海洛斯操作手册说明书

海洛斯精密空调调试
1.硬件施工
打好水晶头如图
插入控制面板上如图
再将网线的另一端接入通讯卡上如图
Comm2AC口接法是232交叉连接
将COMM1PC口用232连接方式接入C818上如图
这里说明一下如果空调到这个控制器连接成功了,那么COMM2AC的指示灯要亮绿灯,从空调到这个信号盒子这边过来的信
号是422信号,到盒子这边分别接4根线,485是不行的.请参考附件里关于这种空调的接线方式.
端子上没有明显的标示，做好问厂家端子的接口都代表什么意思！上图是厂家给错误接口，总是调不通，实在没有办法就一个一个接口试正确的如下图
在使用厂家的给软件测试如图
厂家软件只能确定接线联通，但是厂家说版本问题没有数据显示
再用公式的驱动如下图
得出的数据明显不对，到这个时候不要急着去问别人，自己试试其他的驱动脚本如下图
有了正确数据后基本数据就没有什么问题了
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HIROSS（一）恒温恒湿机房精密空调操作手册HIMOD系列北京****科技有限公司技术部01月01日目录第一章 HIMOD系列海洛斯空调概述1.1型号多1.2控制技术先进1.3制冷系统1.4送风系统1.5加湿系统1.6加热系统1.7其它第二章 HIMOD系列海洛斯空调型号含义第三章有关空调的一些资料3.1气流组织方式3.2盖板纽开启方式3.3空调重量3.4机组尺寸及维护空间第四章制冷循环管路示意图4.1风冷却（A型）4.2水冷却（W型）4.3双冷源（D型）4.4单系统（C型）4.5双系统（C型）第五章调速风机调速接线示意图第六章 MICROFACE概述6.1概述6.2Microface面板简介6.3LCD液晶显示屏介绍第七章 MICROFACE面板的操作第八章控制器的使用8.1控制器（HIROMATIC）概述8.2控制器的操作8.3菜单结构第九章日常维护及特殊维护9.1日常维护9.2特殊维护第十章常见及处理10.1低压10.2高压10.3加湿10.4失风10.5电加热过热10.6显示器发黑10.7空调不制冷附录 1：参数列表附录2：内容列表附录3：各菜单项含义第一章 HIMOD系列海洛斯空调概述HIMOD系列海洛斯空调(HIMOD空调)是当今世界上最先进的机房专用恒温恒湿机房专用精密空调。

随着IT业的突飞猛进的发展，各种布局、面积差别很大的机房如雨后春笋般纷纷出现了，使用环境也不一而同。

为适应各种不同要求的机房，新开发的海洛斯HIMOD系列空调应运而生。

她是在保留她的前一代产品HIRANGE系列机房空调的优点,又应用了当今世界上提高了的制冷技术及制冷部件制造工艺，使用当今最先进的模块化设计理念生产出来的高科技机房空调产品。

