25, 50, 100 Pa) 风管压差 MS-721 0-5 V 0.1 in, 0.25 in, 0.5 in w.c. (25, 50, 100 Pa)挂墙MS-111 4-20 mA 1 in, 2 in, 5 in w.c. (250, 500, 1250 Pa)挂墙 MS-311 0-10 V 1 in, 2 in, 5 in w.c. (250, 500, 1250 Pa)挂墙MS-312 0-10 V 1", 2", 5" w.c. (250, 500, 1250 Pa) 风管压差MS-112 4-20 mA 1", 2", 5" w.c. (250, 500, 1250 Pa)风管压差 MS-711 0-5 V 1 in, 2 in, 5 in w.c. (250, 500, 1250 Pa)挂墙或盘装 MS-131 4-20 mA 10 in w.c. (2 kPa)挂墙或盘装 MS-141 4-20 mA 15 in w.c. (3 kPa)挂墙或盘装 MS-151 4-20 mA 25 in w.c. (5 kPa)挂墙或盘装 MS-331 0-10 V 10 in w.c. (2 kPa)挂墙或盘装 MS-341 0-10 V 15 in w.c. (3 kPa)挂墙或盘装 MS-351 0-10 V 25 in w.c. (5 kPa)挂墙或盘装 MS-021 4-20 mA ±0.1 in, 0.25 in, 0.5 in w.c. (±25, 50, 100 Pa)挂墙 MS-221 0-10 V ±0.1 in, 0.25 in, 0.5 in w.c. (±25, 50, 100 Pa)挂墙 MS-621 0-5 V ±0.1 in , 0.25 in, 0.5 in w.c. (±25, 50, 100 Pa)挂墙关于德威尔压差传感器变送器相关信息,创仪就分享到这啦,如想了解更多产品信息及技术解答欢迎咨询我们!
一、ML7420A6033-E电动阀门执行器的应用ML7420A6033-E电动阀门执行器适用于霍尼韦尔HVAC阀门,内带一个选择正反作用插头,用于提供模拟输出0-10Vdc或2-10Vdc的调制控制.配合honeywell品牌的阀门使用.二、特点 * 安装方便快捷* 无需连杆 * 标准导管式接线连接 * 无需调整 * 阀门定位准确* 低功耗* 高的关断压力* 终端推力限位开关 * 0-10Vdc或2-10Vdc信号输入 * 带位置反馈信号输出 * 正反作用可选 * 同步马达 * 防腐设计* 免维护 三、参数 防护等级: IP54 电源 :24Vac(正负15%)50Hz/60Hz 功耗 :7VA*大(24Vac) 轴杆推力:600N 执行器行程:20mm 输入信号:0-10Vdc或2-10Vdc 信号源输出阻抗:1千欧姆 负载 *大:1mA 环境温度: 负10°C至50°C 储存温度 :负40°C至70°C *大阀介质温度: 150°C,若介质温度超过150°C,需用高温组件43196000-001/002,温度范围扩展到220°C. 湿度:5-95%相对湿度(无结露) 隔离:保护等级(24Vac) 认证标志:UL94-5V防火符合CE要求 电缆接口:两个标准的开孔位于执行器壳上 材料:壳ABS-FR塑料 基座:PGTP-FR塑料 支架:铸造铝 重量:1.3公斤 关于ML7420A6033-E电动阀门执行器相关信息,创仪就分享到这啦,如想了解更多产品信息及技术解答欢迎咨询我们!
1. 霍尼韦尔SCTHWA43SDS带显示室内温湿度传感器的应用霍尼韦尔发布全新SCTHWA43SDS带显示壁挂式温湿度传感器,普遍用于住宅与办公室,生产制造工厂,库房,设备机柜,环境测试,温湿度的输出信号为4mA-20mA或0-10V.温度输出信号还可配置一个10kΩ或20kΩ负温度系数热敏电阻器,也可配置PT1000型传感器.SCTHWA43SNS以代替旧型号CHT3W1TLD系列和H7030A1000房间温湿度传感器.其外观精美时尚,价格实惠,订货周期更有优势的房间型温湿度传感器.外观采用了靓丽的金色和银色.与其他进口品牌的传感器相对比,此产品性价比和外观更是无法对比的.2. 特性密封等级:IP30外壳材料:塑料(PC+ABS),阻燃,符合标准UL94-V0接线端子排:螺旋式接线柱,*大导线尺寸为1.5mm2或AWG16SCTHWA43SNS室内温湿度传感器可代替CHT3W1TLD3. 带显示室内温湿度传感器安装步骤第一步:为变送器选择合适的安装位置.须确保:变送器的安装位置能够较好地代表该区域的室内环境.安装高度大约离地1.5m[4.9ft];变送器不能安装在凹槽处、窗帘后、靠近热源冷源、湿气源位置、通风管道口以及阳光直射的区域. 第二步:在墙壁上安装变送器,打开外壳;确保基座内侧的箭头方向竖直向上;通过螺丝将基座安装至墙上的安装位置. 第三步:变送器对照接线图接线 第四步:将拨码开关设置到所需的输出状态 第五步:重新装好上盖 SCTHWA43SNS室内温湿度传感器可代替H7030A10004. 可选型号SCTHWA43SDSSCTHWA43SNSSCTHWB43SDSSCTHWB43SNSSCTHWC4GNDSSCTHWC4GNNSSCTHWC4FNNSSCTHWC4FNDSSCTHWC4ENDSSCTHWC4ENNSSCTHWD4GNDSSCTHWD4GNNSSCTHWD4FNDSSCTHWD4FNNSSCTHWD4ENDSSCTHWD4ENNS图为SCTHWA43SDS带显示壁挂式温湿度传感器,在线订购,价格真实,让采购更便捷,更多相关产品信息欢迎点击咨询.
V2 V5系列对夹式二通型动态流量平衡阀可选型号及特性应用霍尼韦尔V2 V5 系列对夹式二通型动态流量平衡阀型号规格繁多,为方便查询,特些整理相关规格参数型号表供选型使用,本公司部分产品现货,欢迎咨询合作!如下型号可选: VTC5600A008 Set of 2 measuring adaptors V2CF015SL001 DN15 Constant Flow, Brass, BSPP V2CF015SL002 DN15 Constant Flow, Brass, BSPP V2CF015SL003 DN15 Constant Flow, Brass, BSPP V2CF015SL004 DN15 Constant Flow, Brass, BSPP V2CF015SL005 DN15 Constant Flow, Brass, BSPP V2CF015SL006 DN15 Constant Flow, Brass, BSPP V2CF015SL007 DN15 Constant Flow, Brass, BSPP V2CF015SL008 DN15 Constant Flow, Brass, BSPP V2CF015SS009 DN15 Constant Flow, Brass, BSPP V2CF015SS010 DN15 Constant Flow, Brass, BSPP V2CF015SS011 DN15 Constant Flow, Brass, BSPP V2CF015SS012 DN15 Constant Flow, Brass, BSPP V2CF020SH010 DN20 Constant Flow, Brass, BSPP V2CF020SL001 DN20 Constant Flow, Brass, BSPP V2CF020SL002 DN20 Constant Flow, Brass, BSPP V2CF020SL003 DN20 Constant Flow, Brass, BSPP V2CF020SL004 DN20 Constant Flow, Brass, BSPP V2CF020SL005 DN20 Constant Flow, Brass, BSPP V2CF020SL006 DN20 Constant Flow, Brass, BSPP V2CF020SL007 DN20 Constant Flow, Brass, BSPP V2CF020SL008 DN20 Constant Flow, Brass, BSPP V2CF020SM008 DN20 Constant Flow, Brass, BSPP V2CF020SM009 DN20 Constant Flow, Brass, BSPP V2CF020SM010 DN20 Constant Flow, Brass, BSPP V2CF020SS011 DN20 Constant Flow, Brass, BSPP V2CF020SS012 DN20 Constant Flow, Brass, BSPP V2CF020SS013 DN20 Constant Flow, Brass, BSPP V2CF025SH010 DN25 Constant Flow, Brass, BSPP V2CF025SL003 DN25 Constant Flow, Brass, BSPP V2CF025SL004 DN25 Constant Flow, Brass, BSPP V2CF025SL005 DN25 Constant Flow, Brass, BSPP V2CF025SL006 DN25 Constant Flow, Brass, BSPP V2CF025SL007 DN25 Constant Flow, Brass, BSPP V2CF025SL008 DN25 Constant Flow, Brass, BSPP V2CF025SM008 DN25 Constant Flow, Brass, BSPP V2CF025SM009 DN25 Constant Flow, Brass, BSPP V2CF025SM010 DN25 Constant Flow, Brass, BSPP V2CF025SS011 DN25 Constant Flow, Brass, BSPP V2CF025SS012 DN25 Constant Flow, Brass, BSPP V2CF025SS013 DN25 Constant Flow, Brass, BSPP V2CF025SS014 DN25 Constant Flow, Brass, BSPP V2CF032SH016 DN32 Constant Flow, Brass, BSPP V2CF032SH017 DN32 Constant Flow, Brass, BSPP V2CF032SL007 DN32 Constant Flow, Brass, BSPP V2CF032SL008 DN32 Constant Flow, Brass, BSPP V2CF032SL009 DN32 Constant Flow, Brass, BSPP V2CF032SL010 DN32 Constant Flow, Brass, BSPP V2CF032SL011 DN32 Constant Flow, Brass, BSPP V2CF032SL012 DN32 Constant Flow, Brass, BSPP V2CF032SL013 DN32 Constant Flow, Brass, BSPP V2CF032SL014 DN32 Constant Flow, Brass, BSPP V2CF032SL015 DN32 Constant Flow, Brass, BSPP V2CF032SM015 DN32 Constant Flow, Brass, BSPP V2CF032SM016 DN32 Constant Flow, Brass, BSPP V2CF032SM017 DN32 Constant Flow, Brass, BSPP V2CF032SS019 DN32 Constant Flow, Brass, BSPP V2CF032SS020 DN32 Constant Flow, Brass, BSPP V2CF032SS021 DN32 Constant Flow, Brass, BSPP V2CF032SS022 DN32 Constant Flow, Brass, BSPP V2CF032SS023 DN32 Constant Flow, Brass, BSPP V2CF032SS024 DN32 Constant Flow, Brass, BSPP V2CF040SH016 DN40 