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WOODWARD/伍德沃德/调速器

WOODWARD ESDR4T LR20154 控制器

    品牌:WOODWARD
    型号:ESDR4T LR20154
    订货号:ESDR4T LR20154
    上架日期:2024-09-11 14:50
  • 产品详情

WOODWARD调速器

介绍

WOODWARD调速器是伍德沃德控制器公司设计和制造的一系列调速设备,具有130多年发动机控制器的设计和制造经验。这些调速器广泛应用于航空、工业发动机、透平及发电控制等领域,提供完善的控制解决方案。WOODWARD调速器类型多样,包括但不限于TG调速器、PG-PL调速器、TG-13E和TG-17E电液执行器等。

安装

WOODWARD调速器的安装通常需要根据具体型号和应用场景进行,但一般包括以下步骤:

  1. 准备工作:确认调速器型号、规格及安装位置,准备必要的安装工具和材料。
  2. 安装调速器:按照设备说明书和图纸要求,将调速器安装在指定位置,并固定好。
  3. 连接管路:连接调速器与执行机构、传感器等设备的管路,确保连接牢固、无泄漏。
  4. 电气连接:连接调速器的电气线路,包括电源线、信号线等,确保接线正确、可靠。
  5. 调试与测试:在安装完成后,对调速器进行调试和测试,确保其工作正常、性能稳定。

故障维修

WOODWARD调速器的故障维修需要由专业人员进行,一般包括以下步骤:

  1. 故障排查:通过观察、检测等手段,确定调速器故障的具体原因和部位。
  2. 维修或更换:根据故障情况,对损坏的部件进行维修或更换,确保调速器恢复正常工作。
  3. 调试与测试:在维修完成后,对调速器进行调试和测试,验证其性能和功能是否满足要求。

场景应用

WOODWARD调速器广泛应用于各种工业自动化和控制领域,包括但不限于:

  • 发电:在发电厂中,用于控制发电机的转速,确保电力生产的稳定性和频率控制。
  • 航空:在航空领域,用于控制飞机引擎的转速,实现飞行控制。
  • 石油和天然气:在石油和天然气行业中,用于控制涡轮机、压缩机和泵的转速。
  • 制造业:在制造业中,用于控制机械设备的转速,满足生产需求。

数字控制器

介绍

数字控制器是计算机控制系统的核心部分,利用计算机软件编程完成特定的控制算法。它通常具备A/D转换、D/A转换以及输入、输出信号换算等功能。数字控制器广泛应用于工业自动化、机器人、航空航天等领域。

安装

数字控制器的安装通常需要根据具体型号和应用场景进行,但一般包括以下步骤:

  1. 准备工作:确认数字控制器型号、规格及安装位置,准备必要的安装工具和材料。
  2. 安装控制器:将数字控制器安装在指定位置,并固定好。
  3. 电气连接:连接数字控制器的电气线路,包括电源线、信号线等,确保接线正确、可靠。
  4. 软件配置:根据控制需求,配置数字控制器的软件参数和算法。
  5. 调试与测试:在安装和配置完成后,对数字控制器进行调试和测试,确保其工作正常、性能稳定。

故障维修

数字控制器的故障维修需要由专业人员进行,一般包括以下步骤:

  1. 故障排查:通过观察、检测等手段,确定数字控制器故障的具体原因和部位。
  2. 软件修复或升级:如果是软件问题,尝试修复或升级软件。
  3. 硬件更换:如果是硬件问题,对损坏的部件进行维修或更换。
  4. 调试与测试:在维修完成后,对数字控制器进行调试和测试,验证其性能和功能是否满足要求。

场景应用

数字控制器广泛应用于各种工业自动化和控制领域,如:

  • 制造业:用于控制生产线上的机械设备,提高生产效率和产品质量。
  • 机器人:作为机器人的核心控制部件,实现机器人的精确控制和运动规划。
  • 航空航天:在航空航天领域,用于飞行器的姿态控制、导航和制导等。

