GW100(A)型温度传感器(使用说明书)

Compact temperature controllers2Overview about thecompact temperature controllersSubject to technical modification without notice!gwk temperature controllers for water, using indirect coolinggwk temperature controllers for water, with direct coolingValues in () optionalThe compact series teco c guarantees an efficient temperature control with water temperatures from 0°C to 225 °C.The units are available in various versions and with a new generation of controllers. The units in modern industrial design stand for high-quality but affordable technology, high availability, user- and service friendliness. The requirements for high energy efficiency, comprehensive process monitoring and industry 4.0 compatibility are also covered by the series.Already in its basic version, the e-device is the preferred solution for many applications, with an excellent price-performance ratio.Basic equipment includes the gwk basicControl micro-processor control with display of set and actualtemperatures, an automatic water refill, automatic mould draining, an energy-saving continuous heat control. For the individualization there are different interfaces, an individual colouration and lettering, mounting on rubber buffers or rails instead of rolls and other important options.The t-units are equipped with the new gwk compactControl controller with fast 32-bit processor. It has an independent display and control unit logotherm developed by gwk itself with a 7-inch touchscreen with intuitive user interface with friendly menu navigation.The top version gwk modulContro l where also the inputs and outputs of different circuit boards can be chosen freely, completes the new controller family of gwk .3Perfect Cooling and Temperature Controlteco cs e – The universal temperature controller for demanding injection moulding1) at 15 °C cooling water and 90 °C resp. 130 °C circuit water temperature 2) not in combination with mould draining function 3) not in combination with leakage stop operation 4) up to 12 kW heating capacity 5) plus front panel made of thermoset plastic 6) not in combination with return stopTemperature controllers water indirect 95 °C,140 °C , 160 °C and 180 °CT e c h n i c a l d a t aS t a n d a r d s p e c i f i c a t i o n /O p t i o n sSubject to technical modification without notice!• = Standard / o = Option / – = notavailable/ Values in () optional• S imple one button operation and digital display • S elf-optimizing basicControl microcontroller with high control accuracy • C ontinuous monitoring of process parameters (limit comparator) • W ear-free energy-saving SSR heating control • O ptional connection for external thermocouple (Fe-CuNi or Pt 100) • Optional interfaces at front panel (analog 0 - 10 V, 0/4 - 20 mA; serial RS 232, RS 422, RS 485, TTY; Profibus; Profinet) • S plash proof electrics • R eady to connect with 3 m long mains cable and CEE socket • H ousing and hood: RAL 7012 basalt grey • S ide panels: RAL 2004 pure orange4•S elf-optimizing microcontroller with high control accuracy•T•I ntuitive operating interface with user-friendly menu navigation•M easuring, indication and monitoring of the flow rate•I ntegrated operating and service information•S torage and recall of process parameters with memory card•W earless, energy-saving solid state heating control•R eturn temperature indication•C ontinuous monitoring of process parameters•O ptional connection for external thermocouple (Fe-CuNi or Pt 100)•O ptional interfaces at front panel (analog 0 - 10 V, 0/4 - 20 mA; serial RS 232,RS 422, RS 485, TTY; Profibus; Profinet)•S plash proof electrics•R eady to connect with 3 m long mains cable and CEE socket 4•H ousing and hood: RAL 7012 basalt grey•S ide panels: RAL 2004 pure orange1) at 15 °C cooling water and 90 °C resp. 130 °C circuit water temperature 2) not in combination with mould drain4) up to 12 kW heating capacity 5) plus front panel made of thermoset plastic 6) not in combination with return stoTemperature controllers water indirect 95 °C, 140 °TechnicaldataStandardspecification/Options5Perfect Cooling and Temperature Controlperior applicationsraining function 3) not in combination with leakage stop operation stopt 95 °C, 140 °C, 160 °C and 180 °CSubject to technical modification without notice!• = Standard / o = Option / – = not available/ Values in () optionalDisplay and control unit logotherm with user-friendly 7-inch touchscreen6teco cs 230 – water temperature controller for high temperaturesgwk temperature controllers, model teco cs 230t 9 are heating and cooling units with indi-rect cooling that are ready for connection and designed for the operation with water as heat transfer medium. The closed water circuit with automatic pressurization allows a safe process temperatures up to 225 °C.• S elf-optimizing microcontroller with high control accuracy • T ouchscreen for log in, control and monitoring of process parameters • I ntuitive operating interface with user-friendly menu navigation • M easuring, indication and monitoring of the flow rate • I ntegrated operating and service information incl. control display • S torage and recall of process parameters with memory card • W earless, energy-saving solid state heating control • R eturn temperature indication • C ontinuous monitoring of process parameters • O ptional connection for external thermocouple (Fe-CuNi or Pt 100) • O ptional interfaces (analog 0 – 10 V, 0/4 – 20 mA; serial RS 232, RS 422, RS 485, TTY; CAN-Bus; Profibus and Varan-Bus) • S plash proof electrics • R eady to connect with 3 m long mains cable and CEE socket • H ousing: RAL 7035 light grey • Side panels: RAL 2004 pure orange1) at 15 °C cooling water 200 °C circuit water temperatureTemperature controllers water indirect up to 225 °CSubject to technical modification without notice!