Constant Flow, Brass, BSPP V2CF040SH017 DN40 Constant Flow, Brass, BSPP V2CF040SL010 DN40 Constant Flow, Brass, BSPP V2CF040SL011 DN40 Constant Flow, Brass, BSPP V2CF040SL012 DN40 Constant Flow, Brass, BSPP V2CF040SL013 DN40 Constant Flow, Brass, BSPP V2CF040SL014 DN40 Constant Flow, Brass, BSPP V2CF040SL015 DN40 Constant Flow, Brass, BSPP V2CF040SM015 DN40 Constant Flow, Brass, BSPP V2CF040SM016 DN40 Constant Flow, Brass, BSPP V2CF040SM017 DN40 Constant Flow, Brass, BSPP V2CF040SS019 DN40 Constant Flow, Brass, BSPP V2CF040SS020 DN40 Constant Flow, Brass, BSPP V2CF040SS021 DN40 Constant Flow, Brass, BSPP V2CF040SS022 DN40 Constant Flow, Brass, BSPP V2CF040SS023 DN40 Constant Flow, Brass, BSPP V2CF040SS024 DN40 Constant Flow, Brass, BSPP V5CF050MH019 DN50 Constant Flow, GGG40, Wafer V5CF050MH020 DN50 Constant Flow, GGG40, Wafer V5CF050MH021 DN50 Constant Flow, GGG40, Wafer V5CF050ML003 DN50 Constant Flow, GGG40, Wafer V5CF050ML004 DN50 Constant Flow, GGG40, Wafer V5CF050ML005 DN50 Constant Flow, GGG40, Wafer V5CF050ML006 DN50 Constant Flow, GGG40, Wafer V5CF050ML007 DN50 Constant Flow, GGG40, Wafer V5CF050ML008 DN50 Constant Flow, GGG40, Wafer V5CF050ML009 DN50 Constant Flow, GGG40, Wafer V5CF050ML010 DN50 Constant Flow, GGG40, Wafer V5CF050ML011 DN50 Constant Flow, GGG40, Wafer V5CF050ML012 DN50 Constant Flow, GGG40, Wafer V5CF050ML013 DN50 Constant Flow, GGG40, Wafer V5CF050ML014 DN50 Constant Flow, GGG40, Wafer V5CF050ML015 DN50 Constant Flow, GGG40, Wafer V5CF050ML016 DN50 Constant Flow, GGG40, Wafer V5CF050ML017 DN50 Constant Flow, GGG40, Wafer V5CF050ML018 DN50 Constant Flow, GGG40, Wafer V5CF050ML019 DN50 Constant Flow, GGG40, Wafer V5CF050ML020 DN50 Constant Flow, GGG40, Wafer V5CF050ML021 DN50 Constant Flow, GGG40, Wafer V5CF050MM016 DN50 Constant Flow, GGG40, Wafer V5CF050MM017 DN50 Constant Flow, GGG40, Wafer V5CF050MM018 DN50 Constant Flow, GGG40, Wafer V5CF050MM019 DN50 Constant Flow, GGG40, Wafer V5CF050MM020 DN50 Constant Flow, GGG40, Wafer V5CF050MM021 DN50 Constant Flow, GGG40, Wafer V5CF050MS022 DN50 Constant Flow, GGG40, Wafer V5CF050MS023 DN50 Constant Flow, GGG40, Wafer V5CF050MS024 DN50 Constant Flow, GGG40, Wafer V5CF050MS025 DN50 Constant Flow, GGG40, Wafer V5CF050MS026 DN50 Constant Flow, GGG40, Wafer V5CF050MS027 DN50 Constant Flow, GGG40, Wafer V5CF050MS028 DN50 Constant Flow, GGG40, Wafer V5CF050MS029 DN50 Constant Flow, GGG40, Wafer V5CF050MS030 DN50 Constant Flow, GGG40, Wafer V5CF050MS031 DN50 Constant Flow, GGG40, Wafer V5CF050MS032 DN50 Constant Flow, GGG40, Wafer V5CF050MS033 DN50 Constant Flow, GGG40, Wafer V5CF050MS034 DN50 Constant Flow, GGG40, Wafer V5CF050MS035 DN50 Constant Flow, GGG40, Wafer V5CF050MS036 DN50 Constant Flow, GGG40, Wafer V5CF065MH019 DN65 Constant Flow, GGG40, Wafer V5CF065MH020 DN65 Constant Flow, GGG40, Wafer V5CF065MH021 DN65 Constant Flow, GGG40, Wafer V5CF065ML006 DN65 Constant Flow, GGG40, Wafer V5CF065ML007 DN65 Constant Flow, GGG40, Wafer V5CF065ML008 DN65 Constant Flow, GGG40, Wafer V5CF065ML009 DN65 Constant Flow, GGG40, Wafer V5CF065ML010 DN65 Constant Flow, GGG40, Wafer V5CF065ML011 DN65 Constant Flow, GGG40, Wafer V5CF065ML012 DN65 Constant Flow, GGG40, Wafer V5CF065ML013 DN65 Constant Flow, GGG40, Wafer V5CF065ML014 DN65 Constant Flow, GGG40, Wafer V5CF065ML015 DN65 Constant Flow, GGG40, Wafer V5CF065ML016 DN65 Constant Flow, GGG40, Wafer V5CF065ML017 DN65 Constant Flow, GGG40, Wafer V5CF065ML018 DN65 Constant Flow, GGG40, Wafer V5CF065ML019 DN65 Constant Flow, GGG40, Wafer V5CF065ML020 DN65 Constant Flow, GGG40, Wafer V5CF065ML021 DN65 Constant Flow, GGG40, Wafer V5CF065MM016 DN65 Constant Flow, GGG40, Wafer V5CF065MM018 DN65 Constant Flow, GGG40, Wafer V5CF065MM019 DN65 Constant Flow, GGG40, Wafer V5CF065MM020 DN65 Constant Flow, GGG40, Wafer V5CF065MM021 DN65 Constant Flow, GGG40, Wafer V5CF065MS022 DN65 Constant Flow, GGG40, Wafer V5CF065MS023 DN65 Constant Flow, GGG40, Wafer V5CF065MS024 DN65 Constant Flow, GGG40, Wafer V5CF065MS025 DN65 Constant Flow, GGG40, Wafer V5CF065MS026 DN65 Constant Flow, GGG40, Wafer V5CF065MS027 DN65 Constant Flow, GGG40, Wafer V5CF065MS028 DN65 Constant Flow, GGG40, Wafer V5CF065MS029 DN65 Constant Flow, GGG40, Wafer V5CF065MS030 DN65 Constant Flow, GGG40, Wafer V5CF065MS031 DN65 Constant Flow, GGG40, Wafer V5CF065MS032 DN65 Constant Flow, GGG40, Wafer V5CF065MS033 DN65 Constant Flow, GGG40, Wafer V5CF065MS034 DN65 Constant Flow, GGG40, Wafer V5CF065MS035 DN65 Constant Flow, GGG40, Wafer V5CF065MS036 DN65 Constant Flow, GGG40, Wafer V5CF080MH019 DN80 Constant Flow, GGG40, Wafer V5CF080MH020 DN80 Constant Flow, GGG40, Wafer V5CF080MH021 DN80 Constant Flow, GGG40, Wafer V5CF080ML007 DN80 Constant Flow, GGG40, Wafer V5CF080ML008 DN80 Constant Flow, GGG40, Wafer V5CF080ML009 DN80 Constant Flow, GGG40, Wafer V5CF080ML010 DN80 Constant Flow, GGG40, Wafer V5CF080ML011 DN80 Constant Flow, GGG40, Wafer V5CF080ML012 DN80 Constant Flow, GGG40, Wafer V5CF080ML013 DN80 Constant Flow, GGG40, Wafer V5CF080ML014 DN80 Constant Flow, GGG40, Wafer V5CF080ML015 DN80 Constant Flow, GGG40, Wafer V5CF080ML016 DN80 Constant Flow, GGG40, Wafer V5CF080ML017 DN80 Constant Flow, GGG40, Wafer V5CF080ML018 DN80 Constant Flow, GGG40, Wafer V5CF080ML019 DN80 Constant Flow, GGG40, Wafer V5CF080ML020 DN80 Constant Flow, GGG40, Wafer V5CF080ML021 