8738-CA-PL继电器输出为有触点输出型电路，用于低频负载。罗克韦尔自动化近日推出Allen-Bradley® HiLINE 800TM 智能低压动力中心，可为客户提供出厂即用、节能高效和高性价比的电机控制及低压配电解决方案，满足企业各类应用需求。作为智能制造的引领者，罗克韦尔自动化将SEEE（安全、节能、环保、高效）可持续发展观全面贯彻于智能制造，聚焦企业管理、服务、设备和底层硬件及基础数据，以IT/OT融合创新的数字化解决方案为各行业深度赋能                                 

推动中国制造业高质量发展。针对中国市场需求创新推出的智能运维Rockii解决方案以工业物联网、人工智能、AR/VR等创新技术为支撑，面向未来的数字化转型平台全面覆盖云服务的SaaS、PaaS、IaaS三层架构，具备开放兼容、可持续拓展的特性，支持企业自主控制和开发，实现持续改善。全新智能低压动力中心HiLINE 800TM作为IaaS层重要组成部分全面支持动力系统操控、数据采集及监视、能效管理及高效运维。
科技的发展与生产力的变革在过去一个世纪以来以极为迅猛的速度发生着，机器人也从幻想变为现实，走进生活各个角落，成为人类可靠的伙伴，为人类带来光明与希望。

当时间进入21世纪，人机协作技术的诞生令人与机器人之间的间隙日渐消弭，二者得以在更为亲近的距离开展互动与作业。

大族机器人以“用机器人技术为人民服务”为企业使命，与合作伙伴携手，通过协作机器人开发运用于医疗领域穿刺手术，有效辅助医生操作，显著提高手术效果。

穿刺手术是将穿刺针插入人体组织内提取病灶样本、注入药物及消融病灶的医学诊疗技术。穿刺手术在临床上有广泛需求，对人体各个部位的穿刺活检需要穿刺针精准到达靶点位置提取活检组织。从技术流程上，手术机器人的控制需要通过手术导航系统、光学定位仪与安装有标记点的光学识别工具来确定机械臂所持穿刺针位姿与 CT 扫描图像的相对位置关系，进而控制机械臂使穿刺针抵达靶点。因此，从目0医疗领域应用来看，轻量安全型的协作机器人在实际应用中存在着较大优势。

01 、更高的安全性

重大手术事关患者生命安全，对机器人的安全提出了更高的要求：发生碰撞时必须立即停止；碰触接触时也需降低运行速度。

大族协作机器人创新性的抱闸设计在有人、物靠近时，自动进行保护性回弹再停止；另外，机器人在运行时遇到突发断电或急停时也会立刻锁死，不会有滑动、下降趋势， 且无法移动分毫，这些技术上的保障在根本上保证了手术的安全进行。

02 、更高效的操作

在智能化控制算法的辅助下，大族机器人可严格按照手术规范流程开展作业；光学定位则可在更大程度上避免医者的失误，提高穿刺精度，实现对术者的精准穿刺。精准的同时也意味着高效，人机协作可使更多医生高效完成穿刺手术，减少穿刺时间，减轻病人痛苦，同时减少医患接触时长从而降低交叉感染风险。
英维思(3008, 3625, 3508E.3721, 3700A 4351B)
本特利(3500/42M， 3500/ 22M, 3500/ 95.3500/05)
黑马(F3330, F3236， F6217, F7126, F8621A)
福克斯波罗(FBM203, FBM204, FBM217, FMB231)
AB: (1746 1747 1756 1770 1771 1785触摸屏2711系列CPU PLC)
普罗索芙特PROSOFT MVI46/56/69, AB旗下，跟AB模块
瑞恩RELIANCE模块,卡件
飞利浦EPRO MMS6210/ 621…. PR6423/003-031
美尔托Meltal MT1102-02-00, MS3101-00-00, MS3102-01-00
横河YOKOGAWA AAI, ADV, ADI, ANB, AMM, SB, PW(型号开头),卡件模块(CPU,电源,输出，PLC)
摩尔MOORE Q开头, 3开头模块,像电视显示器
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你的口碑相传是对我们好的回报;
我们赚合理利润，做长久生意，交真心朋友;
现货+优势+正 品，价道，保证。
1、仪器设备自身及运转中存在安全隐患
　　大型仪器设备一般指体积较大、价格昂贵、DO802精密度高等仪器设备，有些仪器在使用过程中需要一些高危的附加条件，例如透射电子显微镜和扫描电子显微镜需要高电压、高电流；核磁共振波谱仪会产生强磁场；X射线衍射仪会造成电离辐射等，所以说大型仪器设备常规使用时本身即存在安全隐患。除此以外这些电场、磁场、电离辐射也可能对操作者造成伤害。