• = Standard / o = Option7Perfect Cooling and Temperature Controlteco cd – Compact temperature controllerswith direct cooling• S elf-optimizing microcontroller with high control accuracy (version t) • T ouchscreen for log in, control and monitoring of process parameters (version t)• I ntuitive operating interface with user-friendly menu navigation (version t) • M easuring, indication and monitoring of the flow rate (version t) • I ntegrated operating and service information (version t) • S torage and recall of process parameters with memory card (version t) • W earless, energy-saving solid state heating control • R eturn temperature indication (version t) • C ontinuous monitoring of process parameters (version t) • O ptional connection for external thermocouple (Fe-CuNi or Pt 100) • O ptional interfaces at front panel (analog 0 - 10 V, 0/4 - 20 mA; serial RS 232, RS 422, RS 485, TTY; Profibus; Profinet) • S plash proof electrics • R eady to connect with 3 m long mains cable and CEE socket 4 • H ousing and hood: RAL 7012 basalt grey • S ide panels: RAL 2004 pure orangeSubject to technical modification without notice!1) at 15 °C cooling water and 90 °C resp. 130 °C circuit water temperature 2) not in combination with mould draining function 3) not in combination with leakage stop operation 4) up to 12 kW heating capacityTemperature controllers water direct 95 °C and 120 °C• = Standard / o = Option / – = notavailable/ Values in () optional T e c h n i c a l d a t aS t a n d a r d s p e c i f i c a t i o n /O p t i o n steco cr– clean, precise, quiet and powerfulBesides special equipment demands that prevent conta-mination of the atmosphere the cleanroom production re-quires a very high reproduci-bility as well as a precise temperature control withclose tolerances. gwk temperature controllers, model teco cr 1602t 9 are 2-circle heating and cooling units with direct cooling that are ready for connection and designed for the operation with water as heat medium. Besides the closed temperature control circuit the temperature controller teco crof stainless steel castors as well as a stainless steel housing with noise absorption. Thus emissions and particle contaminations can be reliably kept below the requested limit values. Particle measure-ments in the cleanroom laboratory of the Rosenheim University of Applied Sciences confirm the suitability for the application in cleanrooms according to EN ISO 14644 for ISO class 6.•S elf-optimizing microcontroller with high control accuracy•T ouchscreen for log in, control and monitoring of process parameters•M easuring, indication and monitoring of the flow rate•S torage and recall of process parameters with memory card•W earless, energy-saving solid state heating control•R eturn temperature indication•C ontinuous monitoring of process parameters•O ptional external sensor connection (Fe-CuNi or Pt 100)•O ptional interfaces at the rear side of the unit (analog 0 – 10 V, 0/4 – 20 mA; serial RS 232,RS 422, RS 485, TTY; CAN-Bus; Profibus and Varan-Bus)•S plash proof electrics•R eady to connect with 3 m long mains cable and CEE socket•S tainless steel housing with fibre-free noise absorption suitable for laboratory use < 60 dbA•I ntegrated low-emission internal cooling of the unit1) at 15 °C cooling water 130 °C circuit water temperature Subject to technical modification without notice!Temperature controller water indirect 160 °C • = Standard89Perfect Cooling and Temperature Controlteco cw – the most cost-effective solution for glycol-free water from 0 to 25 °C• P recise microprocessor control • S imultaneous display of set and actual values • S imple one button operation • O ptional connection for external thermocouple (Fe-CuNi or Pt 100) • O ptional interfaces at front panel (analog 0 - 10 V, 0/4 - 20 mA; serial RS 232, RS 422, RS 485, TTY; Profibus; Varan-Bus) • O ptional flow rate indication • S plash proof electrics • R eady to connect mains cable and CEE socket • H ousing and hood: RAL 7012 basalt grey • S ide panels: RAL 2004 pure orangeTemperature controllers water indirect 0 - 25 °CSubject to technical modification without notice!T e c h n i c a l d a t aS t a n d a r d s p e c i f i c ./O p t i o n s1) at 30 °C cooling water and 10 °C circuit water temperature• = Standard / o= Option / – = not available10The multiple distribution system has beenfor the attachment to tempera-ture controllers to adjust and monitor indivi-dually the flow volume and the returntemperature of parallel connected consu-mer circuits. Thus the system ensures thehydraulic balance in the temperature con-trol circuits with different pressure lossesand ensures an economic and reliabledistribution of the flow rate delivered.The flow rate and the return temperature ofeach circuit is indicated on the central dis-play of the temperature controller.The process monitoring is performed by theadjustment of minimum and maximumlimit values for the flow rate, return tempe-rature and differential temperature percircuit. In addition, process performancesper distribution circuit are displayed. Whenthe tolerance band is exceeded alarm func-tions are activated and displayed. Display and control unit logotherm with user-friendly 7-inch touchscreen11Perfect Cooling and Temperature Control• S imple attachment to temperature controllers up to 4 circuits max. • D isplay, communication, operation via 7" touchscreen of the temperature controllers • C ontinous, maintenance-free and soiling resistant flow rate measurement per distribution circuit • C ommon temperature control and display in the supply line • S eparate temperature control in the return line per circuit • D isplay of process performances per distribution circuit • D isplay and monitoring of the flow per distribution circuit • L imit value setting of the flow per distribution circuit • L imit value setting of the temperature per distribution circuitSubject to technical modification without notice!* teco cs 90t 9, teco cs 140t, teco cs 160t, teco cs 180t 9 but limited to 160 °C **teco cs 90t 18, teco cs 90t 36, teco cd 90t• T hrottle valve for flow volume adjustment and hydraulic balancing per distribution circuit • M onitoring of temperature differences • C orrosion resistant materials • S hut-off ball valve per distribution supplyand return circuitTechnical data at a glanceValues in () optionalC o m p a c t t e m p e r a t u r e c o n t r o l l e r s _G B _10 / 2019 · S u b j e c t t o t e c h n i c a l m o d i f i c a t i o n w i t h o u t n o t i c e !。