1.1型号多HIMOD空调有多种不同的型号，采用风冷却的A型，水冷却的W型，双冷源的H型和D型（机组即可以自身制冷又可以采用其他冷源），免制冷C型。

各种型号空调均有多种送风方式。

海洛斯操作维护指南E海洛斯（Helios）是一种用于控制和监测太阳能电池板数组的软件。

它能够设置太阳能电池板的运行模式，跟踪电池的性能，并提供错误报告和警报。

为了确保太阳能电池板组织的可靠运行，海洛斯操作维护指南E提供了以下几点建议。

1.遵守安全操作规程：在进行海洛斯操作之前，确保已经熟悉了所有的安全操作规程。

这包括穿戴适当的个人防护设备，并了解如何正确地使用和操作电力设备。

2.确保良好的清洁环境：海洛斯操作期间，要确保操作环境干净整洁。

避免灰尘、污垢和杂物的堆积，以防止设备的堵塞或损坏。

定期清洗太阳能电池板的表面，以确保最大的太阳能吸收效率。

3.定期检查设备的运行状况：定期检查太阳能电池板的运行状况，以确保其正常工作。

检查电池板的线路连接、绝缘情况和电压输出等，并确保无损害或异常现象。

4.及时处理错误和故障：一旦发现任何错误或故障，应立即采取措施进行修复。

不要忽视或延迟修复，以免造成更严重的问题。

及时修复能够最大程度地减少停机时间和性能损失。

5.定期备份和存储数据：海洛斯系统生成的数据对于太阳能电池板的性能分析至关重要。

为了确保数据的安全性和可用性，定期进行数据备份，并存储在安全可靠的位置。

6.软件更新和升级：随着技术的不断发展，海洛斯操作软件可能会有更新和改进的版本。

定期检查是否有新的软件更新，并在升级前备份数据。

升级软件可以提高系统的性能和功能，并解决可能的漏洞和问题。

7.培训和教育：了解海洛斯操作的基本知识和技能对于维护和操作太阳能电池板非常重要。

进行相关培训和教育，以便能够更好地理解和使用海洛斯系统，并有效地解决可能出现的问题。

8.备件和维修设备：为了应对突发的故障和问题，准备好所需的备件和维修设备非常重要。

这样可以避免因为等待备件或维修设备而导致的生产停顿和性能损失。

Hydronic Unit Heater Steam Rig HeaterThis manual covers installation, maintenance,repair, and replacement parts.Industrial GradeHeat-Exchanger Unit HeatersPart No. SRH2HUH2-NA-OM-APrinted in CanadaWARNING!Please adhere to all instructions published in this manual. Failure to do so may be dangerous and may void your warranty.The heat-exchanger core is not field repairable.Contact factory for a replacement core if fluid leakage occurs.^ NEMA motors are to be operated at ±10% of the nameplate voltage. If the motor is marked 208-230V the tolerance must be calculated from 230V. If the motor is marked 230V it is still suitable for 208V operation but the tolerance must be calculated from 230V. For 3-phase motors the line to line full load voltage must be balanced within 1%. †Thread-on fittings. Shipped loose and must be installed on site. C3 connection also includes C2 connection. ◊ Other voltages / frequencies available upon request. Longer lead times may apply. Contact factory* Standard Marathon NEMA ex-proof motor is suitable for Class I & II, Div. 1 & 2, Groups C, D, F & G; T3B.Heater Model Code & Option CodesModel CodingModel CodeOption CodesPhysical Dimensions (36 inch model)Model12"16"20"24"30"36"Fan Diameter inch (mm) 12 (304.8) 16 (406.4) 20 (508.0) 24 (609.6) 30 (762.0) 36 (914.4) Air Delivery* CFM (m 3/hr) 1090 (1852) 1650 (2803) 3000 (5097) 3800 (6456) 5500 (9344) 8350 (14186)Approx. Air Velocity* FPM (m/s) 1305 (6.6) 1111 (5.6) 1309 (6.6) 1138 (5.8) 1066 (5.4) 928 (4.7) Air Throw* @ 15 psi steam ft (m) 45 (13.7)65 (19.8)70 (21.3)80(24.4)85 (25.9)70 (21.3)Motor Power HP (Watts)1/4 (186) or 1/3 (248) 1/2 (373)1/2 (373) 3/4 (559)1 (746)Rec. Min. Mounting Height ft (m) 7.5 (2.3) 7.5 (2.3) 7.5 (2.3) 7.5 (2.3)7.5 (2.3)7.5 (2.3)Specifications By Model Size - North American Heaters - 60Hz* At 70°F (21°C), 60 Hz and sea level.Pressure Equipment Approvals SRH2: North America - CRN: 0H14931.2C - steam.HUH2: North America - CRN: 0H14933.2C - steam or fluids.Heater Core Maximum Pressure Rating SRH2 = 150 psig (1034 kPa). HUH2 = 400 psig (2758 kPa).Heater Core MaximumDesign Temp.550 °F (288°C).Heater Core Minimum DesignMetal Temp.-20°F (-29°C).Cabinet Material 14-gauge (0.075") (1.9 mm) steel. 36" model is 12-gauge (0.105") (2.7 mm) steel. Epoxy/polyester powder coated.Louver Blades Anodized extruded aluminum.Fan Spark-resistant aluminumFan Guard Split design with close wire spacing. A Ø3/8" (9.5 mm) probe will not enter.Motor Drive Thermally protected permanently lubricated ball bearing type. (36" model comes with maintenance free speed reducer).Mounting Holes 5/8"-11 UNC: 4 holes at top of heater (12" model has only 2 holes).Fluid Connections Standard: 2" NPT female inlet and outlet (configuration of fluid connection locations can be reversed by rotating the core). Other connection types are available (see model code chart).Header Material 12 gauge (0.105")(2.7 mm) and 3/16" (4.8 mm) carbon steel plate conforming to ASME requirements.Finned Tubes 5/8" (15.9 mm) outside diameter [16-gauge, 0.065" (1.6 mm) wall thickness] carbon steel tubes with 1-1/2" (38.1 mm) outside diameter copper-free, L-foot, tension-wound aluminum fins @ 10 fins per inch.General SpecificationsSRH2 Heaters 12" 16" 20" 24" 30" 36" Net Weight (no options) Lbs (kg) 88 (39.9) 106 (48.1) 149 (67.6) 210 (95.3) 257 (116.6) 482 (218.6) Shipping Weight (no options) Lbs (kg) 138 (62.6) 158 (71.7) 207 (93.9) 275 (124.7) 332 (150.6) 594 (269.4) with 2” NPT nipples (add) Lbs (kg) 1 (0.4) 1 (0.4) 1 (0.4) 1 (0.4) 1 (0.4) 1 (0.4) with flanges & nipples (add) Lbs (kg) 14 (6.3) 14 (6.3) 14 (6.3) 14 (6.3) 14 (6.3) 14 (6.3) HUH2 Heaters12" 16" 20" 24" 30" 36" Net Weight (no options) Lbs (kg) 88 (39.9) 106 (48.1) 149 (67.6) 210 (95.3) 264 (119.7) 491 (222.7) Shipping Weight (no options) Lbs (kg) 138 (62.6) 158 (71.7) 207 (93.9) 275 (124.7) 339 (153.7) 603 (273.5) with 2” NPT nipples (add) Lbs (kg) 1 (0.4) 1 (0.4) 1 (0.4) 1 (0.4) 1 (0.4) 1 (0.4) with flanges & nipples (add) Lbs (kg) 14 (6.3) 14 (6.3) 14 (6.3) 14 (6.3) 14 (6.3) 14 (6.3) Weights - North American Heaters12" 16" 20" 24" 30" 36"Front of Heater (dBA)3 feet 78 78 83 82 90 82 10 feet 71 73 76 76 83 76 15 feet 70 70 74 74 81 74Rear of Heater (dBA)3 feet 78 78 83 82 89 80 10 feet 71 72 77 75 83 76 15 feet 70 71 75 74 81 74ModelNoise Data By Model Size - North American Heaters - 60HzConditions For Safe Use1. Remove any dirt / dust from heater cabinet using a damp cloth to mitigate electrostatic charge buildup.2. Do not install the heater in an environment which could potentially cause an electrostatic charge buildup on the cabinet (i.e. exposure to high pressure steam).3. The heater core is NOT field repairable. All defective cores must be replaced with a factory suppliedunit.4. The motor is NOT field repairable. All defective motors must be replaced with a factory supplied orfactory approved unit.5. Flameproof joints are NOT field repairable. Any damaged enclosures/fittings will have to be replacedwith factory approved units.6. For any field repairs use only original factory installed fasteners or factory supplied replacementfasteners.— INSTALLATION —These instructions are to be used as a general guideline only.LocationPlease follow guidelines below for optimum heating results:1. Do not install heaters such that airflow is blocked or impeded by equipment or walls.2. For occupant comfort, position heaters so that air discharge is directed across areas of highest heat loss,such as doors, windows, and outside walls.3. For large areas, arrange heaters such that the air discharge of one heater is directed towards the inlet of thenext heater. This sets up a rotational airflow with air circulation in the central area of the building.4. For equipment freeze protection, direct air discharge at required equipment.5. For large workshops or warehouses it may be acceptable to use fewer, but larger heaters.6. Do not direct air discharge towards a room thermostat.7. Heater inlet and outlet coupling connection locations can be reversed in the field by removing the core,rotating it 180 degrees, and then re-installing it. Cabinet plugs can then be repositioned.Mounting1. A variety of mounting brackets are available from the factory to aid in installation.2. The heater is designed to be installed in an upright and level position. While it may be installed in otherpositions, for steam service, the inlet must be above the outlet and the bottom of the heat exchanger must drain towards the outlet.3. Heaters are designed to be suspended from the top of the cabinet using either two or four 5/8"–11 UNCbolts or threaded rod.4. It is essential that adequate structural support be provided for installation. The mounting structure must bestrong enough to support the heaters weight, provide sufficient stiffness to prevent excessive vibration, and withstand all probable abusive situations such as transportable installations where truck off-loading impacts, etc. may occur.Mounting Heights and Clearances1. To ensure that warm air reaches the floor, heaters are usually mounted 7-1/2 ft. (2.3m) to 12 ft. (3.6 m)above the floor. Heaters may be mounted at higher elevations and still provide warm air at floor level however, the maximum mounting elevation at which this occurs depends on location and operational conditions.2. Louvers may be adjusted to provide greater downward deflection of the discharge air. However, it isrecommended that louvers not be set <15° from the closed position.Fan Clearance1. Verify the minimum required clearance between fan blades / fan shroud and the fan blades / fan guard priorto heater power up.Heater Size 12" 16" 20" 24" 30" 36"Min Clearance 2.0 mm 2.0 mm 2.5 mm 3.0 mm 3.8 mm 4.6 mm— Piping Practices —1. Steam unit heaters condense steam rapidly, especially during warm-up periods. The return piping must beplanned to keep the heat-exchanger’s core free of condensate