　　2、仪器设备使用不当

　　由于其先进与精密性质，对测试样品要求都比较高。如扫描电镜和透射电镜，DO802整个系统必须是高真空度的工作条件，这就要求样品必须充分干燥并且能牢固的负载于样品台上。否则就会破坏系统的真空度，DO802影响灯丝寿命；如果样品在抽真空时脱离样品台，就会污染镜筒、损坏灯丝等。不仅测试的样品可能影响仪器正常运行，测试人员的不规范操作也可能导致仪器的损坏。

　　3、仪器档案管理不规范

　　大型仪器设备（涡街流量计）健全的档案材料，可以为设备的运行、DO802维护、大修等提供有利的技术支持。企业中很多大型仪器设备的档案资料可能只有到货、验收，之后就是一片空白了。DO802如果对大型仪器的使用、维护等原始资料保管缺乏重视，没有制定相应的档案管理制度，即给仪器设备的后续使用、维护、维修等埋下隐患。

　　该系统具有很高的控制水平，控制功能丰富、完善，实用性强；自投运以来，运行十分稳定可靠，故障率极低，所有信号处理及联锁控制均在PLC内自动完成，并可通过MMI进行在线监控及历史记录分析，使得电气线路变得十分简捷、可靠，减少了故障处理时间，减少了不安全因素，有效地提高了劳动生产率，改善了工作人员的工作环境，减轻了工作人员的劳动强度，取得了十分显著的经济效益。由于该控制系统取得了非常好的经济效益，具有很强的实用性、可移植性，在本行业及其它相关行业具有很高的推广价值。
1、机械方面的故障
　　使用不当的情况主要有两点，一是在起吊回转作业时起重机底盘的水平度找得不好，或在较软的地面作业时4个支腿垫得不一样结实，都将导致在整个回转行程中有上、下坡的情况，致使回转速度和所需的系统压力都不一样，这样容易造成滚道不均匀磨损，同时也容易使滚动体表皮掉渣或产生裂纹，加速磨损。二是斜拉重物，当用起重机的基本臂斜拉、斜吊远处的重物而达不到目的时，往往会错误地用回转机构去斜拉，这样做是违反安全操作规程的，同时也会使回转机构、基本臂都受到损害。在全球“碳中和”目标与人类可持续发展战略下，绿色住宅的概念频频出现。与此同时，人们也逐渐意识到，“绿色”之于住宅并不是一个简单的词汇，把森林搬进建筑仅仅是拥抱自然的0一步，节能环保的新技术、新产品、新工艺在建造过程中同样缺一不可。

从“越南文化古都的环保大楼”，到“南澳大利亚州首府的10星级节能住宅”，ABB从未停下网罗天下知名建筑的步伐。今天，ABB《建筑是凝固的音乐》系列视频再度启程，以德国·波茨坦的湖滨别墅开启0二季的全新旅程，完美演绎建筑内的自然意境。除了大量利用景观绿植来增强建筑的观赏性与可持续性，低碳科技的合理化使用也成为了卡洛斯关注的焦点。环保的保温材料和太阳能供热系统让这栋别墅减少了对电能的需求。在这里，你能看到ABB i-bus® KNX楼宇控制产品，较复杂的功能由ABB priOn®控制器、智能手机和平板电脑控制，简单的功能则由安装在墙上的Future Linear®开关面板来实现，在保障湖滨别墅能源利用率的同时，也为居住家庭提供了卓越的生活品质。建筑是凝固的音乐”，这个提法好，精炼，形象，把建筑拔到了艺术的高度。建筑本身就是艺术，是设计者与建造者的心血凝聚。梁思成说，“建筑师比一般人更幸福，因为他能看到许多美的建筑。建筑师比一般人更痛苦，因为他总看到许多美的建筑被毁去！”这是多么让人惊省的话语！其实，建筑还是历史。雨果(法国)与果戈里(俄国)说过相同的一句话，“建筑是用石头写成的历史。”人类从有巢氏筑室以居到今天的高楼大厦，走过了一条多么艰辛漫长的路啊
以下是我司【主营产品】，有需要可以发来帮您对比下价格哦!