KGW10型温度传感器使用说明书镇江中煤电子有限公司二○○六年八月一、概述KGW10型温度传感器是由嵌入式单片机控制的智能仪表。

该传感器采用本安电路设计，适用于煤矿井下或地面有瓦斯爆炸气体环境中，能够对管道介质温度、环境温度以及机电设备轴承温度进行连续检测。

它也可与KJ10、A-1、KJ4、KJF2000 等型号矿井监测系统配套使用。

该仪器具有检测灵敏度高、稳定性好、测量范围宽、兼容性好以及非线性补偿、灵敏度校正、参数显示等优点。

二、主要技术指标1、测量范围：0-50-100℃2、测量误差：±0.2℃3、工作电压：１８Ｖ4、工作电流：<50mA5、防爆型式：矿用本质安全型6、防爆标志： ibI（150℃）7、报警范围：1-99℃8、声光报警：声级>85db 红色LED闪光19、响应时间：4 秒10、工作条件：温度： 0-75℃相对湿度：≤96%大气压力 80-106℃11、输出信号：①数字串行码格式②脉冲频率方式：200-1000Hz③模拟电流方式：1-5mA;4-20mA12、关联设备：电源型号： KJF19名称： KJF19 矿用监控仪防爆形式： ibdmI防爆合格证编号： 2024006－2005 13、传感器-电源距离：2Km（1.5mm2铜芯电缆）分布电感≤1mh/Km分布电容≤0.1μF/Km14、遥控距离：>6m15、仪器重量：1.3Kg三、仪器的联接本仪器四芯插座与外部设备联接，接线方式如下：2四、仪器的通电与使用当仪器接通电源后，单片机复位启动，数码管依次显示：―――复位、启动、自检状态P ××温度传感器量程（50或100℃）C.××温度零频L.××温度精度A ××报警值F ××断电值F ××断电值××.×温度检测值五、安装3监控仪对应属性开关设置为↑↑↓，监控仪属性显示为X-C，数据显示为温度，单位为℃。