during periods of maximum heat output, and steam piping must be able to carry a full supply of steam to the unit heater to take the place of condensed steam. Adequate pipe size is especially important when a unit heater fan is operated under on-off control because the condensate rate fluctuates rapidly.2. Heater is to be connected and serviced only by qualified personnel. For additional piping information referto local codes.3. Eliminate pipe stress by adequately supporting all piping. Do not rely on heater to support piping.4. Take off all branch lines from the top of steam mains, preferably at a 45° angle, although vertical 90°connections are acceptable.5. Pipe the branch supply line into the steam unit heater’s inlet at the top and the return branch line from theoutlet at the bottom. The heater’s inlet and outlet coupling connections can be reversed in the field by rotating the heat-exchanger core. Refer to Page 10, Heat-Exchanger Core AssemblyReplacement.6. In steam systems, the branch from the supply main to the heater must pitch down towards the main and beconnected to its top in order to prevent condensate in the main from draining through the heater. In long branch lines, a drip trap may be needed.7. Allow for pipe expansion to prevent excessive strain on the unit heater’s heat-exchanger core.8. The return piping from steam unit heaters should provide a minimum drop of 10" (254 mm) below theheater so that the pressure of water required to overcome resistances of check valves, traps, and strainers will not cause condensate to remain in the heater.9. In steam systems, where horizontal piping must be reduced in size, use eccentric reducers that permit thecontinuance of uniform pitch along the bottom of piping (in downward pitched systems). Avoid using concentric reducers on horizontal piping, because they can cause water hammer.10. Installing dirt pockets at the outlet of unit heaters and strainers with 0.063 in. (2 mm) perforations to preventrapid plugging are essential to trap dirt and scale that might affect the operation of check valves and traps.Strainers should always be installed in the steam supply line if the heater is valve controlled.11. In steam or hot water systems, rapid air removal is required because entrained air is a cause of corrosion.Hot water systems should be equipped with suitable air vent valves for rapid and complete air removal at high points, at the top of each unit heater, and ends of both supply and return mains. Proper air venting for steam systems can be achieved by use of a steam trap with an internal air vent.12. Steam traps must be located below the outlet of the unit heater. Consult the trap manufacturer for specificrecommendations. Each steam unit heater should be provided with a trap of sufficient size and capacity to pass a minimum of twice the normal amount of condensation released by the unit at the minimumdifferential pressure in the system. Trap capacity is based on the pressure differential between supply and return mains. Steam systems should be equipped with a float and thermostatic trap or inverted bucket trap with an air bypass.13. If the condensate return line is above the heater outlet or is pressurized, install a check valve after thesteam trap and a drain valve at the strainer to drain the system during the off season.14. Install pipe unions and shut-off valves at connection points of each unit heater to allow maintenance orreplacement of unit without shutting down and draining the entire system. For hot water systems include a balancing valve in return line for flow regulation. A drain valve should be provided below each unit heater to allow removal of water from the heat-exchanger core if located in an area subject to freezing.15. Adequate air venting is required for low-pressure closed gravity systems. The vertical pipe connection tothe air vent should be at least 3/4" NPT to allow water to separate from the air passing to the vent. If thermostatic instead of float-and-thermostatic traps are used in vacuum systems, a cooling leg must be installed ahead of the trap.16. In high-pressure systems, it is customary to continuously vent the air through a petcock unless the steamtrap has a provision for venting air. Most high-pressure return mains terminate in flash tanks that are vented to the atmosphere. When possible, pressure reducing valves should be installed