　　主营：世界品牌的PLC 、DCS 系统备件 模块

　　①Allen-Bradley(美国AB)系列产品》

　　②Schneider(施耐德电气)系列产品》

　　③General electric(通用电气)系列产品》

　　④Westinghouse(美国西屋)系列产品》
⑥销售ABB Robots. FANUC Robots、YASKAWA Robots、KUKA Robots、Mitsubishi Robots、OTC Robots、Panasonic Robots、MOTOMAN Robots。

　　⑦estinghouse(西屋)： OVATION系统、WDPF系统、MAX1000系统备件。

　　⑧Invensys Foxboro(福克斯波罗)：I/A Series系统，FBM(现场输入/输出模块)顺序控制、梯形逻辑控制、事故追忆处理、数模转换、输入/输出信号处理、数据通信及处理等。Invensys Triconex: 冗余容错控制系统、基于三重模件冗余(TMR)结构的现代化的容错控制器。
　　⑩Bosch Rexroth(博世力士乐)：Indramat，I/O模块,PLC控制器,驱动模块等。

　　◆Motorola(摩托罗拉)：MVME 162、MVME 167、MVME1772、MVME177等系列。

　　PLC模块，可编程控制器，CPU模块，IO模块，DO模块，AI模块，DI模块，网通信模块，

　　以太网模块，运动控制模块，模拟量输入模块，模拟量输出模块，数字输入模块，数字输出

　　模块，冗余模块，电源模块，继电器输出模块，继电器输入模块，处理器模块。

　　我们的优势是：全新原装，，供给一年质保!本公司所有产品都经过严格检测，欢迎询价，收购。只需您有诚心，本公司将会给你供给一个比同行优势的价格，共同拿下单子。

施耐德电气尹正：中国工业正推进数字化转型
中国工业推动数字化转型 中小企业大有可为，网络化、协同制造、服务型制造等新模式、新业态不断涌现。这次疫情带来了0所未有挑战的同时，也让社会各界更清楚意识到数字化转型的价值。 尤其0近，中国提出加快5G网络、数据中心等“新基建”推进进度，毋庸置疑将加速数字化发展。而数字化转型涉及到软件开发、软硬件融合、系统集成以及数据分析、智能化控制等多个环节，并且还要落地到具体应用场景，这需要产业链上下游企业共同努力，非一家之力可以完成。 在此过程中，不仅仅是大企业，中小企业也是至关重要的推动力量。但中小企业面临技术和市场局限、资金不足、人才紧缺等瓶颈，如何将其纳入数字化浪潮是无法规避的一大挑战。

施耐德电气全球执行副总裁、中国区总裁尹正 中小企业大有可为 对所有企业而言，在数字转型过程中，无论是5G、云计算、AI，还是IT技术，要与具体的应用场景相结合。但一些通用技术很难被拿过来直接使用，也就是存在IT如何融合OT的问题，这实际上是数字化转型的0大挑战之一。同时，数字化急需解决的一个问题，是如何利用已积累的数据提升产品质量、生产的灵活性和生产运营效率。 此外，尽管大企业对某些领域所需的工艺及应用场景有深刻理解，但很难覆盖所有需求，有着更高灵活性的中小企业则能够发挥更大优势。很多中小企业通常深耕于某些特定领域，不断提供纵深的服务，从而获得了挖掘更深层次技术运用和开发的机会，这也是推动数字化0重要的驱动力之一。 例如，拉链生产企业属于传统劳动密集型行业，由于自动化水平较低，不少染色生产线上还依靠人工来进行上下料等操作。成都瑞克西自动化技术有限公司为了帮助客户在染色加工环节提升产品质量和生产效率，希望借助数字化手段实现订单管理、排产、立库管理、质量检验、远程运维等多种定制化功能。 而这种小而专的需求，对于一直从事拉链染色生产线研发和生产的瑞克西来说，更容易实现。瑞克西基于施耐德电气EcoStruxure 机器解决方案开发出“拉链染色调度系统”，使得整体生产增效10%以上、节能20%。
If you want to achieve better results, you still need to use the tension sensor, or use the air cylinder swing rod to track the midpoint of the position loop, so as to make integrated adjustment by synchronizing with the host. When you need to speed up, directly adjust the given speed of the host, so that the winding speed can be synchronized automatically.



