CN100392541C - 显示设备运行状态的方法 - Google Patents
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Abstract
本发明涉及处理和表示多个设备的运行状态的一种方法,包括:在数据处理设备中采集表示每个风力设备的运行状态的预定运行数据;评估采集的运行数据,以确定每个风力设备的运行状态;将每个风力设备的运行状态至少分类为可服务和不可服务;将符号与每个或一组风力设备关联,其中所述符号显示设备的类型和/或各个设备的分类运行状态;将所有符号组合为直观总览;将所述直观总览存储为电子文件;将所述电子文件输出到与给定地址相关联的因特网网络服务器,由此给定地址的所述网络服务器可被访问以便在因特网上调用各文件;以及使用用于直观总览的地理地图,并且在地理地图内在风力设备的位置显示各符号。
Description
技术领域
本发明涉及显示设备的运行状态的一种方法,所述设备如风力设备、水处理设备、分片供热和发电设备(block heating and generatinginstallatiohs)、变电站等等。
背景技术
已经知道,设备的运行状态能够连续检测,而且也能使所检测的数据对设备的操作者是可得的。例如,如果设备的操作者有适合的电信器件(例如一个调制解调器),他就能得到他的设备的所有相关数据的信息,例如,它是否处于运行中,目前正在运行的输出功率或者是否有故障,以及若有故障,故障的原因是什么,等等。可以理解,设备处的环境数据而且设备的其它测量数据也能被调用。
在风力设备情况下的那些环境数据可以是如风向、风速、温度等等,而在水处理设备情况下,这可以是如水位、温度等等。
然而,上述解决方案通常对制造商的客户(就是通常所说的设备的操作者)剪裁制定,且第三方不可以视察上述数据,但这种情况涉及要保密的及不应该或者不可对任何人可得的运行数据。
尽管如此,还是希望让第三方从多个设备,如一个制造商的设备,可得到运行数据的某些项,以致他们能对设备的可靠性有一个总览,但在这方面仍然满足设备的操作者方对于保密性的愿望。
发明内容
本发明的目的是提供在这方面的技术解决方案,该方案尤其有吸引力且提供了用于提供有关各设备的场所和/或运行状态的总览的一个快的可能的方法。
本发明的目的通过一种处理和表示多个风力设备的运行状态的方法来达到。并且在进一步改进的方法中描述了有益的发展。
根据本发明的处理和表示多个风力设备的运行状态的方法包括如下步骤:在数据处理设备中采集表示每个风力设备的运行状态的预定的运行数据;评估所述采集的运行数据,以确定每个风力设备的运行状态;将每个风力设备的运行状态至少分类为可服务和不可服务;将符号与每个风力设备或一组风力设备相关联,其中所述符号显示设备的类型和/或各个设备的分类的运行状态;将所有符号组合为直观总览;将所述直观总览存储为电子文件;将所述电子文件输出到与给定地址相关联的因特网网络服务器,由此给定地址的所述网络服务器可被访问以便在因特网上调用各文件;以及使用用于直观总览的地理地图,并且在地理地图内在风力设备的位置显示各符号。
根据本发明的方法,还对应于所述给定时段内由所述各个风力设备输送的电能的第一和(B)、与运行数据被采集和评估的所有风力设备的可用功率的第二和(A),显示所述合计的功率数据,并且与各直观总览项一起输出第一和(B)与第二和(A)。
根据本发明的方法,还显示第二和(A)与第一和(B)的比(A/B),并且与各直观总览项一起输出所述比(A/B)。
本发明基于如下考虑:
设备(如来自一个给定制造商的设备)的运行数据,是日常记录或采集的。所采集的运行数据被划分为如有关设备全部准备好运行(例如,在风力设备情形中,它是否被连接到网络)或者未准备好运行。如果设备没有准备好运行,这还可以用这样的方法进一步分类,例如,指出不可服务性(non-serviceability)/设备故障的原因也被指出。不可服务性可能如下引起:如由于运行中故障-技术故障(例如,风力设备的发电机起火)-或者还由于普通的维护程序,有时要对设备执行该程序并在执行期间设备常常要关闭。
如果设备是可服务的,可以指定在一些情况下它是否运行在额定运行条件下。
以上述方法分类的数据能被集合起来,然后与各设备的各地理位置可选择地关联。可以理解,或者还可根据如序列号这样的唯一的可区分特征,将所述数据与各设备自身关联。在上述方面,描述设备的地点的地理数据能够同样与设备关联。最后,在一个如对每个设备或一组设备的一个地理地图这样的总览中,一个符号被指定,在此情况下,设备的特性及各设备或一组设备的运行状态能从所述符号得到。在这方面,根据可预定的算法,所述符号从与设备关联的数据自动得到。
因此,例如,诸如绿色圆圈这样的符号能表示设备是运行中(可服务的)的风力设备,而诸如红色圆圈这样的符号显示设备脱离运行。红-绿圆圈(一个红色半圆圈和一个绿色半圆圈放在一起形成一个圆圈)符号能显示设备诚然基本上是可服务的,但由于维护操作而关闭。
用上述方法提供的总览能够识别各种设备,不断被更新,并以电子文件形式存储,且在信息网络(如因特网)中可获得,并且通过因特网域地址(Internet domain address)(如通过设备制造商的地址)可获得以被调用。
现在,访问因特网的任何人能够得到在给定的地理区域内(如在德国境内)由设备制造商生产的设备的整个“舰队”的图像。在上述情况下,他不仅知道这样的设备部署于何处而且知道其各自的运行条件是什么,就是说,设备是否处于运行中,或者是否由于运行干扰而不能满意地运行。
还有利的是,不仅将进一步的数据与设备的运行地点相关联,而且已经在地图上表示它。这样的数据可以是如给定的过去时期(例如,过去的月份、去年等等)的运行时间,以致观察它的人也有关于设备的可靠性的信息丰富的图像。
因此,由于不断更新的运行数据的采集,通过如因特网的网络,任何人都可在线获得持续更新的也向观察者显示给定地理区域中的多个设备的可服务性(serviceability)的地图,并且,这总是在最新的(或者在一天或一周的情况下最新的)基础上。
附图说明
参照附图通过一个实施例对本发明进行更详细的描述,其中:
图1显示了生成地图的原理性结构,
图2显示了一个地图的实施例,以及
图3显示了关于图2的一个替代表示。
具体实施方式
图1用符号显示了N个数量的设备,在随后的示例中考虑风力设备(WEA)。这将包括制造商或者操作者的设备的所有的或至少一个给定部分,设备设立在一个给定地理区域中且由操作者维护。
存在从设备到一个中心数据处理站的直接或间接数据连接,所有在设备处测量的运行数据都被发送到该中心数据处理站并在那里进行处理。所述数据是如功率输出数据、风的数据和给定单元的温度数据等等。
在数据采集后,关于设备的预定功能对数据进行评估和分类。因此,所述步骤首先包括从运行数据确定设备是否处于全部的输送功率或者是否可服务。所述信息在生成或者更新电子总览时作为基础。
如果发现设备不是可服务的,则进行检查以便确定这是否由技术故障所导致。如果情况是这样,所述信息还为生成或更新总览进行处理。不过,如果情况不涉及技术故障(技术故障是由诸如转子、发电机、变换器、变压器等等此类的设备的某个技术元件导致的那些故障),则所述步骤包括检查在可服务性方面的缺陷是否由例行的维护操作所导致。