to permit operation of the heaters at low pressure. Steam traps must be suitable for the operating pressure encountered.17. On steam systems where the steam supply to the unit heater is modulated or controlled by a motorizedvalve, a vacuum breaker should be installed between the unit outlet and a float and thermostatic trap.Heat-Exchanger Core Assembly Replacement1. Heat-exchanger core assemblies are heavy and replacement requires two people for safety reasons.2. It is not necessary to dismount unit heater from its support structures to remove the heat-exchanger core assembly. However, it may be advisable in some instances to allow for core assembly removal at ground or bench level.3. Remove the bottom heater cabinet cover which is attached with 6 screws and 3 bolts.4. Support the heat exchanger core assembly, then remove the 4 core bolts on each side of the cabinet (36" models have 6 core bolts).5. Lower the core assembly from heater.6. Reverse the procedure to install replacement core and tighten 4 core bolts to 90 in-lbs (10 N-m) torque, bottom panel screws to 28 in-lbs (3 N-m) , and fan panel bolts to 100 in-lbs (11 N-m) . (36" models have 6 core bolts)Fan, Fan Guard or Motor Replacement1. For replacement of fan or fan guard remove the 4 bolts holding motor to the motor mount. For 36" modelsalso remove speed reducer bolts. If replacing motor only on 36" models, only remove motor mounting bolts and C-face flange bolts.2. Detach two-piece fan guard assembly by removing top and bottom screws that attach the fan guard to thecabinet.3. Remove fan guard pieces through top or bottom. Due to stiffness of fan guards, you may need to removeouter two top or bottom bolts that attach the fan panel to the top or bottom cabinet panels to provide sufficient clearance.4. Lift the motor, (and speed reducer for the 36" model) and fan assembly off the motor mount.5. Loosen fan hub screw and remove fan blade from motor shaft.6. To reassemble, position fan on motor shaft with end of shaft even with face of hub. Ensure the set screw isfacing towards motor and lined up perpendicular to factory-ground flat on motor shaft. This flat is our “Easy-Off” fan blade replacement feature and only comes on motors purchased from Hazloc Heaters. Tighten set screw to 150 in-lbs (17 N-m) torque.7. Place motor, (and speed reducer for the 36" model) and fan assembly onto motor mount and fasten the two-piece fan guards to the cabinet.8. Center fan in the fan-shroud opening. The gap between the fan blades and fan shroud should be even forall fan blades. Ensure the minimum gap is maintained for all blades. See page 6 for minimum gap values. 9. Bolt motor (and speed reducer for the 36" model) to motor mount, tighten nuts to 250 in-lbs (28 N-m)torque. Manually spin the fan blade to ensure it rotates freely before reconnecting heater to power supply. Fan must rotate counterclockwise when viewed from rear of heater.— Repair and Replacement —Item (in-lbs)Fan blade set screw 1505/16 - 18 UNC motor nuts 250 1/4 - 20 UNC core bolts90 Torque Settings1/4 - 20 UNC fan panel bolts 100 5/16 - 18 UNC motor mount bolts 250 #10 - 24 UNC bottom panel & louver blade screws281/4 - 20 UNC fan guard self tapping screws 100 (N-m) 17 28 28 11 11 10 3Note: Heater inlet and outlet coupling connection locations can be reversed in the field by removing the core, rotating it 180 degrees,and then re-installing it. Cabinet plugs can then be repositioned.Item No.Description12 inch16 inch20 inch24 inch30 inchPart NumberPart NumberPart NumberPart NumberPart Number*** Please have heater model & serial number available before calling ***1 Core Kit Contact factory with heater model, size, number of passes and connection typePart #’s 1119 thru 11392 Louver Blade kit 1145 1146 1147 1148 11493 Motor Mount Kit 1151 1152 1153 1154 1155 4 Fan Guard Kit 1157 1158 1159 1160 1161 5 Fan - 5/8 inch hub 116311651167116911716 Motor Kit - 5/8 inch shaft Specify motor voltage, phase, frequency, horsepower and type of enclosure (general purpose or explosion-proof)7 Thread-on 2 inch NPT Nipple1176 8Thread-on 300# Raised Face Flange1177Note: Inlet and outlet couplingconnection locations can be reversed in the field by rotating the core.