Now the technology of frequency converter is relatively mature. Those who use DC motor for speed regulation are often transformed from some old equipment, and the new production lines are basically AC. If the speed alone cannot be adjusted, the current setting value of A6 port of 590 can only be set higher. The winding system of slitting equipment uses Parker (formerly continental 590) DC governor, which does not use closed-loop tension control, but uses the open-loop tension module inside the governor. The essential control is to control the current. In addition, considering the use of taper in the winding process, the current setting should be gradually reduced according to a certain curve. Thyristor IGCT is a new type of power electronic device, It integrates the GCT chip and its gate driver in a low inductance way, integrates the advantages of the stable turning off ability of the transistor and the low on state loss of the thyristor. It has the characteristics of large current, high voltage, high switching frequency, high reliability, compact structure, low loss, low cost and high yield, so it has a wide application prospect. Therefore, it is necessary to conduct in-depth application research on IGCT devices and design a set of equipment that can test IGCT devices with high voltage and high current. Starting from IGCT devices, this paper introduces the structure, working principle, key technology of IGCT devices, and the ratio of IGCT to GTO and IGBT



The characteristic parameters of IGCT and the principle of gate drive circuit are compared. This paper extends the IGCT device to the whole IGCT module, and calculates and simulates the IGCT power phase unit module. The circuit principle of IGCT phase unit module is described as a whole. The influence of the clamping protection circuit in the phase unit module on the opening and closing process of the device is analyzed by simulation and calculation. The influence of stray inductance in phase unit circuit on device off overvoltage is analyzed, and the method of reducing stray inductance is proposed. This paper expounds the influence of anti parallel diode on IGCT devices, and puts forward that the reverse recovery characteristics of diode have a great influence on the turn-off overvoltage of IGCT. Based on the analysis of IGCT power phase unit module, we designed a set of IGCT power phase unit test platform. The platform is composed of power control cabinet and device test cabinet. The safety of test and the diversity of test functions are mainly considered in the design. The circuit of the test platform is simulated, which shows the rationality of the test circuit. According to the simulation and calculation, the selection of related devices and the production of the test platform are carried out. Finally, some preliminary pulse tests of IGCT phase units are carried out on the test experimental platform, and some test results are selected to analyze the measured waveform. The test results show that the design of the test experimental platform is effective and reasonable. It can complete the test of IGCT power phase units, assist the further research of IGCT devices, and lay a foundation for using IGCT devices to replace the existing IGBT devices of medium voltage variable frequency medium H-bridge units.



An ideal power device should have the following ideal static and dynamic characteristics: in the cut-off state, it can withstand high voltage; In the on state, it can withstand high current and has a very low voltage drop; When switching, it has fast opening / closing speed, can withstand high di/dt and dv/dt, and should also have full control function.