DN80 Constant Flow, GGG40, Wafer V5CF080MM016 DN80 Constant Flow, GGG40, Wafer V5CF080MM017 DN80 Constant Flow, GGG40, Wafer V5CF080MM018 DN80 Constant Flow, GGG40, Wafer V5CF080MM019 DN80 Constant Flow, GGG40, Wafer V5CF080MM020 DN80 Constant Flow, GGG40, Wafer V5CF080MM021 DN80 Constant Flow, GGG40, Wafer V5CF080MS022 DN80 Constant Flow, GGG40, Wafer V5CF080MS023 DN80 Constant Flow, GGG40, Wafer V5CF080MS024 DN80 Constant Flow, GGG40, Wafer V5CF080MS025 DN80 Constant Flow, GGG40, Wafer V5CF080MS026 DN80 Constant Flow, GGG40, Wafer V5CF080MS027 DN80 Constant Flow, GGG40, Wafer V5CF080MS028 DN80 Constant Flow, GGG40, Wafer V5CF080MS029 DN80 Constant Flow, GGG40, Wafer V5CF080MS030 DN80 Constant Flow, GGG40, Wafer V5CF080MS031 DN80 Constant Flow, GGG40, Wafer V5CF080MS033 DN80 Constant Flow, GGG40, Wafer V5CF080MS034 DN80 Constant Flow, GGG40, Wafer V5CF080MS035 DN80 Constant Flow, GGG40, Wafer V5CF080MS036 DN80 Constant Flow, GGG40, Wafer V5CF100BH035 DN100 Constant Flow, GGG40, Wafer V5CF100BL009 DN100 Constant Flow, GGG40, Wafer V5CF100BL011 DN100 Constant Flow, GGG40, Wafer V5CF100BL013 DN100 Constant Flow, GGG40, Wafer V5CF100BL015 DN100 Constant Flow, GGG40, Wafer V5CF100BL017 DN100 Constant Flow, GGG40, Wafer V5CF100BL019 DN100 Constant Flow, GGG40, Wafer V5CF100BL021 DN100 Constant Flow, GGG40, Wafer V5CF100BL023 DN100 Constant Flow, GGG40, Wafer V5CF100BL025 DN100 Constant Flow, GGG40, Wafer V5CF100BL027 DN100 Constant Flow, GGG40, Wafer V5CF100BL029 DN100 Constant Flow, GGG40, Wafer V5CF100BL031 DN100 Constant Flow, GGG40, Wafer V5CF100BL033 DN100 Constant Flow, GGG40, Wafer V5CF100BL035 DN100 Constant Flow, GGG40, Wafer V5CF100BM031 DN100 Constant Flow, GGG40, Wafer V5CF100BM033 DN100 Constant Flow, GGG40, Wafer V5CF100BM035 DN100 Constant Flow, GGG40, Wafer V5CF100BM037 DN100 Constant Flow, GGG40, Wafer V5CF100BS035 DN100 Constant Flow, GGG40, Wafer V5CF100BS037 DN100 Constant Flow, GGG40, Wafer V5CF100BS039 DN100 Constant Flow, GGG40, Wafer V5CF100BS041 DN100 Constant Flow, GGG40, Wafer V5CF100BS043 DN100 Constant Flow, GGG40, Wafer V5CF100BS045 DN100 Constant Flow, GGG40, Wafer V5CF100BS047 DN100 Constant Flow, GGG40, Wafer V5CF100BS049 DN100 Constant Flow, GGG40, Wafer V5CF100BS051 DN100 Constant Flow, GGG40, Wafer V5CF100BS053 DN100 Constant Flow, GGG40, Wafer V5CF100BS055 DN100 Constant Flow, GGG40, Wafer V5CF100BS057 DN100 Constant Flow, GGG40, Wafer V5CF100BS059 DN100 Constant Flow, GGG40, Wafer V5CF100BS061 DN100 Constant Flow, GGG40, Wafer V5CF100BS063 DN100 Constant Flow, GGG40, Wafer V5CF100BS065 DN100 Constant Flow, GGG40, Wafer V5CF100BS067 DN100 Constant Flow, GGG40, Wafer V5CF125BH043 DN125 Constant Flow, GGG40, Wafer V5CF125BH045 DN125 Constant Flow, GGG40, Wafer V5CF125BL017 DN125 Constant Flow, GGG40, Wafer V5CF125BL019 DN125 Constant Flow, GGG40, Wafer V5CF125BL021 DN125 Constant Flow, GGG40, Wafer V5CF125BL023 DN125 Constant Flow, GGG40, Wafer V5CF125BL025 DN125 Constant Flow, GGG40, Wafer V5CF125BL027 DN125 Constant Flow, GGG40, Wafer V5CF125BL029 DN125 Constant Flow, GGG40, Wafer V5CF125BL031 DN125 Constant Flow, GGG40, Wafer V5CF125BL033 DN125 Constant Flow, GGG40, Wafer V5CF125BL035 DN125 Constant Flow, GGG40, Wafer V5CF125BL037 DN125 Constant Flow, GGG40, Wafer V5CF125BL039 DN125 Constant Flow, GGG40, Wafer V5CF125BL041 DN125 Constant Flow, GGG40, Wafer V5CF125BL043 DN125 Constant Flow, GGG40, Wafer V5CF125BL045 DN125 Constant Flow, GGG40, Wafer V5CF125BM041 DN125 Constant Flow, GGG40, Wafer V5CF125BM043 DN125 Constant Flow, GGG40, Wafer V5CF125BM045 DN125 Constant Flow, GGG40, Wafer V5CF125BS051 DN125 Constant Flow, GGG40, Wafer V5CF125BS053 DN125 Constant Flow, GGG40, Wafer V5CF125BS055 DN125 Constant Flow, GGG40, Wafer V5CF125BS057 DN125 Constant Flow, GGG40, Wafer V5CF125BS059 DN125 Constant Flow, GGG40, Wafer V5CF125BS061 DN125 Constant Flow, GGG40, Wafer V5CF125BS063 DN125 Constant Flow, GGG40, Wafer V5CF125BS065 DN125 Constant Flow, GGG40, Wafer V5CF125BS067 DN125 Constant Flow, GGG40, Wafer V5CF125BS069 DN125 Constant Flow, GGG40, Wafer V5CF125BS071 DN125 Constant Flow, GGG40, Wafer V5CF125BS073 DN125 Constant Flow, GGG40, Wafer V5CF125BS075 DN125 Constant Flow, GGG40, Wafer V5CF125BS077 DN125 Constant Flow, GGG40, Wafer V5CF125BS079 DN125 Constant Flow, GGG40, Wafer V5CF125BS081 DN125 Constant Flow, GGG40, Wafer V5CF125BS083 DN125 Constant Flow, GGG40, Wafer V5CF125BS085 DN125 Constant Flow, GGG40, Wafer V5CF150BH051 DN150 Constant Flow, GGG40, Wafer V5CF150BH053 DN150 Constant Flow, GGG40, Wafer V5CF150BL023 DN150 Constant Flow, GGG40, Wafer V5CF150BL025 DN150 Constant Flow, GGG40, Wafer V5CF150BL027 DN150 Constant Flow, GGG40, Wafer V5CF150BL029 DN150 Constant Flow, GGG40, Wafer V5CF150BL031 DN150 Constant Flow, GGG40, Wafer V5CF150BL033 DN150 Constant Flow, GGG40, Wafer V5CF150BL035 DN150 Constant Flow, GGG40, Wafer V5CF150BL037 DN150 Constant Flow, GGG40, Wafer V5CF150BL039 DN150 Constant Flow, GGG40, Wafer V5CF150BL041 DN150 Constant Flow, GGG40, Wafer V5CF150BL043 DN150 Constant Flow, GGG40, Wafer V5CF150BL045 DN150 Constant Flow, GGG40, Wafer V5CF150BL047 DN150 Constant Flow, GGG40, Wafer V5CF150BL049 DN150 Constant Flow, GGG40, Wafer V5CF150BL051 DN150 Constant Flow, GGG40, Wafer V5CF150BL053 DN150 Constant Flow, GGG40, Wafer V5CF150BM049 DN150 Constant