*All replacement part kits include fasteners12 inch to 30 inch models12 inch to 30 inch modelsItem No.Description36 inchPart Number*** Please have heater model & serial number available before calling ***1Core Kit Contact factory with heater model, size, number of passes and connection typePart #’s 1141 thru 11442Louver Blade Kit 11503 Motor Mount Kit 11564 Fan Guard Kit 1162 5Fan - 5/8 inch hub 11736 Motor Kit - 5/8 inch shaft Specify motor voltage, phase, frequency, horsepower and type of enclosure (general purpose or explosion-proof)7Thread-on 2 inch NPT Nipple 11768 Thread-on 300# Raised Face Flange1177 9Speed Reducer Kit1178Note: Inlet and outlet couplingconnection locations can be reversed in the field by rotating the core .*All replacement part kits include fasteners36 inch model36 inch modelRegular inspection, based on a schedule determined by the amount of dirt in the atmosphere, assures maximum operating economy and heating capacity.Annual Inspection (before each heating season)1. Check all terminal connections, electrical conductors, glands and cables for damage, looseness, defects,fraying, etc. and replace or tighten where applicable.2. Check for fluid leakage from heat-exchanger core. If fluid leakage occurs, remove heater from service andhave the heat-exchanger core replaced by a factory replacement unit. Refer to “Repair and Replacement” section for complete details. Note: This heat-exchanger core is not field repairable.3. Check electrical junction box. Inside of enclosure must be clean, dry, and free from any foreign materials.The cover must also be completely on and tight.4. Check motor shaft bearing play. Replace motor if play is excessive or if motor does not run quietly andsmoothly. Motor bearings are permanently lubricated.5. On 36" models, speed reducer is maintenance free. Check for excessive noise and vibration.6. Check fan. Replace immediately if cracked or damaged. Check the gap between the fan and fan shroudmeets the minimum spacing requirement.7. Check louvers. Louver screws should be tight. Louvers are not to be set <15° of the closed position.8. Check the tightness of all hardware. All nuts and bolts, including mounting hardware, must be tightened totorque settings on Page 10.9. Turn heater motor on for a minimum of 10 minutes. Check for air exiting heater through louvers and smoothrunning of the motor and fan assembly.Periodic Maintenance (before and as required during heating season) 1. Clean the following (remove dust using compressed air):∙ Finned tubes ∙ Fan∙ Fan Shroud ∙ Fan Guard ∙ Motor ∙ Louvers ∙ Cabinet 2. Check the following:∙ Motor / fan assembly (and speed reducer on 36" models) for smooth and quiet operation. ∙ Louvers for proper angle and tightness. ∙ Electrical junction box covers are secure.∙Gap between the fan blade / fan shroud and the fan blade / fan guard meet the minimum spac-ing requirement (see page 6 for minimum values).— Maintenance Program —Date of Maintenance PerformedByMaintenance PerformedDate of Maintenance PerformedByMaintenance PerformedPRINTED IN CANADA ©Copyright 2018The information contained in this manual has been carefully checked and verified for accuracy. Specifica-tions subject to change withoutnotice.Hazloc Heaters is a trademark ofHazloc Heaters Inc.#1, 666 Goddard Ave. NE Calgary, Alberta T2K 5X3 CanadaTel.: +1-403-730-2488 Fax: +1-403-730-2482Customer Toll Free (U.S. & Canada): +1-866-701-Heat (4328) Limited 18-Month WarrantyHazloc Heaters TM warrants all SRH2 & HUH2 series of heat-exchanger unit heaters against defects in materials and workmanship under normal conditions of use for a period of eighteen (18) months from date of pur-chase based on the following terms:1. The heater must not be modified in any way.2. The heater must be stored, installed and used only in accordance with the owner’s manual and attached data plate information.3. Replacement parts will be provided free of charge as necessary to restore any unit to normal operating condition, provided that the defective parts be returned to us freight prepaid and that the replacement parts be accepted freight collect.4. The complete heater may be returned to our manufacturing plant for repair or replacement (at our discretion), freight charges prepaid.5. Components damaged by contamination from dirt, dust, etc. or corrosion will not be considered as defects.6. This warranty shall be limited to the actual equipment involved and, under no circumstances, shall include or extend to installation or removal costs, or to consequential damages or losses.。