京 达恒通 技 限 产品使用说明书GWD100煤矿用温度传感器 产品使用说明书执行标准 Q/TS-JS-02-2012本 Ver1.0日期 2012.03.01在安装 使用产品前请仔细阅读产品使用说明书京 达恒通 技 限目录一 用途 (2)型 及含义 (2)外形尺 及材 (2)四 要特 (2)要技术参数 (3)工作原理 (3)七 结构 (4)使用 维 (4)九 注意 项 (5)十 型故障判断及处理 (6)十一 发 清单 (6)十 资 证明编 (7)附录警示 维修时 得改 本安电路和 本安电路 的元器件的电气参数 规格和型 ！本安 联产品 得随意改 配置！一 用途出上号100煤矿用温 传感器(以 简 传感器)是 满足 煤矿 测 温 的需要而研制的 它 以连续自动地将 温 转换 标准电信 输 给配接设备，并 就地显示沼气浓 值，超限声 警等 能 传感器 家防爆检验机 进行联机检验 , 内各类型 测系统配套使用型 含义 防爆型式及标志出 上 号 100参数，测 范围 0~100第 特征代 ，工作原理 电学第一特征代 ，测 温 用产品类型代 传感器传感器的防爆型式 矿用本 安全型，防爆标志 “寸xibI 退b”外形尺 及材a)外形尺 270 × 155 × 55mmb)重 1.3k gc)外壳材 锈钢四 要特1．采用 型单 微机和高集 数字 电路，使电路结构简单，性能 靠，便于维修 调试 秒2．实 了红外遥控调校零 灵敏 警 等 能,使调校方便简单3．采用 型开 电源,降 了整机 耗,增 了仪器传输距离4．增 了故障自检 能,便于使用 维5．设计了 型高 外壳结构,增 了仪器抗冲 能力要参数1 用条件境温 0℃～40℃相 湿 98变R击大气压力 80kPa～116kPa用于含 瓦 或煤尘爆 危险的煤矿2 要技术指标2.1工作 境条件温 0~40℃相 湿 98%大气压力 86~116kPa2.2测 范围和基本误差测 参数 测 范围 基本误差温 0℃〜100℃4 ±2.5变 对.S2.3传感器工作电压 DC9V~24V,工作电流 8mA2.4输 信 制式2.5频率型 200～1 000Hz 脉冲宽 0.3ms，脉冲幅 高电平 小于3.0V 电平小于+0.5V2.6测 范围 0～100℃2.7本安参数Ui 19V Ii 900mA Li 22uH Ci 0.2nF2.8 联设备2.9KDW28-18矿用隔爆兼本安 间断电源 安全标志编 MAA080025生产单 宜 市 恒自动 仪表 限工作原理该传感器以单 微机退SP430 中央处理单元 放大电路 A/号转换 数字显示 声 警 信 输 等单元电路组 ，框 如七 结构传感器 机的机壳采用 锈钢冲压而 ，秒 前 盖合缝处设计 橡胶密封围，既防尘又防水， 部装 传感器元件， 警灯组采用了高亮 红色发 管， 时也 声 警 秒仪器 面采用了四 红色数码作 数字显示 整个设计 颖 体 小 调节方便使用 维1 使用前的准备将插头缺口 插 ， 好旋紧 秒输 接线 格按以 所标颜色接线红色线──电源 极(电缆插头1 口)黑色线──电源负极(电缆插头2 口)白色线──频率信 输 (电缆插头3 口)绿色线──断电信 输 (电缆插头4 口)２ 仪器的调节仪器各项 能参数的调校采用 能菜单项方式， 能菜单项选项含义见表表字 符 含 义P 1 标 零P 2 调 精P 3 调 警自动调零： P 1当仪器处在温 零的 境 ，显示值 零的情况 ，需要 仪器调零 把仪器置于温 零的 境 如清 空气中 待读数稳定 ,按 能键 P 1 菜单，按一 确认键,标零完 仪器返回到温 检测状态精度调整： P 2根据煤矿安全规程,须定期用压力计 仪器的精 进行校准 在仪器的接口套 硅胶管，接入压力，待仪器读数稳定 , 按 能键 P 1 菜单，再按一 键，显示 P 2 菜单，按一 确认键,仪器显示温 值 再按 键( + 1 )或 键( -1 )调整仪器的示值,把仪器示值调整到所通入的压力真值 ,按一 确认键,精 调整完 仪器返回到温 检测状态3、报警值调整： P 3按 能键 P 1 菜单，再按 键，显示 P 3 菜单，按一 确认键,仪器显示当前的 警值 再按 键( + 1 )或 键( -1 )调整仪器的示值,把仪器示值调整到所需的 警值 ,按一 确认键, 警值调整完 仪器返回到温 检测状态注 在调校状态，当按键连续50 没 按 时，仪器 调校状态，返回到温 检测状态九 注意 项(1)本仪器应固定专人使用， 格按照使用说明书进行操作，非专职人员禁 随便拆开仪器，按动按键等(2)在使用中避免猛烈摔打，碰撞(3) 仪器的零 测试精 要定期调校，一般 半 一次，若未超差时 继续使用十 型故障判断及处理1．当仪器显示LLL时，元件 能损坏，请检查 予以更换2. 遥控问题如传感器接 到遥控信 ,首 检查遥控器电池是否 电,确认 电 在更换传感器线路板数码管旁的红外接收头(S对击) 如小数码管 能 数字乱跳而无法控制,也 更换S对击3. 显示"8.88"或 他 明字符若传感器在 显示"8.88"等 他 明字符,或反复显示"00.00", 能是分站和传感器之间电缆距离 长造 的, 当 断距离或增 分站十一 发 清单传感器 1遥控器 1只连接电缆 1根内 角扳手 1只说明书 1本包装 1个十 资 证明编防爆合格证安全标志准用证附录A规范性附录请产品 要零 元 部件及重要原材料明细表序 零部件(材料)规格型 材生产单安标编 或它认证编效期控类别1 温 敏感元件DS18B20 昊 技号2 壳体 锈钢 海华东电器限号联设备序 型 防爆型式 安全标志准用证 防爆合格证生产厂家1 矿用隔爆兼本安 间断电源KDW28-18矿用本安型 MAA080025320101190生产单 宜 市 恒自动 仪表 限。