Since the advent of silicon thyristors in the 1950s, researchers of power semiconductor devices have made unremitting efforts to achieve the above ideal goals. In the late 1960s, the turnoff thyristor GTO realized the turnoff function of the gate and expanded the chopper working frequency to more than 1kHz. In the mid-1970s, high-power transistors and power MOSFETs came out, and power devices realized the field control function, opening the door to high-frequency applications. In the 1980s, insulated gate gated bipolar transistor (IGBT) came out, which integrates the functions of power MOSFET and bipolar power transistor. Its rapid development has also inspired people to pay attention to the new power generator Honggou track, which integrates the functions of power MOSFET and thyristor. With the iconic Manhattan skyline as the background, it surrounds the Brooklyn cruise terminal under the gaze of the goddess of liberty, and has become an excellent place to show the charm of land and sea electric communication. With a total length of 2.32 kilometers and 14 corners, the track has many challenges, such as high-speed curves, straights and hairpin curves. 22 drivers competed in this race to compete. Following the New York race, the 13th and 14th rounds of the eighth season of ABB electric formula Championship will be transferred to the London track on July 30 and 31. ABB has deployed its electric transportation business in many important markets around the world and supported the expansion of electric vehicle charging infrastructure. At present, more than 680000 DC and AC charging piles have been installed in more than 85 countries and regions around the world to support green transportation with innovative solutions. ABB's decarbonization road also extends from land to sea, accelerating the electrification, automation and shore power connection of ships, and supporting the efficient and zero emission operation of the shipping industry.



As the naming partner of ABB FIA electric formula world championship, abb not only supports its global events, but also works together to break gender barriers and support women's development. Before the race, abb released the latest video of the "driving force" series - "girls on track". Daniela Lu, head of ABB electric equation cooperation project ž Anin and Hannah brown, the director of electric equation, discussed the impact and significance of the project in the video, and shared the original intention and vision of ABB's cooperation with electric equation to support the project. Motorsport combines the dual elements of sports and technology. Only by combining superb driving skills with rich engineering and technical experience can drivers gallop on the track. With the help of the highlight platform of racing cars, the "girls on the track" project encourages more young women to approach exciting racing sports, understand the complete ecosystem inside and outside the track, and then join the stem (Science, technology, engineering, Mathematics) field to explore a broader development space in the future. ABB opened a new global innovation and training park for mechanical automation in bekale, Austria, which is one of the largest integrated production, R & D and training bases in Central Europe.



The new park is ABB's global R & D Center for machinery and factory automation, artificial intelligence and software solutions. The global innovation center has significantly expanded its links with machinery manufacturers, manufacturers, start-ups, research and education institutions.





ABB has opened a new global innovation and training park at its headquarters in bekale (its global machinery and factory automation center) in eggelsberg, Austria. The new park will create up to 1000 additional high-tech jobs, including world-class R & D laboratories and global training facilities that can provide training for up to 4000 people per year in cooperation with universities. ABB invested 100million euros to expand its headquarters in bekale. The innovation of the Park focuses on artificial intelligence, machinery and factory automation, and will play an important role in releasing the potential of future industrial production - in the fields of electronics, electric transportation, food and beverage, environmental protection, logistics, agriculture and so on. They will improve productivity and flexibility, help customers become more sustainable, and bring production closer to their end markets. The new park expands the total area of its headquarters to more than 100000 square meters, making it one of the largest integrated production, R & D and training bases in Central Europe, with about 2400 employees at present. The expansion will also make room for additional capacity expansion to meet the growing demand for baccalais products. This is a decade of transformation to robotics and automation, because our customers need to cope with global labor and supply shortages, consumers have accelerated their demand for personalized products, and enterprises need more sustainable operations. ABB's new park will serve as a customer collaboration center, where we work with customers around the world to help them cope with these trends and support baccalais to become the preferred partner for the world's most ambitious industrial automation projects.



ABB research shows that in Europe and the United States, 8 out of 10 companies plan to further automate, and 7 out of 10 companies plan to reshape their production. The global potential market size of machinery and factory automation is currently estimated to increase from $20billion per year to $31billion per year by 2030.



ABB acquired baccalais in 2017, becoming the only company that can provide industrial automation customers with complete integrated hardware and software solutions around control, drive, robotics, sensor analysis and electrification. ABB innovation and training park will be an open innovation center. Here, baccalais will work closely with international customers, companies, start-ups and research and education institutions from the region to jointly develop automation solutions and cultivate talents needed by future factories.



With the construction of the new park, baccalais also launched a new brand logo, establishing a visual connection between baccalais and abb. "Our new visual design emphasizes ABB's firm commitment to the sub brand of baccalais, and demonstrates the strength of baccalais and ABB in the process of our joint development and cooperation. We become a member of this larger family, creating many new possibilities for each employee to actively shape their career," theis said.