Flow, GGG40, Wafer V5CF150BM051 DN150 Constant Flow, GGG40, Wafer V5CF150BM053 DN150 Constant Flow, GGG40, Wafer V5CF150BS063 DN150 Constant Flow, GGG40, Wafer V5CF150BS065 DN150 Constant Flow, GGG40, Wafer V5CF150BS067 DN150 Constant Flow, GGG40, Wafer V5CF150BS069 DN150 Constant Flow, GGG40, Wafer V5CF150BS071 DN150 Constant Flow, GGG40, Wafer V5CF150BS073 DN150 Constant Flow, GGG40, Wafer V5CF150BS075 DN150 Constant Flow, GGG40, Wafer V5CF150BS077 DN150 Constant Flow, GGG40, Wafer V5CF150BS079 DN150 Constant Flow, GGG40, Wafer V5CF150BS081 DN150 Constant Flow, GGG40, Wafer V5CF150BS083 DN150 Constant Flow, GGG40, Wafer V5CF150BS085 DN150 Constant Flow, GGG40, Wafer V5CF150BS087 DN150 Constant Flow, GGG40, Wafer V5CF150BS089 DN150 Constant Flow, GGG40, Wafer V5CF150BS091 DN150 Constant Flow, GGG40, Wafer V5CF150BS093 DN150 Constant Flow, GGG40, Wafer V5CF150BS095 DN150 Constant Flow, GGG40, Wafer V5CF150BS097 DN150 Constant Flow, GGG40, Wafer V5CF200BH075 DN200 Constant Flow, GGG40, Wafer V5CF200BH077 DN200 Constant Flow, GGG40, Wafer V5CF200BH079 DN200 Constant Flow, GGG40, Wafer V5CF200BL045 DN200 Constant Flow, GGG40, Wafer V5CF200BL047 DN200 Constant Flow, GGG40, Wafer V5CF200BL049 DN200 Constant Flow, GGG40, Wafer V5CF200BL051 DN200 Constant Flow, GGG40, Wafer V5CF200BL053 DN200 Constant Flow, GGG40, Wafer V5CF200BL055 DN200 Constant Flow, GGG40, Wafer V5CF200BL057 DN200 Constant Flow, GGG40, Wafer V5CF200BL059 DN200 Constant Flow, GGG40, Wafer V5CF200BL061 DN200 Constant Flow, GGG40, Wafer V5CF200BL063 DN200 Constant Flow, GGG40, Wafer V5CF200BL065 DN200 Constant Flow, GGG40, Wafer V5CF200BL067 DN200 Constant Flow, GGG40, Wafer V5CF200BM069 DN200 Constant Flow, GGG40, Wafer V5CF200BM071 DN200 Constant Flow, GGG40, Wafer V5CF200BM073 DN200 Constant Flow, GGG40, Wafer V5CF200BM075 DN200 Constant Flow, GGG40, Wafer V5CF200BM077 DN200 Constant Flow, GGG40, Wafer V5CF200BM079 DN200 Constant Flow, GGG40, Wafer V5CF200BS089 DN200 Constant Flow, GGG40, Wafer V5CF200BS091 DN200 Constant Flow, GGG40, Wafer V5CF200BS095 DN200 Constant Flow, GGG40, Wafer V5CF200BS097 DN200 Constant Flow, GGG40, Wafer V5CF200BS099 DN200 Constant Flow, GGG40, Wafer V5CF200BS105 DN200 Constant Flow, GGG40, Wafer V5CF200BS107 DN200 Constant Flow, GGG40, Wafer V5CF200BS109 DN200 Constant Flow, GGG40, Wafer V5CF200BS111 DN200 Constant Flow, GGG40, Wafer V5CF200BS113 DN200 Constant Flow, GGG40, Wafer V5CF200BS115 DN200 Constant Flow, GGG40, Wafer V5CF200BS117 DN200 Constant Flow, GGG40, Wafer V5CF200BS119 DN200 Constant Flow, GGG40, Wafer V5CF250BH097 DN250 Constant Flow, GGG40, Wafer V5CF250BH099 DN250 Constant Flow, GGG40, Wafer V5CF250BH101 DN250 Constant Flow, GGG40, Wafer V5CF250BL059 DN250 Constant Flow, GGG40, Wafer V5CF250BL061 DN250 Constant Flow, GGG40, Wafer V5CF250BL063 DN250 Constant Flow, GGG40, Wafer V5CF250BL065 DN250 Constant Flow, GGG40, Wafer V5CF250BL067 DN250 Constant Flow, GGG40, Wafer V5CF250BL069 DN250 Constant Flow, GGG40, Wafer V5CF250BL071 DN250 Constant Flow, GGG40, Wafer V5CF250BL073 DN250 Constant Flow, GGG40, Wafer V5CF250BL075 DN250 Constant Flow, GGG40, Wafer V5CF250BL077 DN250 Constant Flow, GGG40, Wafer V5CF250BM091 DN250 Constant Flow, GGG40, Wafer V5CF250BM093 DN250 Constant Flow, GGG40, Wafer V5CF250BM095 DN250 Constant Flow, GGG40, Wafer V5CF250BM097 DN250 Constant Flow, GGG40, Wafer V5CF250BM099 DN250 Constant Flow, GGG40, Wafer V5CF250BM101 DN250 Constant Flow, GGG40, Wafer V5CF250BS107 DN250 Constant Flow, GGG40, Wafer V5CF250BS109 DN250 Constant Flow, GGG40, Wafer V5CF250BS111 DN250 Constant Flow, GGG40, Wafer V5CF250BS113 DN250 Constant Flow, GGG40, Wafer V5CF250BS117 DN250 Constant Flow, GGG40, Wafer V5CF250BS119 DN250 Constant Flow, GGG40, Wafer V5CF250BS123 DN250 Constant Flow, GGG40, Wafer V5CF250BS125 DN250 Constant Flow, GGG40, Wafer V5CF250BS127 DN250 Constant Flow, GGG40, Wafer V5CF250BS129 DN250 Constant Flow, GGG40, Wafer V5CF250BS131 DN250 Constant Flow, GGG40, Wafer V5CF250BS133 DN250 Constant Flow, GGG40, Wafer V5CF250BS135 DN250 Constant Flow, GGG40, Wafer V5CF250BS137 DN250 Constant Flow, GGG40, Wafer V5CF250BS139 DN250 Constant Flow, GGG40, Wafer V5CF300BH113 DN300 Constant Flow, GGG40, Wafer V5CF300BH115 DN300 Constant Flow, GGG40, Wafer V5CF300BH117 DN300 Constant Flow, GGG40, Wafer V5CF300BH119 DN300 Constant Flow, GGG40, Wafer V5CF300BL069 DN300 Constant Flow, GGG40, Wafer V5CF300BL071 DN300 Constant Flow, GGG40, Wafer V5CF300BL073 DN300 Constant Flow, GGG40, Wafer V5CF300BL075 DN300 Constant Flow, GGG40, Wafer V5CF300BL077 DN300 Constant Flow, GGG40, Wafer V5CF300BL079 DN300 Constant Flow, GGG40, Wafer V5CF300BL081 DN300 Constant Flow, GGG40, Wafer V5CF300BL083 DN300 Constant Flow, GGG40, Wafer V5CF300BL085 DN300 Constant Flow, GGG40, Wafer V5CF300BL087 DN300 Constant Flow, GGG40, Wafer V5CF300BM107 DN300 Constant Flow, GGG40, Wafer V5CF300BM109 DN300 Constant Flow, GGG40, Wafer V5CF300BM111 DN300 Constant Flow, GGG40, Wafer V5CF300BM113 DN300 Constant Flow, GGG40, Wafer V5CF300BM115 DN300 Constant Flow, GGG40, Wafer V5CF300BM117 DN300 Constant Flow, GGG40, Wafer V5CF300BS119 DN300 Constant Flow, GGG40, Wafer V5CF300BS121 DN300 Constant Flow, GGG40, Wafer V5CF300BS123 DN300 Constant Flow, GGG40, Wafer V5CF300BS125 DN300 Constant Flow, GGG40, Wafer V5CF300BS127 DN300 