伺服阀

介绍

伺服阀是一种用于调节液压流量和压力的控制元件,属于比例控制阀的一种。它可以通过电子信号或机械信号来控制液体流量和方向,实现对执行器位置、速度和力的准确控制。伺服阀具有精度高、稳定性好、响应速度快等特点,广泛应用于工业生产过程中的自动化控制、机器人、冶金、采煤、建筑、重型机械等领域。

安装

伺服阀的安装需要遵循以下步骤:

  1. 准备工作:确认伺服阀型号、规格及安装位置,准备必要的安装工具和材料。
  2. 安装伺服阀:将伺服阀安装在指定位置,并固定好。
  3. 连接管路:连接伺服阀与执行机构、液压源等设备的管路,确保连接牢固、无泄漏。
  4. 电气连接:连接伺服阀的电气线路,包括电源线、信号线等,确保接线正确、可靠。
  5. 调试与测试:在安装完成后,对伺服阀进行调试和测试,确保其工作正常、性能稳定。

故障维修

伺服阀的故障维修需要由专业人员进行,一般包括以下步骤:

  1. 故障排查:通过观察、检测等手段,确定伺服阀故障的具体原因和部位。
  2. 清洗或更换:如果是堵塞或污染问题,尝试清洗伺服阀;如果是损坏问题,则更换伺服阀。
  3. 调试与测试:在维修完成后,对伺服阀进行调试和测试,验证其性能和功能是否满足要求。

场景应用

伺服阀广泛应用于各种需要精确控制液压参数的场景,如:

  • 机床数控系统:用于控制机床的进给速度和位置精度。
  • 液压机械手:作为液压机械手的控制元件,实现机械手的精确控制和运动规划。
  • 冶金和采煤:在冶金和采煤行业中,用于控制液压设备的运行状态和性能。

压力转换器

介绍

压力转换器是一种将压力信号转换为电信号或其他形式信号的装置。在工业自动化和控制系统中,压力转换器通常用于监测和控制压力参数,确保系统的稳定运行。空压机压力转换器是其中的一种典型应用,它可以将空压机出口处的压力信号转换为电信号,并通过计算机等设备进行处理和调节。

安装

压力转换器的安装需要根据具体型号和应用场景进行,但一般包括以下步骤:

  1. 准备工作:确认压力转换器型号、规格及安装位置,准备必要的安装工具和材料。
  2. 安装转换器:将压力转换器安装在指定位置,并固定好。
  3. 连接管路:连接压力转换器与待测压力点的管路,确保连接牢固、无泄漏。
  4. 电气连接:连接压力转换器的电气线路,包括电源线、信号线等,确保接线正确、可靠。
  5. 调试与测试:在安装完成后,对压力转换器进行调试和测试,验证其测量精度和稳定性。

故障维修

压力转换器的故障维修需要由专业人员进行,一般包括以下步骤:

  1. 故障排查:通过观察、检测等手段,确定压力转换器故障的具体原因和部位。
  2. 清洗或更换:如果是污染或堵塞问题,尝试清洗压力转换器;如果是损坏问题,则更换压力转换器。
  3. 校准与调整:在维修完成后,对压力转换器进行校准和调整,确保其测量精度和稳定性满足要求。

场景应用

压力转换器广泛应用于各种需要监测和控制压力参数的场景,如:

  • 工业自动化:在工业自动化系统中,用于监测和控制各种压力参数,确保生产过程的稳定性和安全性。
  • 航空航天:在航空航天领域,用于监测飞机、火箭等飞行器的压力参数,确保飞行安全。
  • 石油化工:在石油化工行业中,用于监测管道、储罐等设备的压力参数,防止泄漏和爆炸等事故的发生。