As part of its 2030 sustainability strategy, abb expects to be carbon neutral in its own operations over the next decade. In bekale, abb installed one of Austria's largest self generating photovoltaic power systems. The additional photovoltaic modules in the park now increase the total power generation to 1.8 MW. The self use rate is about 98%. Begalay was founded by Erwin bernecker and Josef Rainer in 1979 and is headquartered in eggelsberg, Upper Austria. Today, baccalais is the world's leading solution provider in the field of machinery and factory automation. It is also the global ABB mechanical automation department in ABB's robotics and discrete automation business. Overall, ABB's robotics and discrete automation business has more than 11000 employees in more than 100 locations in more than 53 countries.



ABB has been operating in Austria for more than 110 years and has a proud history in Austrian industry - from electrification to railways, from supplying power to ski lifts to robots and process automation. In 2017, abb acquired bekale, making it the largest industrial automation supplier in Austria. Pm511v16 3bse01181r1 is a high-performance programmable controller, whose speed, capacity, performance and function have reached a new level. ● CPU, power supply, input and output integration, built-in high-speed processing and positioning functions. Pm511v16 3bse01181r1 input and output can be expanded to 384 points at most. Powerful expansion functions can be realized through function expansion board and special adapter. I/o acquisition module is adopted. The module can be installed near the sensor end and connected with PLC through a group of communication lines, which not only saves the cost of wiring, but also saves the i/o points of PLC itself. If the field budget of pm511v16 3bse01181r1 is limited, it is obviously more economical to use i/o acquisition module. Modular structure, providing 14 to 128 point input / output range, and can also add extended special function modules (such as analog input / output). The pm511v16 3bse01181r1 transistor output type has two 100kHz pulse sequences for servo positioning applications.



IRB 260 robot is mainly designed and optimized for packaging applications. Although it is small and can be integrated into compact packaging machinery, it can meet all your requirements in terms of reach distance and payload. With abb motion control and tracking performance, the robot is very suitable for flexible packaging systems.



Strong reliability &mdash& mdash; IRB 260 robot with long normal operation time is designed based on IRB 2400 (with more than 14000 installed) which is the most widely used industrial robot in the world.



Fast &mdash& mdash; Short operation cycle time the robot is optimized for packaging applications and equipped with ABB's unique motion control function, which greatly shortens the packaging cycle time.



High accuracy &mdash& mdash; The production quality of parts is stable. The robot has extremely high accuracy. Coupled with ABB's excellent conveyor belt tracking performance, its picking and placing accuracy is first-class whether it is in fixed position operation or in motion operation.



Powerful &mdash& mdash; Wide range of application the robot is optimized for packaging applications, with small size, fast speed and a payload of up to 30kg.



Rugged &mdash& mdash; Suitable for harsh production environment, suitable for harsh environment applications, and the protection grade reaches IP 67.



Good versatility &mdash& mdash; Flexible integration and production the robot is light in weight and low in height, which is easy to be integrated into compact packaging machinery. It has been optimized according to the packaging application, which is the inevitable choice of robot automation. Equipped with a full set of auxiliary equipment (from integrated air and signal system to gripper), abb packaging software pickmastertm can be used together. The mechanical integration is simple, and the programming is very convenient.



In 1974, ABB (then known as Asea) introduced the IRB 6, the first fully electric robot. Today, ABB has nearly 30 models of robots that meet the production needs of a wide range of industries, supported by powerful system integration capabilities and a global sales and service network in 53 countries. Recently, abb signed a supply agreement with Aker solutions, the leader of sustainable energy solutions, to provide major electrical, automation and safety systems for the northern lights project in Norway. Aker solutions is the EPC contractor of the project. The project is the first industrial carbon capture and storage project jointly constructed by Norwegian national oil company equinor, shell and total energy. It aims to develop an open and flexible infrastructure to safely store carbon dioxide emitted by European industry. The first phase of the project is planned to be completed in the middle of 2024, when 1.5 million tons of carbon dioxide will be permanently stored every year, and the storage capacity of the second phase of the project will be expanded to more than 5 million tons per year. ABB automation, electrical and digital solutions will become an important part of the aurora borealis project,