Q/RJGWD100型温度传感器淮南市润金工矿机电有限公司发布前言本标准是根据GB3836.1—2000《爆炸性气体环境用电气设备第1部分：通用要求》和GB3836.4—2000《爆炸性气体环境用电气设备第4部分：本质安全型“i”》以及MT/T782.2-1998《煤矿机电设备温度传感器开关量信号输出型》等标准并结合产品开发实践而制定的。

本标准由淮南市润金工矿机电有限公司起草。

本标准主要起草人：陶瑞生代喜GWD100型温度传感器1 范围本标准规定了GWD100型温度传感器的产品分类、技术要求、试验方法、检验规则、标志、包装、运输和贮存。

本标准适用于对煤矿井下机电设备温度进行定值测量并输出模拟量及开关量信号的温度传感器（以下简称“温度传感器”）2 规范性引用文件下列文件中的条款通过本标准的引用而成为本标准的条款。

凡是注日期的引用文件，其随后所有的修改单（不包括勘误的内容）或修订版均不适用于本标准，然而，鼓励根据本标准达成协议的各方研究是否可使用这些文件的最新版本。

凡是不注日期的引用文件，其最新版本适用于本标准。

GB191—2000 包装贮运图示标志GB3836.1—2000 爆炸性气体环境用电气设备第1部分：通用要求GB3836.4—2000 爆炸性气体环境用电气设备第4部分：本质安全型“i”GB/T4208—1993 外壳防护等级（IP代码）MT209—1990 煤矿通信、检测、控制用电子产品通用技术要求MT210—1990 煤矿通信、检测、控制用电子产品基本试验方法MT/T782.2—1998 煤矿机电设备温度传感器开关量信号输出型MT872—2000 矿用带式输送机综合保护装置技术条件3 产品分类3.1 型式3.1.1 防爆型式矿用本质安全型。