WOODWARD 9907-147.6.jpg

WOODWARD 9907-147.3.jpg

WOODWARD 9907-838.1.jpg


Woodward 8516-038.jpg

WOODWARD speed controller

introduce

WOODWARD speed controllers are a series of speed control devices designed and manufactured by Woodward Controller Company, with over 130 years of experience in designing and manufacturing engine controllers. These speed controllers are widely used in aviation, industrial engines, turbines, and power generation control fields, providing comprehensive control solutions. There are various types of WOODWARD speed controllers, including but not limited to TG speed controllers, PG-PL speed controllers, TG-13E and TG-17E electro-hydraulic actuators, etc.

install

The installation of WOODWARD speed controllers usually needs to be carried out according to specific models and application scenarios, but generally includes the following steps:

Preparation work: Confirm the model, specifications, and installation position of the governor, and prepare necessary installation tools and materials.

Install the speed controller: Install the speed controller in the designated position and secure it according to the equipment manual and drawing requirements.

Connecting pipelines: Connect the pipelines between the governor, actuator, sensor and other equipment to ensure a secure and leak free connection.

Electrical connection: Connect the electrical circuits of the speed controller, including power lines, signal lines, etc., to ensure correct and reliable wiring.

Debugging and testing: After installation, debug and test the governor to ensure its normal operation and stable performance.

Fault repair

The fault repair of WOODWARD speed controller needs to be carried out by professional personnel, generally including the following steps:

Troubleshooting: Determine the specific cause and location of the governor malfunction through observation, detection, and other means.

Repair or replacement: Based on the fault situation, repair or replace the damaged components to ensure that the governor returns to normal operation.

Debugging and testing: After the maintenance is completed, debug and test the governor to verify its performance and functionality meet the requirements.

Scenario application

WOODWARD speed controllers are widely used in various industrial automation and control fields, including but not limited to:

Power generation: In power plants, it is used to control the speed of the generator, ensuring the stability and frequency control of electricity production.

Aviation: In the field of aviation, it is used to control the speed of aircraft engines and achieve flight control.

Oil and gas: In the oil and gas industry, it is used to control the speed of turbines, compressors, and pumps.

Manufacturing: In manufacturing, it is used to control the speed of mechanical equipment to meet production needs.

digital controller 

introduce

The digital controller is the core part of a computer control system, which uses computer software programming to complete specific control algorithms. It usually has functions such as A/D conversion, D/A conversion, and input/output signal conversion. Digital controllers are widely used in industrial automation, robotics, aerospace and other fields.

install

The installation of digital controllers usually needs to be carried out according to specific models and application scenarios, but generally includes the following steps:

Preparation work: Confirm the model, specifications, and installation location of the digital controller, and prepare necessary installation tools and materials.

Install controller: Install the digital controller in the designated location and secure it in place.

Electrical connection: Connect the electrical circuits of the digital controller, including power lines, signal lines, etc., to ensure correct and reliable wiring.

Software configuration: Configure the software parameters and algorithms of the digital controller according to the control requirements.

Debugging and testing: After installation and configuration, debug and test the digital controller to ensure its normal operation and stable performance.

Fault repair

The fault repair of digital controllers needs to be carried out by professionals, generally including the following steps:

Troubleshooting: Determine the specific cause and location of the digital controller malfunction through observation, detection, and other means.

Software repair or upgrade: If it is a software issue, try repairing or upgrading the software.

Hardware replacement: If it is a hardware issue, repair or replace the damaged components.

Debugging and testing: After the maintenance is completed, debug and test the digital controller to verify whether its performance and functionality meet the requirements.

Scenario application

Digital controllers are widely used in various industrial automation and control fields, such as:

Manufacturing industry: used to control mechanical equipment on production lines, improve production efficiency and product quality.

Robot: As the core control component of a robot, it achieves precise control and motion planning of the robot.

Aerospace: In the field of aerospace, it is used for attitude control, navigation, and guidance of aircraft.