Constant Flow, GGG40, Wafer V5CF300BS129 DN300 Constant Flow, GGG40, Wafer V5CF300BS131 DN300 Constant Flow, GGG40, Wafer V5CF300BS133 DN300 Constant Flow, GGG40, Wafer V5CF300BS135 DN300 Constant Flow, GGG40, Wafer V5CF300BS137 DN300 Constant Flow, GGG40, Wafer V5CF300BS139 DN300 Constant Flow, GGG40, Wafer V5CF300BS141 DN300 Constant Flow, GGG40, Wafer V5CF300BS143 DN300 Constant Flow, GGG40, Wafer V5CF300BS145 DN300 Constant Flow, GGG40, Wafer V5CF300BS147 DN300 Constant Flow, GGG40, Wafer V5CF300BS149 DN300 Constant Flow, GGG40, Wafer V5CF300BS151 DN300 Constant Flow, GGG40, Wafer V5CF350BH129 DN350 Constant Flow, GGG40, Wafer V5CF350BH131 DN350 Constant Flow, GGG40, Wafer V5CF350BH133 DN350 Constant Flow, GGG40, Wafer V5CF350BL081 DN350 Constant Flow, GGG40, Wafer V5CF350BL083 DN350 Constant Flow, GGG40, Wafer V5CF350BL085 DN350 Constant Flow, GGG40, Wafer V5CF350BL087 DN350 Constant Flow, GGG40, Wafer V5CF350BL089 DN350 Constant Flow, GGG40, Wafer V5CF350BL091 DN350 Constant Flow, GGG40, Wafer V5CF350BL093 DN350 Constant Flow, GGG40, Wafer V5CF350BL095 DN350 Constant Flow, GGG40, Wafer V5CF350BL097 DN350 Constant Flow, GGG40, Wafer V5CF350BL099 DN350 Constant Flow, GGG40, Wafer V5CF350BL101 DN350 Constant Flow, GGG40, Wafer V5CF350BM121 DN350 Constant Flow, GGG40, Wafer V5CF350BM123 DN350 Constant Flow, GGG40, Wafer V5CF350BM125 DN350 Constant Flow, GGG40, Wafer V5CF350BM127 DN350 Constant Flow, GGG40, Wafer V5CF350BM129 DN350 Constant Flow, GGG40, Wafer V5CF350BM131 DN350 Constant Flow, GGG40, Wafer V5CF350BS131 DN350 Constant Flow, GGG40, Wafer V5CF350BS133 DN350 Constant Flow, GGG40, Wafer V5CF350BS135 DN350 Constant Flow, GGG40, Wafer V5CF350BS137 DN350 Constant Flow, GGG40, Wafer V5CF350BS139 DN350 Constant Flow, GGG40, Wafer V5CF350BS141 DN350 Constant Flow, GGG40, Wafer V5CF350BS143 DN350 Constant Flow, GGG40, Wafer V5CF350BS145 DN350 Constant Flow, GGG40, Wafer V5CF350BS147 DN350 Constant Flow, GGG40, Wafer V5CF350BS149 DN350 Constant Flow, GGG40, Wafer V5CF350BS151 DN350 Constant Flow, GGG40, Wafer V5CF350BS153 DN350 Constant Flow, GGG40, Wafer V5CF350BS155 DN350 Constant Flow, GGG40, Wafer V5CF350BS157 DN350 Constant Flow, GGG40, Wafer V5CF350BS159 DN350 Constant Flow, GGG40, Wafer V5CF350BS161 DN350 Constant Flow, GGG40, Wafer V5CF350BS163 DN350 Constant Flow, GGG40, Wafer V5CF400BH141 DN400 Constant Flow, GGG40, Wafer V5CF400BH143 DN400 Constant Flow, GGG40, Wafer V5CF400BH145 DN400 Constant Flow, GGG40, Wafer V5CF400BH147 DN400 Constant Flow, GGG40, Wafer V5CF400BL085 DN400 Constant Flow, GGG40, Wafer V5CF400BL087 DN400 Constant Flow, GGG40, Wafer V5CF400BL089 DN400 Constant Flow, GGG40, Wafer V5CF400BL091 DN400 Constant Flow, GGG40, Wafer V5CF400BL093 DN400 Constant Flow, GGG40, Wafer V5CF400BL095 DN400 Constant Flow, GGG40, Wafer V5CF400BL097 DN400 Constant Flow, GGG40, Wafer V5CF400BL099 DN400 Constant Flow, GGG40, Wafer V5CF400BL101 DN400 Constant Flow, GGG40, Wafer V5CF400BL103 DN400 Constant Flow, GGG40, Wafer V5CF400BL105 DN400 Constant Flow, GGG40, Wafer V5CF400BL107 DN400 Constant Flow, GGG40, Wafer V5CF400BL109 DN400 Constant Flow, GGG40, Wafer V5CF400BL111 DN400 Constant Flow, GGG40, Wafer V5CF400BL113 DN400 Constant Flow, GGG40, Wafer V5CF400BM133 DN400 Constant Flow, GGG40, Wafer V5CF400BM135 DN400 Constant Flow, GGG40, Wafer V5CF400BM137 DN400 Constant Flow, GGG40, Wafer V5CF400BM139 DN400 Constant Flow, GGG40, Wafer V5CF400BM141 DN400 Constant Flow, GGG40, Wafer V5CF400BM143 DN400 Constant Flow, GGG40, Wafer V5CF400BS141 DN400 Constant Flow, GGG40, Wafer V5CF400BS143 DN400 Constant Flow, GGG40, Wafer V5CF400BS145 DN400 Constant Flow, GGG40, Wafer V5CF400BS147 DN400 Constant Flow, GGG40, Wafer V5CF400BS149 DN400 Constant Flow, GGG40, Wafer V5CF400BS151 DN400 Constant Flow, GGG40, Wafer V5CF400BS153 DN400 Constant Flow, GGG40, Wafer V5CF400BS155 DN400 Constant Flow, GGG40, Wafer V5CF400BS157 DN400 Constant Flow, GGG40, Wafer V5CF400BS159 DN400 Constant Flow, GGG40, Wafer V5CF400BS161 DN400 Constant Flow, GGG40, Wafer V5CF400BS163 DN400 Constant Flow, GGG40, Wafer V5CF400BS165 DN400 Constant Flow, GGG40, Wafer V5CF400BS167 DN400 Constant Flow, GGG40, Wafer V5CF400BS169 DN400 Constant Flow, GGG40, Wafer V5CF400BS171 DN400 Constant Flow, GGG40, Wafer V5CF400BS173 DN400 Constant Flow, GGG40, Wafer V5CF450BH153 DN450 Constant Flow, GGG40, Wafer V5CF450BH155 DN450 Constant Flow, GGG40, Wafer V5CF450BH157 DN450 Constant Flow, GGG40, Wafer V5CF450BL095 DN450 Constant Flow, GGG40, Wafer V5CF450BL097 DN450 Constant Flow, GGG40, Wafer V5CF450BL099 DN450 Constant Flow, GGG40, Wafer V5CF450BL101 DN450 Constant Flow, GGG40, Wafer V5CF450BL103 DN450 Constant Flow, GGG40, Wafer V5CF450BL105 DN450 Constant Flow, GGG40, Wafer V5CF450BL107 DN450 Constant Flow, GGG40, Wafer V5CF450BL109 DN450 Constant Flow, GGG40, Wafer V5CF450BL111 DN450 Constant Flow, GGG40, Wafer V5CF450BL113 DN450 Constant Flow, GGG40, Wafer V5CF450BL115 DN450 Constant Flow, GGG40, Wafer V5CF450BL117 DN450 Constant Flow, GGG40, Wafer V5CF450BL119 DN450 Constant Flow, GGG40, Wafer V5CF450BL121 DN450 Constant Flow, GGG40, Wafer V5CF450BL123 DN450 Constant Flow, GGG40, Wafer V5CF450BL125 DN450 Constant Flow, GGG40, Wafer V5CF450BM145 DN450 Constant Flow, GGG40, Wafer V5CF450BM147 DN450 Constant Flow, GGG40, Wafer V5CF450BM149 DN450 