HIROSS恒温恒湿机房精密空调操作手册HIMOD系列北京****科技有限公司技术部2009年01月01日目录第一章HIMOD系列海洛斯空调概述型号多控制技术先进制冷系统送风系统加湿系统加热系统其它第二章HIMOD系列海洛斯空调型号含义第三章有关空调的一些资料气流组织方式盖板纽开启方式空调重量机组尺寸及维护空间第四章制冷循环管路示意图风冷却（A型）水冷却（W型）双冷源（D型）单系统（C型）双系统（C型）第五章调速风机调速接线示意图第六章MICROFACE概述概述面板简介液晶显示屏介绍第七章MICROFACE面板的操作第八章控制器的使用控制器（HIROMATIC）概述控制器的操作菜单结构第九章日常维护及特殊维护日常维护特殊维护第十章常见报警及处理低压报警高压报警加湿报警失风报警电加热过热报警显示器发黑空调不制冷附录1：参数列表附录2：报警内容列表附录3：各菜单项含义第一章HIMOD系列海洛斯空调概述HIMOD系列海洛斯空调(HIMOD空调)是当今世界上最先进的机房专用恒温恒湿机房专用精密空调。

随着IT业的突飞猛进的发展，各种布局、面积差别很大的机房如雨后春笋般纷纷出现了，使用环境也不一而同。

为适应各种不同要求的机房，新开发的海洛斯HIMOD系列空调应运而生。

她是在保留她的前一代产品HIRANGE 系列机房空调的优点,又应用了当今世界上提高了的制冷技术及制冷部件制造工艺，使用当今最先进的模块化设计理念生产出来的高科技机房空调产品。

型号多HIMOD空调有多种不同的型号，采用风冷却的A型，水冷却的W型，双冷源的H型和D型（机组即可以自身制冷又可以采用其他冷源），免制冷C型。

各种型号空调均有多种送风方式。

控制技术先进她仍旧沿用HIRANGE系列空调前台控制的优点,因为采用前台控制用户在使用时不必要直接接触与强电相关的电器设备,因而极为安全。

同时也仍采用HIROMATIC图形控制器,这使得对空调的操作依然简单直观易懂，方便用户的使用与维护。

Waters 600高精度四元梯度泵中文操作说明书 Waters 600E 控制器前面板Waters 600E 泵液晶显示屏方向键亮度调整键电源开关相对屏幕功能键操作功能键数字键确认键梯度控制器画面一. 操作功能画面说明1.Set up --- 设定泵硬件系统配置选择A,B,C,D 溶剂瓶的氦气法脱气装置开关, 0=关,1=开设定色谱柱加热装置温度上限泵硬件系统配置键压力上下限控制键盘锁定键帮助键2. Direct --- 等度(Isocratic)操作设定FLOW RATE ：流动相流速设定( 范围随着硬件规格而定)。

COMPOSITION ：流动相设置比例(A+B+C+D=100%)。

CURRENT ：当前状态流动相比例。

NEW ：改变流动相比例。

SPARGE：氦气脱气装置流量(0~100)。

TEMPERATURE：设定柱温箱温度(室温~9 0℃)。

PRESSURE：显示系统压力值。

SWITCH：外接装置的控制开关。

STOP FLOW：停止泵流速。

3. Operate Method --- 执行梯度功能(GRADIENT)操作设定执行梯度方法代号(#1~15)4. Program Method --- 编辑梯度表（Gradient Table）显示或变更表号清除一行清除表格全部内容存储键5. Program Table --- 编辑事件表（Event Table)显示或变更表号清除一行清除表格全部内容存储键二. 基本操作说明(等度 ISOCRATIC)1. 打开氦气钢瓶，设定输出压力为50~90psi(使用在线脱气机者，请忽略此步骤)。

2. 将溶剂输送塑料管置入储液瓶内流动相中(请注意输送塑料管的代号)，打开电源开关至ON(1)的位置，出现如下的开机画面：3. 按一下“Set Up” 功能键，即进入泵设定（Pump Setup ）画面。