防爆标志为：ExibⅠ3.1.2 测量方式：非接触型。

3.1.3 动作值：分档定值式。

3.2 型号G W D 100主参数，测量范围（℃）温度集成电路温度传感器3.3 规格3.3.1 传感器按动作温度分为42℃、60℃、70℃三档。

800-854-6417 F A X 714-895-2141C M AD I S H M A C H I NE S 12700 K N O T T S T R E E T GARDEN GROVE, CALIFORNIA 92841T ABLE OF C ONTENTSM ODEL GLC/GW-1001.RECEIVING (2)2.SPECIFICATIONS (3)2.1.GLC (3)2.2.GW-100 (4)3.INSTALLATION (5)3.1.E LECTRICAL (5)3.2.P LUMBING (5)4.OPERATION (6)4.1.F ILLING OF THE W ASH T ANK (6)4.2.O PERATION I NSTRUCTIONS (6)4.2.1. Proper Chemical Dosage (6)4.3.C LEANING I NSTRUCTIONS (7)4.3.1. Highly Recommended Daily Cleaning Instructions (7)4.3.2. Weekly Cleaning Instructions (7)5.TROUBLESHOOTING (8)6.PARTS MANUAL (10)6.1.GLC I NITIAL P ARTS K IT P/N 1100.47 (10)6.2.GW-100I NITIAL P ARTS K IT P/N 1100.49 (11)6.3.E XPLODED V IEW D RAWINGS (12)6.2.1. Main Assembly (12)6.2.2. Conveyor Wheel / Curtain (13)6.2.3. Conveyor Shut-Off Rod Assembly (14)6.2.4. GLC Control Box Assembly P/N 18612.49 (15)6.2.5. GW-100 Control Box Assembly P/N 18611.47 (16)6.2.5. Soap Tank Assembly (17)6.2.6. Water Inlet Plumbing (18)6.2.7. Sanitizer Plumbing Component Hardware (19)6.2.8. Vacuum Breaker and Hardware (20)6.2.9. Wash Pump Assembly (21)6.2.10. Conveyor Drive Assembly (22)6.2.11. Waste Collector Assy. P/N 16565.00 (23)7.GLC ELECTRICAL DIAGRAM (24)8.GW-100 ELECTRICAL DIAGRAM (25)1. Receiving1. Remove all packing material from the machine.2. Remove all tape securing components within the machine. Check that both trays arepositioned properly.3. Check for the following component parts:A. Check that the rinse screen is secure in the rinse drain.B. Check the position of the GLC curtains.C. Check that the conveyor is level and the drive gear is engaged in the conveyor’souter rim grooves.D. Important: Check and remove overflow drain tube, which is secured to the front ofthe scrap tank, behind the access door. Place it in position in soap tank.E. Check that the screen in the detergent tank is in position.F. Check that the drain screen is in position.4. Important: Read all instructions completely.DISCLAIMERSCMA expressly disclaims any and all warranties, express or implied, relating to the installation of any and all CMA equipment that is installed by chemical dealers, contracted servicers or third partyservicers to CMA equipment. If the installation instructions are not followed exactly (to the letter), or, if any person or company conducting the installation of the CMA equipment, revise theinstallation procedures or alter the instructions in any manner, the CMA warranty becomes void. If, due to the improper installation of CMA equipment, this equipment ceases to operate properly oraffects other parts of the CMA dishwashing equipment, in that the other parts become defective, the CMA warranty becomes void. CMA will not be liable or responsible or warrant CMA equipment,due to improper installation of any CMA model dishwasher.CMA does NOT endorse “Tankless On-Demand” water heaters for use on CMA Dishmachine products. On most applications, the volume of hot water required for commercial dishmachines exceeds the capacity of these types of heating sources. You will findthat most, if not all, commercial dishmachines have been programmed with auto-filling features that require quick filling, with a designated limited time.CMA DOES endorse, and highly recommends, the standard “tank” style water heaters, sized properly to handle each particular facility with their water heating requirements. A “tank” style water heater stores and supplies a large capacity of preheated water before providing hot water to the dishmachine. To meet required health codes, there must be a reliable and consistent flow of adequate hot water supplied to the dishmachine. If the facilities’ “tank” style water heater is marginal in size, CMA recommends installing a proper size Hatco Booster Heater, a CMA’s E-Temp 40 or 70-degree-rise Booster Heater (that can be installed on CMA Conveyors), or a CMA Temp-Sure Booster Heater (for door and undercounter dishmachines). All are designed to adequatelyachieve results.2.1. GLC2.2. GW-1003.1.Electrical *GLC - a 20 Amp, 208-240 Volt, 60 Hz dedicated circuit should be used to supply electrical power to the GL-C machine (see specification sheet page 3). The power connection with the leads L-1, L-2 and Ground must be such that there is sufficient length of flexible conduit to permit the machine to be moved for cleaning. This machine operates from 208 to 240 Volts.GW-100 - a 15 Amp, 120 Volt, 60 Hz dedicated circuit should be used to supply electrical power to the GW-100machine (see specification sheet page 3). The power connection with the leads L-1, L-2 (N) and Ground must be such that there is sufficient length of flexible conduit to permit the machine to be moved for cleaning.3.2.Plumbing * Making Cold Water Connection1. Connect a cold 1/2” water line to the cold water solenoid valve and inspect for leaks. Water flow pressureshould be between 20-100 PSI. 2. Cold water usage is approximately 2.8 U.S. gpm.3. Machine is equipped with a mixing valve located between hot and cold solenoid valves. Open untiltemperature reaches 75°F for areas with very cold rinse water to heat the rinse water which will prevent glasses from cracking.Making Hot Water Connection1. Connect a hot 1/2” water line to the hot water solenoid valve. The temperature must be minimum 140°F/60°Cwith flow pressure between 20-100 PSI. 2. Hot water usage is approximately 12 U.S. gph.Making Drain Connection1. Connect a 1-1/2” PVC drain line to the bottom of the scrap tank (note: machine is gravity drain)*Electrical and plumbing connections must be made by a qualified person whowill comply with all available Federal, State, and Local Health, Electrical, Plumbing and Safety codes.4.1. Filling of the Wash Tank•With overflow drain tube in place in the detergent tank proceed to following.