为了确保设备的可靠运行,这种例行维护操作要在关于设备的某个间歇时间执行。当执行例行维护操作时,所述信息也在生成总览时做进一步的适当处理。不过,如果维护操作也没有实施,设备的故障可由其它原因所致。这种原因也可能是如在风车场中的设备无疑是可服务的,但是与风车场(wind park)整体的连接有故障,因为如整个连接网络出故障,或者连接网络的操作者由于技术原因将风车场从连接网络分开。
各信息项在用于建立电子总览的符号关联的一个块中进行处理。上述块也涉及处理如电子形式的基本地图素材,例如,一个德国地理地图。
因为每个设备和一个确定的地理位置相联系,现在有可能生成在其中符号和每个具体设备相关联的地图,其中,符号的形状和/或颜色和/或表示(例如,闪烁或者不闪烁)指定设备是否可服务及若不可服务,其不可服务性的原因如何分类,因此是所述情形涉及技术故障,还是在实施维护操作,或者存在其它一些原因。
在生成地图并对其更新之后,将其存储、输出(图2)并且到如设备制造商的因特网服务器上可获得,以致相关方能够通过点击在制造商/操作者主页上的预定符号得到关于制造商/操作者的设备的整个“舰队”(fleet)的信息。
可以理解,当混合地图及改变符号时,符号的外部形状还可以同时也象征设备的特性和/或类型。
因此,如矩形符号能表示这涉及约500-600kW的功率级的给定类型的风力设备,而圆圈表示在约1.5-1.8MW的级中的给定类型的设备。
通过用如鼠标指针之类的指针接触设备或者风车场的符号,或通过在符号上单击或者双击,可显示进一步选择的、公开可得的有关设备或者风车场的信息项。
此外,所述符号能涉及与设备或者风车场的制造商和/或操作者的链接。这使得第三方和制造商/操作者可实施通信,并以简单的方式(如通过e-mail)交换信息。
进一步的数据对设备或者风车场的操作者会是可得的,以致操作者能够调用与他有关的关于网络的所有数据。
为了防止保密数据的滥用或不必要的或未授权的查看,某些数据会存储在单独的(逻辑上)区域,该区域通过如验证等访问控制被保护以避免非授权的访问。
作为上述的地图生成步骤的一个替代,也可不生成地理地图-图2-而在总的总览列表中记录所有的设备-图3-以致接下来不参考在总的总览列表或者表格中的地理布局就呈现上述数据,由此观察者能在下一步立即看到有多少制造商/操作者的设备在运行,以及反过来其中有多少也是可服务的(或者也是不可服务的)。
图2通过示例显示了在其上为具体设备记录符号的德国地图(符号形式)。在那里,符号的外形表示设备的给定类型,如方形代表类型E-40(来自Enercon),500-600kW功率范围的设备,圆圈代表如类型E-66(来自Enercon),1.5-1.8MW功率范围的设备,而三角形代表类型E-30(来自Enercon)-200-300kW功率范围的设备。
如果大量的设备在风车场组合在一起,那也能通过适当的独立(风车场)符号识别。
符号的着色或其阴影或表示(例如,快、慢或者不闪烁)象征设备的可服务性或者,如果不是上述情形,则是故障或断电的可能原因。为了用信号通知偏差,也可用上述方式显示预定的关键数据或比较值的偏差。
图3说明了一个替代的总览表示,然而它没有给出设备的地理参考。虽然设备的具体位置也能在图2所示的地图中约略地看到,但在图3的表示中找不到上述参考。不过,要注意,查看图3所示总览的人能够比从图2的地图更快地看到有关组成制造商/操作者的“舰队”的设备的可服务性的情况是什么,该制造商/操作者使信息在网络上可得。
依靠以最新方式(就是说,通过每天直到最近的或者少一些但也每周直到最近的)连续对运行数据进行采集,可生成各地图或总览。查看地图/总览的人能从那里看到给定制造商/操作者的设备一般而言如何可靠(或不可靠),并能从那里形成有关设备品质的判断。
除了设备的功能性或者运行数据外,对于每个设备,也可指定风的数据和/或具体设备的运行数据,或者与由设备输送的总能量有关的数据。特别令人满意的是,不仅命名整个设备和“舰队”的功率可用性(A),而且命名相对一个给定时间段(如一天、一月、一年等等)的各电能产量(B)。