Constant Flow, GGG40, Wafer V5CF450BM151 DN450 Constant Flow, GGG40, Wafer V5CF450BM153 DN450 Constant Flow, GGG40, Wafer V5CF450BM155 DN450 Constant Flow, GGG40, Wafer V5CF450BS149 DN450 Constant Flow, GGG40, Wafer V5CF450BS151 DN450 Constant Flow, GGG40, Wafer V5CF450BS153 DN450 Constant Flow, GGG40, Wafer V5CF450BS155 DN450 Constant Flow, GGG40, Wafer V5CF450BS157 DN450 Constant Flow, GGG40, Wafer V5CF450BS159 DN450 Constant Flow, GGG40, Wafer V5CF450BS161 DN450 Constant Flow, GGG40, Wafer V5CF450BS163 DN450 Constant Flow, GGG40, Wafer V5CF450BS165 DN450 Constant Flow, GGG40, Wafer V5CF450BS167 DN450 Constant Flow, GGG40, Wafer V5CF450BS169 DN450 Constant Flow, GGG40, Wafer V5CF450BS171 DN450 Constant Flow, GGG40, Wafer V5CF450BS173 DN450 Constant Flow, GGG40, Wafer V5CF450BS175 DN450 Constant Flow, GGG40, Wafer V5CF450BS177 DN450 Constant Flow, GGG40, Wafer V5CF450BS179 DN450 Constant Flow, GGG40, Wafer V5CF450BS181 DN450 Constant Flow, GGG40, Wafer V5CF450BS183 DN450 Constant Flow, GGG40, Wafer V5CF500BH163 DN500 Constant Flow, GGG40, Wafer V5CF500BH165 DN500 Constant Flow, GGG40, Wafer V5CF500BH167 DN500 Constant Flow, GGG40, Wafer V5CF500BL101 DN500 Constant Flow, GGG40, Wafer V5CF500BL103 DN500 Constant Flow, GGG40, Wafer V5CF500BL105 DN500 Constant Flow, GGG40, Wafer V5CF500BL107 DN500 Constant Flow, GGG40, Wafer V5CF500BL109 DN500 Constant Flow, GGG40, Wafer V5CF500BL111 DN500 Constant Flow, GGG40, Wafer V5CF500BL113 DN500 Constant Flow, GGG40, Wafer V5CF500BL115 DN500 Constant Flow, GGG40, Wafer V5CF500BL117 DN500 Constant Flow, GGG40, Wafer V5CF500BL119 DN500 Constant Flow, GGG40, Wafer V5CF500BL121 DN500 Constant Flow, GGG40, Wafer V5CF500BL123 DN500 Constant Flow, GGG40, Wafer V5CF500BL125 DN500 Constant Flow, GGG40, Wafer V5CF500BL127 DN500 Constant Flow, GGG40, Wafer V5CF500BL129 DN500 Constant Flow, GGG40, Wafer V5CF500BL131 DN500 Constant Flow, GGG40, Wafer V5CF500BL133 DN500 Constant Flow, GGG40, Wafer V5CF500BL135 DN500 Constant Flow, GGG40, Wafer V5CF500BM155 DN500 Constant Flow, GGG40, Wafer V5CF500BM157 DN500 Constant Flow, GGG40, Wafer V5CF500BM159 DN500 Constant Flow, GGG40, Wafer V5CF500BM161 DN500 Constant Flow, GGG40, Wafer V5CF500BM163 DN500 Constant Flow, GGG40, Wafer V5CF500BM165 DN500 Constant Flow, GGG40, Wafer V5CF500BS157 DN500 Constant Flow, GGG40, Wafer V5CF500BS159 DN500 Constant Flow, GGG40, Wafer V5CF500BS161 DN500 Constant Flow, GGG40, Wafer V5CF500BS163 DN500 Constant Flow, GGG40, Wafer V5CF500BS165 DN500 Constant Flow, GGG40, Wafer V5CF500BS167 DN500 Constant Flow, GGG40, Wafer V5CF500BS169 DN500 Constant Flow, GGG40, Wafer V5CF500BS171 DN500 Constant Flow, GGG40, Wafer V5CF500BS173 DN500 Constant Flow, GGG40, Wafer V5CF500BS175 DN500 Constant Flow, GGG40, Wafer V5CF500BS177 DN500 Constant Flow, GGG40, Wafer V5CF500BS179 DN500 Constant Flow, GGG40, Wafer V5CF500BS181 DN500 Constant Flow, GGG40, Wafer V5CF500BS183 DN500 Constant Flow, GGG40, Wafer V5CF500BS185 DN500 Constant Flow, GGG40, Wafer V5CF500BS187 DN500 Constant Flow, GGG40, Wafer V5CF500BS189 DN500 Constant Flow, GGG40, Wafer V5CF500BS191 DN500 Constant Flow, GGG40, Wafer 应用: 霍尼韦尔 “ConF V5” 系列对夹式动态流量平衡阀是暖通空调水系统用于流量控制的一种新型平衡阀产品,当系统压力在工作压差范围内波动时它能动态地平衡这种压力变化而保持所在管道的流量恒定. “ConF V5” 系列对夹式动态流量平衡阀不仅能应用于暖通空调系统的流量控制,也可应用于其它的有相同功能要求的工作场合. “ConF V5” 系列对夹式动态流量平衡阀是一种动态平衡、无须任何外部能量的二通型流量控制阀,规格尺寸为DN50-DN500,它由球墨铸铁阀体和在阀体内部的动态流量阀胆组成.特性:在此平衡阀设计中,随着系统压力的波动,动态平衡阀胆会自动的上下运动以改变开度,从而保持管道的流量始终不变;在流量自动调节时无须任何外部能量;能自动的调节设备或管道流量达到所要求的设计流量; 紧凑的设计节省了安装空间;简化了设计时管道系统的计算工作量; 安装工作方便快捷;系统运行前无须进行平衡调试; 不锈钢阀胆确保了阀门耐腐蚀能力强、工作寿命长.技术参数:尺寸范围: DN50~500(2″~ 20″) 流流流量精度 流量精度: 5%额定压力: 静压 375 psi (25 Bars), 极限压力 1875 psi (125 Bars) 法兰连接::: : 与DIN EN 1092-1 2002兼容 介质: 水介质温度: 0~ 110℃ 材质: 阀体 球墨铸铁阀胆 不锈钢 O型圈 EPDM 环境温度: 0 ~ 65°C 运输存储温度: -40 to +65°C 大气: 无腐蚀无爆炸 尺寸: 参见附表OS 代码构成:V5CF ××× ×× ×××流量代码(参见 “技术参数表”) 压差代码:DN50~80: ML(15-150KPa)、MM(22-210KPa)、MH(33-330KPa)、MS(35-250) DN100~500: BL(15-150KPa)、BM(22-210KPa)、BH(33-330KPa) 、BS(35-250) 尺寸代码:050(DN50)、065(DN65)、080(DN80)、100(DN100)、125(DN125)、150(DN150)、 200(DN200)、250(DN250)、300(DN300)、350(DN350)、400(DN400)、 450(DN450)、500(DN500) 产品代码:V5CF(对夹式动态流量平衡阀 “ConF V5)尺寸重量表:尺寸 A B C D E F 重量(Kg) DN50 180 50 83 24 106 5.7 DN65 180 65 83 24 120 5.9 DN80 180 80 83 24 132 6.2 DN100 220 100 133 24 177 10.7 DN125 220 125 140 24 193 15.3 DN150 220 150 162 24 53 220 21.7 DN200 220 200 214 24 53 280 30.2 DN250 220 250 280 24 53 341 34.5 DN300 223 300 328 24 69 400 50.7 DN350 223 350 382 24 69 448 58.8 DN400 242 400 440 24 69 510 90.3 DN450 242 450 487 24 69 560 110.8 DN500 242 500 545 24 69 618 149.7动态流量平衡阀 V2CF040SM016V5CF065MS036V5CF080MS025V5CF100BM035V5CF150BM051V5CF150BS095V5CF150BS097V5CF200BS107V5CF200BS113V5CF250BS113V5CF250BS139V5CF300BS135V5CF300BS143安装说明: 1. 仔细地阅读该安装说明并确保按照该说明的方法进行安装工作.不按说明安装可能导致产品无法正常工作、甚至导致如系统无法正常工作等严重后果;2. 将设备要求的额定参数与产品上标示的额定参数进行对照,确保产品的额定流量满足应用的要求;3. 安装人员必须是经过培训的、有经验的,以确保安装工作顺利完成; 4. 在安装结束后必须进行彻底地检查以确保安装无误;5. 重要提示: 为确保安装工作不出现任何意外,在产品安装前必须对管道系统进行彻底地的清洗(必要时采用化学试剂),以确保管道系统的清洁、无锈蚀和污垢,在冲洗前必须移去所有的过滤装置以确保管道通畅;6. 建议在系统初始清洗时设备安装管道处安装临时管道,待冲洗工作完成后在将设备安装到管道上;7. 注意该设备不要使用在介质含有较多油脂、矿物油等粘度较高或有腐蚀性的地方;8. 在安装时应注意确保水流方向于阀体标识的箭头方向一致,错误的安装将导致水系统阻塞甚至瘫痪;9. 注意在安装时不要损坏吊装环(DN200以上).V5CF065MS036 V5CF150BS097 V5CF250BS139 V5系列对夹式二通型动态流量平衡阀在线价格价格查询,点击订购!V5CF065MS036 V5CF150BS097 V5CF250BS139 V5系列对夹式二通型动态流量平衡阀在线价格价格查询,点击订购!