•Turn power on-off/flush switch to the “ON” position. The water solenoid will activate and fill soap tank until the proper level is reached, also activating heating element.•Set the thermostat for minimum 140°F/60°C. The wash tank temperature is regulated by heater and thermostat.4.2. Operation Instructions•Open the door; place on-off/flush switch to the “ON” position. The wash tank will begin its automatic fill cycle.•Verify product containers have chemicals.•Detergent is fed from the supply container into the detergent tank in controlled amounts by the detergent pump. Use detergent at strength recommended by your chemical supplier.•Place glasses on the conveyor wheel. Push conveyor rocker switch located on front right side of machine. The conveyor wheel will stop and start with conveyor shut-off rod.4.2.1. Proper Chemical DosageThe amount of chemical delivered, whether it is detergent, sanitizer or rinse aid, is controlled using thesetscrew located on the circuit board attached to the control box.•For detergent, contact your chemical supplier for proper type and detergent concentration.Note:Detergent pump only operates when hot water tank is filling or when prime switches areactivated.•Circuit board basic settings are: arrow facing 9:00 for sani and rinse, 12:00 for detergent.Adjustments To Detergent Pump:•When replacement container is installed, push the prime switch in and hold until the detergent feed line is full.•Securely place overflow drain tube into soap tank and switch power on-off/flush switch to the “ON” position.The detergent dispenser will automatically dispense soap as the soap tank fills with water.•The quantity of product can be regulated at the circuit board using the setscrew.Adjustments To Sanitizer Pump:•Follow same procedures as detergent for priming chemical.•Push conveyor rocker switch located on the front of the machine. Place sanitizer test strip under the final rinse and read for proper level.•The quantity of product can be controlled at the sani circuit board set screw.Note: U se chlorine test papers to verify and monitor the 50ppm chlorine levelAdjustments To Rinse Agent Pump:•Follow same procedures as detergent for priming chemical.•Cycle glasses through machine and verify rinse agent is feeding properly. Increase rinse aid as necessary by turning up or down circuit set screw.•Basic circuit board setting is 9:00.Note: To meet standards set by NSF, chlorine at 50ppm must be used in the final rinse.4.3. Cleaning Instructions4.3.1. Highly Recommended Daily Cleaning InstructionsRemove optional GLC drain tray & waste collector from the front of your glasswasher and cleanthoroughly.Turn power switch off behind front service door.Remove all trays, screens and curtains. Wash, rinse them thoroughly and allow to dry.Move shut-off rod to side and remove conveyor hub and wheel from machine.Remove and clean wash and rinse arms. Wash tube brush and jet reamer supplied for cleaning ofarms.CAUTION: Do not twist spray arms, pull straight out or they will breakInstall wash and rinse arms (Wash and rinse arms are different .The receiver arm sockets are molded differently to prevent placing arms in wrong location).Use reverse procedures for placing conveyor wheel and hub back into position.Note: conveyor motor can be pulled to the side as your placing wheel into position. Openfront access door and pull conveyor motor toward you as seat the conveyor wheel intoposition.Place conveyor hub in center of conveyor, align shut-off rod to normal position. Install left and righttrays, making sure shut-off rod is positioned between guide brackets. Install curtains into theirholders.Upper and lower wash tank screens should be removed and cleaned thoroughly.Pull the drain tube from the soap tank and clean the tank.Insert overflow drain tube and wash tank screens back to appropriate placement.Reattach optional GLC waste collection assembly.Check product levels and close front service door.4.3.2. Weekly Cleaning InstructionsRemove upper and lower wash and rinse arms from their spray bases, remove end plugs, and clean spray tubes with Cleaning Drill p/n 00899.01, Cleaning Brush p/n 00899.02 provided.6.1. GLC Initial Parts Kit p/n 1100.47NOTE: Important! CMA recommends that the initial parts kit be purchased immediately and kept on hand as a back up supply of critical parts in the event your machine should requireemergency service.All the parts included in this kit are unique to the GL-C glasswasher (except those with *).Maintenance 6.2. GW-100 Initial Parts Kit p/n 1100.49NOTE: Important! CMA recommends that the initial parts kit be purchased immediately and kept on hand as a back up supply of critical parts in the event your machine should requireemergency service.All the parts included in this kit are unique to the GW-100 glasswasher (except those with *).Parts Manual6.3. Exploded View Drawings6.2.1. Main Assembly6.2.2. Conveyor Wheel / Curtain6.2.3. Conveyor Shut-Off Rod Assembly6.2.4. GLC Control Box Assembly P/N 18612.49Not shown 820.10 Circuit Board Spacer Large, and 821.11 Circuit Board Spacer Small6.2.5. GW-100 Control Box Assembly P/N 18611.47Not shown 820.10Circuit Board Spacer Large, and 821.11 Circuit Board Spacer Small6.2.5. Soap Tank Assembly(normally closed position) in order to function properly6.2.6. Water Inlet Plumbing6.2.7. Sanitizer Plumbing Component Hardware6.2.8. Vacuum Breaker and Hardware6.2.9. Wash Pump Assembly6.2.10. Conveyor Drive Assembly6.2.11. Waste Collector Assy. P/N 16565.00。