为了在处理大量不同类型的设备时提高总览的清晰度,至少一种设备并且最好每一种希望的设备能从所述总览剪取,以便用上述方法来表示总览中较少种类的设备。
用上述方法,观察情况的人能够将他自己限制在与他相关的那种设备,并且用该方法更快地得到正好是那种类型的设备的情形的印象。用上述方法可获得如风力设备的一个总览或风力设备和水处理设备的一个总览。
此外,还可以实施在表示方面的改变,这样是有利的,例如,从如图2所示的地理导向的总览改变为如图3所示的用表格形式设置的总览,反之亦然,以便获得一个总览,它有关顺序方面的各种标准,如空间安排(图2),或者基于统计评估,例如根据设备的特性和类型(图3)。
此外,可实现多个类似视图的同时表示,就是说如并列比较多个地理区域的视图,在该情形,每个具体表示的规模大小能够适合同样查看的人的需要。
可替换地,如表格总览和地理导向表示的各种视图能用并列关系表示。
Claims (12)
1.一种处理和表示多个风力设备的运行状态的方法,其特征在于包括如下步骤:
在数据处理设备中采集表示每个风力设备的运行状态的预定的运行数据;
评估所述采集的运行数据,以确定每个风力设备的运行状态;
将每个风力设备的运行状态至少分类为可服务和不可服务;
将符号与每个风力设备或一组风力设备相关联,其中所述符号显示设备的类型和/或各个设备的分类的运行状态;
将所有符号组合为直观总览;
将所述直观总览存储为电子文件;
将所述电子文件输出到与给定地址相关联的因特网网络服务器,由此给定地址的所述网络服务器可被访问以便在因特网上调用各文件;以及
使用用于直观总览的地理地图,并且在地理地图内在风力设备的位置显示各符号。
2.如权利要求1所述的方法,其特征还在于:使用用于直观总览的列表或表格,并且显示列表或表格中的所有风力设备的各符号,使得所有数据不参考地理而出现。
3.如权利要求1所述的方法,其特征还在于:将所述地理地图存储在地理地图文件中。
4.如权利要求1所述的方法,其特征还在于:将运行数据被采集的所述各个风力设备的功率数据合计;以及
与给定时段相关,与所述直观总览一起显示所述各个风力设备的合计的功率数据,所述给定时段是每天、每周或每月。
5.如权利要求4所述的方法,其特征还在于:对应于所述给定时段内由所述各个风力设备输送的电能的第一和(B)、与运行数据被采集和评估的所有风力设备的可用功率的第二和(A),显示所述合计的功率数据,并且与各直观总览项一起输出第一和(B)与第二和(A)。
6.如权利要求5所述的方法,其特征在于:还显示第二和(A)与第一和(B)的比(A/B),并且与各直观总览项一起输出所述比(A/B)。
7.如权利要求5或6所述的方法,其特征还在于:至少一个可选类型的设备可从直观总览被剪取。
8.如权利要求1-6之一所述的方法,其特征还在于:提供访问控制,所述访问控制至少调用验证信息,在其正确输入后表示进一步的信息项。
9.如权利要求1-6之一所述的方法,其特征还在于:在所述直观总览中,以不同符号表示来显示运行数据与可预先确定的限定值和/或比较值的偏差。
10.如权利要求1-6之一所述的方法,其特征在于:同时表示多个类似和/或不同类型的直观总览和/或可以在多个直观总览之间改变,其中至少一个直观总览或所有直观总览的表示的大小是可变的。
11.如权利要求1-6之一所述的方法,其中所述各个设备的分类的运行状态还至少包括:作为风力设备不可服务的原因的技术故障或维护操作。
12.如权利要求1-6之一所述的方法,还包括定期更新所述电子文件。
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