维萨拉HMT120温湿度露点焓值传感器变送器有哪些特性应用?以下是创仪给大家带来关于维萨拉HMT120温湿度露点焓值传感器变送器相关介绍!维萨拉温湿度露点焓值传感器变送器常用的有HMT120,HMT130DMT143,DMT152等.设计用于洁净室中的温湿度露点焓值的感应与测量,并且适用于高要求的HVAC应用.性能HMT120,HMT130DMT143,DMT152融合了可以实现相对湿度的精确、可靠测量的维萨拉HUMICAP.技术。维萨拉HUMICAP.可以抵御灰尘和大部分化学制品的影响.为在洁净室内使用,变送器外壳进行了优化处理.外壳表面光滑、易于清理,外壳所用材料可以承受多种净化剂的侵蚀.此外,配线可以经变送器的背板来完成.上海创仪公司目前维萨拉HMT120温湿度露点焓值传感器变送器现货供应,特别提醒安装使用过程中要记得取下探头保护罩,否则会出现传感器失效失灵等故障.可互换式探头HMT120/130变送器采用了一种完全可互换的湿度探头.探头的拆除和更换新探头可以在不对变送器进行调整的情况下轻松完成,这使得变送器的二次校准十分简便和快速.探头可以用一台维萨拉便携式仪器为基准进行调整.变送器带有固定相对湿度RH和温度T输出的恒定输出探头,这为检查监测系统和信号传输线路提供了便利.可选项HMT120与HMT130变送器可安装于墙壁上,也可使用远程探头.在用于高温条件或有限空间时,远程探头是一种理想的选择.变送器可选带LCD显示屏,用以显示被选参数的测量结果.参数在显示屏上以两排同时显示.特征/优势. 维萨拉HUMICAP.技术,配备HUMICAP. 180R湿度传感器. 两线制回路供电或三线制电压输出结构. 可互换探头(便于现场校准). 精确可靠. 可抵御灰尘和大部分化学制品的影响. 可选LCD显示屏. USB连接线,可用于维护时连接PC. 壁挂式或配备远程探头. 可提供恒定输出探头. 可使用维萨拉安装组件和DTR504A维萨拉防辐射罩将其安装于户外. IP65外壳技术参数相对湿度测量范围0 ... 100 %RH精度:包括非线性、滞后性和重复性在0 °C ... +40 °C 时±1.7 %RH (0 ... 90 %RH)±2.5 %RH (90 ... 100 %RH)在-40 °C ... +0 °C 和+40 °C ... +80 °C时±3.0 %RH (0 ... 90 %RH)±4.0 %RH (90 ... 100 %RH)在+20 °C (+68 °F) 时工厂校准的不确定度±1.5 %RH湿度传感器 维萨拉HUMICAP .180R温度:测量范围 -40 °C ... +80 °C温度范围内的精度在+15 °C ... +25 °C时±0.2 °C在 0 ... +15 °C 和 +25 °C ... +40 °C时±0.25 °C在-40 °C ... +0 °C 和 +40 °C ... +80 °C时±0.4 °C温度传感器Pt1000 RTD F0.1级 IEC 60751工作温度范围变送器本体,无显示屏-40 °C ... +60 °C变送器本体,有显示屏-20 °C ... +60 °CHMP110 探头-40 °C ... +80 °C存储温度范围-50 °C ... +70 °C电磁兼容性EN 61326-1 和EN 5502输入与输出:HMT120两线制变送器(回路供电)电流输出信号4 ... 20 mA外部回路电压10 ... 30 VDC (RL= 0 ohms)20 ... 30 VDC (RL< 500 ohms)HMT130三线制变送器电压输出信号 0 ... 1 V, 0 ... 5 V, 0 ... 10 V或 介于0 ... 10 V之间的用户定义值zui小输出电阻1 kohm串行输出RS485,非隔离继电器输出 1个继电器(zui大50VDC,200mA)供电电压 10 ... 35 VDC15 ... 35 VDC (输出电压为 0 ... 10 V时)24 VAC (±20 %)24VDC时的电流消耗8mA, 如果报警关闭时为15mA在环境温度为+20 °C时进行校准后的模拟输出引起的zui大额外误差 FS 输出信号的±0.1 %模拟输出的温度依存度FS 输出信号的±0.005 %在线订购维萨拉HMT120温湿度露点焓值传感器变送器,欢迎点击咨询!https://item.taobao.com/item.htm?id=558696244330
ML8824A0620电动阀门执行器可为阀门提供调节型控制并且输出0(2)-10VDC或0(4)-20mA的位置反馈信号;同时ML8824A的反馈是与跳片选择对应的输入信号相跟随,即当输入是4-20ma时,反馈也是4-20ma;输入信号是2-10VDC时,反馈也是2-10VDC,本产品主要是应用于暖通空调或者工业控制系统。ML8824A0620 配合V5GV2W、V5011P、V5013P、V5211F、V5GV3W等系列阀门使用于各种水系统和蒸汽管路控制系统使用。相比ML7420A8088-E、ML7421A1032-E、M7421B1023-E、ML7421B8012-E、ML7421A8035-E,ML7425A8018-E等执行器控制精度和灵敏度更高.霍尼韦尔ML8824A0620阀门执行器测试报告,主要表现同向在动作大概在0.1V左右,也就是千分之一的信号变化时执行器就可以作相应的动作.*小的动作分辨率在万分之七。以下是上海创仪公司实际测试记录ML8824A0620阀门执行器相应的数据变化表: 由关至开(阀门全关到开的方向时) 全关 0.036V 动作1 0.300V 动作2 0.330V 动作3 0.400V 动作4 0.500V 由开至关(阀门全开到关的方向时) 全开 9.88V动作1 9.75V动作2 9.65V动作3 9.57V动作4 9.50V技术参数:温度工作环境温度:-10-55° C(5-95%RH)贮存环境温度:-4065°C(5-95%RH)工作介质温度*高:130°C信号输入信号:0-10VDC,2-10VDC,电压输入阻抗>100KΩ 0-20mA,4-20mA,电流输入阻抗<0.125KΩ反馈信号:0-10VDC ,2-10VDC ,0-20mA,4-20mA安全认证:CE(EN60730)电气保护等级:III (EN60730-1)防护等级:IP54(EN60730)材料上盖:PC塑料壳体600N:塑料1800N:铸铝支架铸铝接线接线端子:1.5mm2电缆接口:PG13.5预留:PG13.5 及PG9 接口产品特点1.安装简单快捷2.低能耗,免维护3.行程自适应模式4.运行时间可调手动开关, 具有手动优先功能,0(2)-10VDC,0(4)-20mA输入信号,0(2)-10VDC,0(4)-20mA位置反馈信号,动作方向可选.honeywell霍尼韦尔电动阀门执行器常用产品型号表如下:ML8824A0620行程20mmML8824A1820行程20mmML8824A1840行程20mmML7420A8088-E行程20mmML7421A8035-E行程20mmML7421B8012-E行程40mmML6420A3007-E行程20mmhoneywell霍尼韦尔ML8824A电动阀门执行新品的主要特点是:- 运行速度是可以跳片选择.- 反馈有可以选择电流4-20ma的.- 相对于ML7420执行器灵敏度更好,分辨率更高.在线订购,价格真实,让采购容易,点击咨询,期待您的合作:https://detail.1688.com/offer/631329008292.html 上海创仪公司报价.https://item.taobao.com/item.htm?id=631883129183上海创仪公司报价.