4. 移动光标设定欲使用的溶剂瓶A，B，C 或D 的氦气法脱气装置开关，使其为“ENABLE” (按“1”, Enter ⇒ ENABLE 打开；按“0”，Enter ⇒ DISABLE 关闭)5. 如果使用柱温箱，设定温度数值(温度上限应低于溶剂沸点)。

HIROSS恒温恒湿机房精密空调操作手册北京海洛斯机房设备工程有限责任公司技术部目录第一章概述----------------------------------------------------------------11.1空调型号---------------------------------------------------------11.2空调重量---------------------------------------------------------21.3机组尺寸及维护空间------------------------------------------31.4电气数据---------------------------------------------------------3 第二章MICROFACE操作-----------------------------------------------52.1概述----------------------------------------------------------------52.2 Microface接口面板简介--------------------------------------72.3 LCD液晶显示屏介绍-----------------------------------------72.4 MICROFACE面板的操作---------------------------------8 第三章控制器的使用----------------------------------------------------103.1控制器（HIROMATIC）概述-----------------------------103.2控制器（HIROMATIC）操作------------------------------------11 第四章日常维护及特殊维护-------------------------------------------294.1日常维护--------------------------------------------------------294.2特殊维护--------------------------------------------------------31 第五章常见报警及处理-------------------------------------------------325.1报警/故障检查流程-------------------------------------------325.2常见报警故障处理方法--------------------------------------36HIMOD空调操作手册附表1：报警内容列表------------------------------------------------------40 附表2：参数列表（旧版本）---------------------------------------------43附表3：参数列表（新版本）---------------------------------------------49第３页共60页第一章概述HIMOD系列海洛斯空调(HIMOD空调)是当今世界上最先进的恒温恒湿机房专用精密空调。

waters操作手册英文版Waters Operation ManualIntroductionThis manual is designed to provide detailed instructions and guidance for operating Waters equipment It is important to follow these instructions carefully to ensure accurate and efficient operationSafety PrecautionsBefore starting any operation, it is crucial to be aware of the safety precautions:1、 Always wear appropriate personal protective equipment （PPE)，such as safety glasses and gloves2、 Ensure the working environment is wellventilated3、 Do not operate the equipment if you are not familiar with its functions or if it shows any signs of damageEquipment OverviewThe Waters system typically consists of several components, including the chromatographic column, detector, pump, and control unit Each component has its specific role and functionsThe chromatographic column is responsible for separating the components of the sample The detector measures the signal generated by theseparated components The pump controls the flow rate of the mobile phase, and the control unit allows for programming and monitoring of the entire processStartup Procedure1、 Power on the Waters equipment and allow it to initialize2、 Check the connections of all components to ensure they are secure3、 Set the appropriate parameters in the control unit, such as flow rate, wavelength for the detector, and run timeSample Preparation1、 Prepare the sample according to the specific requirements of the analysis2、 Filter the sample to remove any particulate matter that could clog the systemInjection of Sample1、 Use a precise syringe to inject the sample into the injection port2、 Ensure the injection volume is within the specified rangeMonitoring the RunDuring the chromatographic run, monitor the signals from the detector on the display of the control unit Keep an eye on any abnormal peaks or fluctuations that could indicate a problemData AnalysisAfter the run is completed, the collected data can be analyzed using the software provided with the Waters system This may include peak identification, integration, and calculation of concentrationsMaintenance and TroubleshootingRegular maintenance is essential to keep the Waters equipment in optimal condition This includes cleaning the chromatographic column, checking the pump seals, and calibrating the detectorIf you encounter any problems during operation, refer to the troubleshooting section of this manual Common issues such as pressure fluctuations, baseline noise, or no signal may have specific solutions listedShutdown Procedure1、 At the end of the operation, stop the pump first2、 Turn off the detector and the control unit3、 Disconnect the power supplyIt is important to note that the specific procedures and parameters may vary depending on the model and configuration of your Waters equipment Always refer to the manufacturer's documentation for detailed and accurate informationWe hope this manual provides you with a clear understanding of operating the Waters equipment If you have any further questions or need additional support, please contact the manufacturer's customer serviceRemember, proper operation and maintenance will ensure the longevity and accuracy of your Waters system for reliable analytical results。