一、概述GWD100(A温度传感器（以下简称传感器）是一种带LED 显示的工业用温度测量仪器。

传感器采用半导体温度传感元件，因此具有工作稳定、测量准确、功耗小、使用寿命长的优点。

产品为矿用本质安全型，适用于工矿环境、电机、以及管道内或容器中流体温度的测量。

1、传感器型号含义：2、正常工作环境条件：a 、工作温度：-5℃～40℃b 、相对湿度：≤98%RH（+25℃）c 、大气压力：80kPa ～110kPad 、机械环境：无显著震动和冲击的场合。

e 、在有甲烷、煤尘爆炸性气体环境中使用。

二、主要功能与结构1、功能传感器由配套设备提供电源，传感器实时测量温度值并输出相对应的模拟量信号。

传感器为4位LED 显示，分辨率0.1℃ 2、结构传感器外壳采用不锈钢材料加工而成，外形结构见图1体积：296mm ×142mm ×69mm 测量探头部分：Φ8×60；管道安装探测管：Φ11×146 重量：1.8 kg 3、防护等级：IP54三、主要技术特征1、防爆型式：矿用本质安全型，防爆标志：ExibI2、工作电压：DC 9V～24V ，工作电流≤ 60mA3、本安参数： Ui ：DC 18V，I i ：80mA ； Ci ：0.9nF ；L i ：0mH4、输出信号制式图1：传感器外形图G W D 100 （A ）修改序号测量范围℃数字半导体式温度传感器a 电流型： DC 1mA～5mA ；4mA ～20mAb 频率型： 200Hz～1000Hz （脉冲宽度≥0.3ms ，脉冲幅度），高电平不小于3.0V 、低电平不大于+0.5V5、测量范围： 0～100 ℃6、基本误差a 、显示误差：≤1℃b 、输出误差：≤1℃7、报警功能：传感器具有声光报警功能，在全量程范围内可任意设置上、下限报警点。

8、传输距离：最大传输距离为2000m （单芯截面积为1.5mm 2时）电缆分布电容：≤0.06uF/km；分布电感：≤0.8mH/km；直流电阻12.8Ω/km 9、可以采用遥控调校。

GWL150（A）矿用本安型位移传感器使用说明书警告：严禁井下开盖！维修时不得改变本安电路和与本安电路有关的元、器件的电气参数、规格和型号！严禁使用本说明书规定外的电池！一、概述矿用本安型位移传感器是用于煤矿井下精确检测巷道顶板离层变化的智能化仪表。

它具有操作方便、显示直观等特点，按键启动和自动关机功能大大提高了仪器使用可靠性和电源的使用寿命，可长期在井下使用，无需维护，是传统的机械式离层仪的理想替代产品。

二、主要功能特点主要用于煤矿井下巷道离层量的自动测量、本地显示。

三、结构组成图1 位移传感器主机示意图图2位移传感器实物图图3 机械传动机构示意图四、技术指标a)、电源DC6V 50mAb)、显示LED四位数码管显示c)、量程(0～150) mm，分辨率：0.1 mmd)、测深深基点：8米，浅基点：5米（可定做）e)、误差≤±3.0 mmf)、重量 2.0kgg)、尺寸主机：226×198×73mm五、安装与说明5.1）安装a) 将带有固定器的钢丝拉开，通过专用工具将钢丝固定在预定的位置，然后将离层传感器的锁定端固定到钻孔内，如图3所示。

b) 固定完毕，将钢丝绳拉紧并与齿条固定，将多余的钢丝剪掉，以铭牌为正视图，左边为围岩浅部测量,右边为围岩深部测量。

c) 使用四芯通讯电缆将机械传动机构与主机连接，仪器进入正常工作状态。

5.2）LED显示说明5.2.1）【左通道指示灯】浅基点离层值标志符，表示接下来显示的数据为浅基点离层值：【000.0】表示浅基点离层值为000.0mm5.2.2）【右通道指示灯】深基点离层值标志符，表示接下来显示的数据为深基点离层值：【000.0】表示深基点离层值为000.0mm。

注：安装完成后，记录下装好后的初始读数，并以此为基数观测顶板以后的变化量。

5.2.3）【电池电量指示灯】当电池电量不足时，红色指示灯闪动报警。

六、使用注意事项与维护a)、电池电压不足时，仪器仍能工作一段时间，但应及时更换。