honeywell霍尼韦尔ML8824A0620电动阀门执行器产品概述 ML8824A0620电动阀门执行器可为阀门提供调节型控制并且输出0(2)-10VDC或0(4)-20mA的位置反馈信号,应用于空调系统.ML8824A0620配合V5GV2W、V5011P、V5013P、V5211F、V5GV3W等系列阀门使用于各种水系统和蒸汽管路控制系统使用.相比ML7420A8088-E、ML7421A1032-E、M7421B1023-E、ML7421B8012-E、ML7421A8035-E,ML7425A8018-E等执行器控制精度和灵敏度更高.技术参数温度工作环境温度:-10-55° C(5-95%RH)贮存环境温度:-4065°C(5-95%RH)工作介质温度高至:130°C信号输入信号:0-10VDC,2-10VDC,电压输入阻抗>100KΩ 0-20mA,4-20mA,电流输入阻抗<0.125KΩ反馈信号:0-10VDC ,2-10VDC ,0-20mA,4-20mA安全认证:CE(EN60730)电气保护等级:III (EN60730-1)防护等级:IP54(EN60730)材料上盖:PC塑料壳体600N:塑料1800N:铸铝支架铸铝接线接线端子:1.5mm2电缆接口:PG13.5预留:PG13.5 及PG9 接口产品特点1.安装简单快捷2.低能耗,免维护3.行程自适应模式4.运行时间可调手动开关, 具有手动优先功能,0(2)-10VDC,0(4)-20mA输入信号,0(2)-10VDC,0(4)-20mA位置反馈信号,动作方向可选.产品型号:ML8824A0620行程20mmML8824A1820行程20mmML8824A1840行程20mmML7420A8088-E行程20mmML7421A8035-E行程20mmML7421B8012-E行程40mmML6420A3007-E行程20mm产品展示图为霍尼韦尔ML8824A0620电动阀门执行器在线订购,价格真实,让采购容易,点击咨询,期待您的合作:https://detail.1688.com/offer/631329008292.html上海创仪公司报价.https://item.taobao.com/item.htm?ft=t&id=630963648291上海创仪公司报价.
创仪小编给大家分享下关于单向节流阀原理小知识! 单向节流阀是通过改变节流截面或节流长度以控制流体流量的阀门.将节流阀和单向阀并联则可组合成单向节流阀.节流阀和单向节流阀是简易的流量控制阀,在定量泵液压系统中,节流阀和溢流阀配合,可组成三种节流调速系统,即进油路节流调速系统、回油路节流调速系统和旁路节流调速系统。节流阀没有流量负反馈功能,不能补偿由负载变化所造成的速度不稳定,一般仅用于负载变化不大或对速度稳定性要求不高的场合.工作原理制冷时 ,制冷剂由单向节流阀底部端口流入,阀芯被向上推开,制冷剂可顺利从阀座腔体中经由两个通孔,再通过单向节流阀流出.制热时,制冷剂由单向节流阀顶部端口流入,从阀座顶部节流开口进入阀座腔体,阀芯由于制冷剂的推力和自身重力原因堵塞住了两个通孔,制冷剂被迫流经节流孔进行辅助节流 ,再流出单向节流阀.ConF V5CF065MS036 V5系列对夹式 二通型动态流量平衡阀现货供应 ,本篇重点推荐产品!更专业的解答可咨询上海创仪,欢迎合作.https://detail.1688.com/offer/629963148640.html
单向节流阀是通过改变节流截面或节流长度以控制流体流量的阀门.将节流阀和单向阀并联则可组合成单向节流阀.节流阀和单向节流阀是简易的流量控制阀,在定量泵液压系统中,节流阀和溢流阀配合,可组成三种节流调速系统,即进油路节流调速系统、回油路节流调速系统和旁路节流调速系统。节流阀没有流量负反馈功能,不能补偿由负载变化所造成的速度不稳定,一般仅用于负载变化不大或对速度稳定性要求不高的场合.工作原理制冷时 ,制冷剂由单向节流阀底部端口流入,阀芯被向上推开,制冷剂可顺利从阀座腔体中经由两个通孔,再通过单向节流阀流出.制热时,制冷剂由单向节流阀顶部端口流入,从阀座顶部节流开口进入阀座腔体,阀芯由于制冷剂的推力和自身重力原因堵塞住了两个通孔,制冷剂被迫流经节流孔进行辅助节流 ,再流出单向节流阀.以上是上海创仪实业有限公司给您分享关于阀门相关信息,更多详情欢迎致电我司。https://detail.1688.com/offer/629893512719.html
压力变送器是常见的一种变送器,而且有很多行业都在使用。下面创仪小编就简单的说下使用压力变送器时注意哪些? 1. 检查安装孔的尺寸:如果安装孔的尺寸不合适,传感器在安装过程中,其螺纹部分就很容易受到磨损。这不仅会影响设备的密封性能,而且使压力传感器不能充分发挥作用,甚至还可能产生安全隐患。只有合适的安装孔才能够避免螺纹的磨损(螺纹工业标准1/2-20UNF2B),通常可以采用安装孔测量仪对安装孔进行检测,以做出适当的调整。 2. 保持安装孔的清洁:保持安装孔的清洁并防止熔料堵塞对保证设备的正常运行来说十分重要。在挤出机被清洁之前,所有的压力传感器都应该从机筒上拆除以避免损坏。在拆除传感器时,熔料有可能流入到安装孔中并硬化,如果这些残余的熔料没有被去除,当再次安装传感器时就可能造成其顶部受损。清洁工具包能够将这些熔料残余物去除。然而,重复的清洁过程有可能加深安装孔对传感器造成的损坏。如果这种情况发生,就应当采取措施来升高传感器在安装孔中的位置。 3. 选择恰当的位置:当压力传感器的安装位置太靠近生产线的上游时,未熔融的物料可能会磨损传感器的顶部;如果传感器被安装在太靠后的位置,在传感器和螺杆行程之间可能会产生熔融物料的停滞区,熔料在那里有可能产生降解,压力信号也可能传递失真;如果传感器过于深入机筒,螺杆有可能在旋转过程中触碰到传感器的顶部而造成其损坏。一般来说,传感器可以位于滤网前面的机筒上、熔体泵的前后或者模具中。以上是上海创仪实业有限公司给您分享关于压力变送器在使用时需要注意什么,更多详情点击咨询.https://detail.1688.com/offer/629965468181.html
关于温湿度对电气设备的影响,湿度过高,降低电气设备的绝缘强度;一方面湿度过高,使空气的绝缘性能降低,开关设备中很多地方是靠空气间隙绝缘的。另一方面空气中的水分附着在绝缘材料表面,使电气设备的绝缘电阻降低,特别是使用年限较长的设备,由于内部有积尘吸附水分,潮湿程度将更严重,绝缘电阻更低;设备的泄露电流大大增加,甚至造成绝缘击穿,产生事故。 创仪小编就来说说,如何更好的减轻环境湿度对电气设备运行产生的影响?1. 将变配电室与室外相通的所有进出电缆保护管的管口及保护管周边全部封堵,特别是带有地下电缆夹层的更要密封好, 在防小动物的同时也防止水及潮气由室外进入室内设备区。2. 设备区宜安装空调,在高湿季节,宜选择“除湿”模式运行。3. 在空调除湿效果仍不理想时,应考虑安装工业除湿机,其*小除湿为30%左右(这是普通空调除湿所达不到的),并可定时自动除湿。4. 设备区内悬挂温湿度双显测量仪,实时监测,定时记录,及时分析湿度程度,找出高湿原因,采取有效去湿、除湿措施,改善设备运行环境。5. 任何季节都要杜绝设备区内屋顶出现雨、雪水渗漏的情况。6. 对室内电缆沟、室外电缆井,地下电缆夹层,要做到逢雨必查,见水必抽,严防潮气、水分进入设备区。7. 新建变配电室应特别注意要求生产厂家选择耐湿特性好的优质绝缘配件。不同厂家的设备因绝缘材料品质不一,对环境湿度的耐受程度也不一样,好的能耐受住70%~80%甚至更高的环境湿度,差的在环境湿度为50%~60%时就可能出现放电声并伴有异常气味。SCTHWA43SNS室内温湿度传感器,本篇主要推荐产品!https://detail.1688.com/offer/630477962705.html