Servo valve

introduce

Servo valve is a control component used to regulate hydraulic flow and pressure, and belongs to a type of proportional control valve. It can control liquid flow and direction through electronic or mechanical signals, achieving accurate control of actuator position, speed, and force. Servo valves have the characteristics of high precision, good stability, and fast response speed, and are widely used in automation control, robotics, metallurgy, coal mining, construction, heavy machinery, and other fields in industrial production processes.

install

The installation of servo valves needs to follow the following steps:

Preparation work: Confirm the servo valve model, specifications, and installation position, and prepare necessary installation tools and materials.

Install servo valve: Install the servo valve in the designated position and secure it in place.

Connecting pipelines: Connect the pipelines between servo valves, actuators, hydraulic sources, and other equipment to ensure a secure and leak free connection.

Electrical connection: Connect the electrical circuits of the servo valve, including power lines, signal lines, etc., to ensure correct and reliable wiring.

Debugging and testing: After installation, debug and test the servo valve to ensure its normal operation and stable performance.

Fault repair

The maintenance of servo valve faults needs to be carried out by professionals, generally including the following steps:

Troubleshooting: Determine the specific cause and location of the servo valve malfunction through observation, detection, and other means.

Cleaning or replacement: If it is a blockage or contamination issue, try cleaning the servo valve; If it is a damage issue, replace the servo valve.

Debugging and testing: After the maintenance is completed, debug and test the servo valve to verify its performance and functionality meet the requirements.

Scenario application

Servo valves are widely used in various scenarios that require precise control of hydraulic parameters, such as:

Machine tool numerical control system: used to control the feed rate and position accuracy of the machine tool.

Hydraulic manipulator: As a control component of hydraulic manipulator, it achieves precise control and motion planning of the manipulator.

Metallurgy and coal mining: In the metallurgy and coal mining industry, it is used to control the operating status and performance of hydraulic equipment.

Pressure converter

introduce

A pressure transducer is a device that converts pressure signals into electrical or other forms of signals. In industrial automation and control systems, pressure converters are commonly used to monitor and control pressure parameters to ensure stable operation of the system. The pressure converter of an air compressor is a typical application, which can convert the pressure signal at the outlet of the air compressor into an electrical signal and process and adjust it through devices such as computers.

install

The installation of pressure converters needs to be carried out according to specific models and application scenarios, but generally includes the following steps:

Preparation work: Confirm the model, specifications, and installation position of the pressure converter, and prepare necessary installation tools and materials.

Install converter: Install the pressure converter in the designated position and secure it in place.

Connecting pipeline: Connect the pipeline between the pressure converter and the pressure point to be tested, ensuring a secure and leak free connection.

Electrical connection: Connect the electrical circuits of the pressure converter, including power lines, signal lines, etc., to ensure correct and reliable wiring.

Debugging and testing: After installation, debug and test the pressure converter to verify its measurement accuracy and stability.

Fault repair

The troubleshooting of pressure converters requires professional personnel to carry out the following steps:

Troubleshooting: Determine the specific cause and location of the pressure converter malfunction through observation, testing, and other means.

Cleaning or replacement: If there is contamination or blockage, try cleaning the pressure converter; If it is a damage issue, replace the pressure converter.

Calibration and adjustment: After the maintenance is completed, calibrate and adjust the pressure converter to ensure that its measurement accuracy and stability meet the requirements.

Scenario application

Pressure converters are widely used in various scenarios that require monitoring and controlling pressure parameters, such as:

Industrial automation: In industrial automation systems, it is used to monitor and control various pressure parameters to ensure the stability and safety of the production process.

Aerospace: In the field of aerospace, it is used to monitor the pressure parameters of aircraft, rockets, and other spacecraft to ensure flight safety.

Petrochemical industry: In the petrochemical industry, it is used to monitor the pressure parameters of equipment such as pipelines and storage tanks to prevent accidents such as leaks and explosions.


更多相关型号:

Card PCU-DPIO 1120115024 
9907-1200
8440-2088  
8200-1302   
 PCU-DPIO 1120115024     
UG-10D 8521-0136  
9907-1200   
SPM-D11 8440-2165     
9907-014   
8280-604
  8200-1301     
 8440-2050 
 8200-1300  
8271-320  
EGCP-2 PN 8406-121   
8561-630 / 5484-735        
 PC104-DPIO DRL-DPM-BKF   
EASYGEN-3200X T-P1   
9907-1106    
UG-8L     
WOODWARD 505 8200-1302    
8440-2082   
9907-838    
SPM-D2    
5417-172   
5453-277   
5417-026   
5417-173   
5466-1049  
8440-2085   
9907-1183   
WOODWARD 8577-1362          
WOODWARD 8440-2047   
WOODWARD  TG-13   
Woodward 8237-1604    
Woodward 9908-1501   
9907-023  
8440-2167    
3161 LIO       
8200-1301
Woodward 9907-1200 
Woodward 9907-838   
Woodward 8200-1302     
WOODWARD 8800-1001 
Woodward 8200-1301  
5852-159     
WOODWARD 8525-797    
9905-463   
WOODWAED 9903-543    
5501-502   
WOODHEAD  PCU1500S7        
3522-1005       
woodward easygen 3500XT 8440-2085   
WOODWARD LS5 8440-2178  
WoodWard   9907-018     
Woodward 9907-205    
8237-2597   
WOODWARD 8241-956    
WOODWARD 9907-147  
WOODWARD 8440-2052    
WOODWAED 8273-140    
WOODWAED 8440-1706       
SPM-D2-10   
CSC3ZSF    
WoodWard 9907-018 
WoodWard 9907-014   
EGCP-2 8406-121   
2301A 9907-014   
2301A 9907-018   
WOODWARD 8440-2177    
WOODWARD 9907-1200
WOODWARD 5466-425  
WOODHEAD 5466-425    
WOODWARD 5484-803     
WOODWARD 5466-425   
WOODWARD 5466-315  
EASYGEN-3500-5/P1   
WOODWARD 1680-631   
Woodward   8800-1001  
Woodward  9907-135  
8516-187 
A8516-039   
8516-039  
WOODWARD TM25LP   
WOODWARD 9907-164   
Woodward 9907-1197      
EGCP-3   8406-113      
DPG2201    
8273-126  
SPM-D1010В/X 5448-893   
WOODWARD 9907-175 
9905-864     
Woodward 9907-175
Woodward 9905-864     
WOODWARD 8440-2088   
5430-933  
WOODWARD 5466-409     
8200-226
8440-1706E(SPM-D1115B/LSXR)    
8440-2165E (SPM-D2-1115B/LSXR)   
Woodward   8405-315     
DRL-DPM-BKF        
8406-113      
8404-1001     
9907-164
9907-167
8200-1312
9907-164
9907-167
9907-164
8200-1302
9907-164
8237-1597
8200-1302
9907-1183
8237-1246
9907-1200
8200-1300
9905-864
9907-164
9905-864
5466-409
9907-018   
TG-13   
8440-2082   
MFR300 MFR300-71M/WK0600 CAN   
8405-094   
8440-1855 K    
8516-038     
CAT3512     
SPM-D2-10    
8440-2080   
UG10 8526-653     
9907-164    
8406-121   
WOODWARD 5437-1119   
WOODWARD 5437-1119    
SEG MRR1     
WOODWARD        TG-13 8516-038    
8200-1312   
SMM40 IP44  
ESDR4T 5448-897    
9905-462    
MRN3-11D 80546213-005   
ESDR4T LR20154   
8272-517     
8440-2150A    
8440-2085  
8440-1884M      
9907-023   
300-51020179    
8251-019   
UG-8 8521-349   
8250-502     
8406-120    
WOODWARD 8200-1301   
Woodward  8280-423    
8440-2083      
8440-2028    
LS-511-1-P1(8440-2180)     

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