摘要：【中文】一种馈线电流保护功能配置方法，属于配电网技术领域。通过本配置方案，与配网馈线中具备合闸速断功能的分段开关配合，可实现配网保护的选择性。新型配置开关具有“快‑快‑慢”的动作特点，既保证了故障时保护切除故障的快速性，又可以与分段开关速动保护配合，准确隔离故障，实现配网保护的选择性。既能用于变电站内保护装置，也可用于配网中的开关保护配置。用于变电站开关保护配置时，能通过一次重合闸完成故障隔离；当用于分段开关保护时，该功能开关可先于变电站出线开关动作，实现故障隔离，减少变电站内出线开关动作次数，并能保证开关前端线路不受后端故障线路影响，提高供电可靠性。 【EN】A feeder current protection function configuration method belongs to the technical field of power distribution networks. Through the configuration scheme, the distribution network protection device is matched with a section switch with a closing quick-break function in a distribution network feeder line, and the selectivity of distribution network protection can be realized. The novel configuration switch has the characteristic of 'fast-slow' action, not only ensures the rapidity of protection fault removal during fault, but also can be matched with the section switch fast-acting protection to accurately isolate the fault and realize the selectivity of distribution network protection. The protection device can be used for a protection device in a transformer substation and can also be used for switch protection configuration in a distribution network. When the method is used for transformer substation switch protection configuration, fault isolation can be completed through one reclosing; when the functional switch is used for section switch protection, the functional switch can act before the outgoing switch of the transformer substation, fault isolation is realized, the number of times of the outgoing switch in the transformer substation is reduced, a front-end circuit of the switch is not affected by a rear-end fault circuit, and power supply reliability is improved.

摘要：【中文】本发明提出一种深水钻井井喷失控救援方案优选方法，包括如下步骤：按照预设评价指标对若干预设救援方案进行评价，计算和/或评估每个评价指标的权重，根据每个评价指标的权重计算每个救援方案的每个评价指标加权后的评价指标值，根据加权后的评价指标计算每个应急方案与理想方案和负理想方案的距离并计算每个应急方案与理想方案的贴近度，选取贴近度最大的应急方案。本发明所述的深水钻井井喷失控救援方案优选方法，通过对救援方案按照预设评价指标进行科学评价，并进行加权后计算每个应急方案与理想方案的距离，与负理想方案的距离，以及与理想方案和贴近度，从而选出最佳的救援方案，方案优选更加快速科学。 【EN】The invention provides an optimal selection method of a blowout out-of-control rescue scheme for deepwater drilling, which comprises the following steps of: evaluating the preset rescue schemes according to preset evaluation indexes, calculating and/or evaluating the weight of each evaluation index, calculating the weighted evaluation index value of each evaluation index of each rescue scheme according to the weight of each evaluation index, calculating the distance between each emergency scheme and the ideal scheme and the negative ideal scheme according to the weighted evaluation indexes, calculating the closeness of each emergency scheme and the ideal scheme, and selecting the emergency scheme with the maximum closeness. According to the method for optimizing the rescue scheme for the out-of-control blowout in the deepwater drilling well, the rescue scheme is scientifically evaluated according to the preset evaluation indexes, the distance between each emergency scheme and the ideal scheme, the distance between each emergency scheme and the negative ideal scheme, the distance between each emergency scheme and the ideal scheme, the ideal scheme and the closeness of each emergency scheme and the ideal scheme are calculated after weighting, so that the optimal rescue scheme is selected, and the scheme is optimized more rapidly and scientifically.

摘要：【中文】本发明公开了一种锅炉优化燃烧控制方法，包括锅炉汽包水位控制回路，锅炉汽包水位控制回路的控制包括以下步骤：S1：分别对锅炉汽包水位、给水流量、主蒸汽流量的偏差值进行采集；S2：计算锅炉的主给水调节门、副给水调节门控制调节量：对主给水调节门、副给水调节门控制调节量按照以下计算公式计算得出：其中，WQ为调节器输出信号；Ws为调节器的偏差信号；Kp是比例系数；Ti是积分时间；Td是微分时间，通过消除人为误差和硬件误差，依托优化后的软件，将锅炉各控制回路投入自动优化运行，该系统能保证企业安全运行生产，节约能源，从而给企业带来可观的经济利益。 【EN】The invention discloses a boiler optimized combustion control method, which comprises a boiler drum water level control loop, wherein the control of the boiler drum water level control loop comprises the following steps: s1: collecting deviation values of a boiler drum water level, a feed water flow and a main steam flow respectively; s2: calculating the control regulating quantity of a main water supply regulating gate and an auxiliary water supply regulating gate of the boiler: the control regulating quantity of the main water supply regulating valve and the auxiliary water supply regulating valve is calculated according to the following calculation formula:wherein WQ is the regulator output signal; ws is the deviation signal of the regulator; kp is a proportionality coefficient; ti is the integration time; td is differential time, each control loop of the boiler is put into automatic optimization operation by eliminating human errors and hardware errors and relying on optimized software, and the system can ensure safe operation and production of enterprises and save energy, thereby bringing considerable economic benefits to the enterprises.

摘要：【中文】本发明公开了一种GIS设备筒体数字射线定距环向检测保证二维图像一致性的方法，包括：S1、拍摄正常的某一固定型号GIS设备零部件的数字射线标准图像时，将数字射线机垂直对准GIS设备零部件的外表面，记录数字射线机距GIS设备零部件表面的距离、高度、焦距、以及管电压和管电流；S2、拍摄待诊断时所述GIS设备零部件的数字射线检测图像，将数字射线机垂直对准GIS设备零部件的外表面，拍摄高度、焦距、以及管电压和管电流均与拍摄数字射线标准图像相同，以S1步骤中数字射线机距GIS设备零部件表面的距离为半径，选择GIS设备零部件表面的环向合适位置拍摄。本发明可以解决现有技术存在的因现场操作困难导致的无法真正实现定点、定焦、定参数数字射线检测的问题。 【EN】The invention discloses a method for ensuring consistency of two-dimensional images by GIS equipment barrel digital ray distance annular detection, which comprises the following steps: s1, when shooting a normal digital ray standard image of a GIS (geographic information System) equipment part with a fixed model, vertically aligning the digital ray machine to the outer surface of the GIS equipment part, and recording the distance, height and focal length from the digital ray machine to the surface of the GIS equipment part, tube voltage and tube current; s2, shooting a digital ray detection image of the GIS equipment part to be diagnosed, vertically aligning the digital ray machine to the outer surface of the GIS equipment part, taking the shooting height, the shooting focal length, the shooting tube voltage and the shooting tube current as the same as those of the shot digital ray standard image, taking the distance from the digital ray machine to the surface of the GIS equipment part in the step S1 as the radius, and selecting the annular proper position of the surface of the GIS equipment part for shooting. The invention can solve the problem that the fixed-point, fixed-focus and fixed-parameter digital ray detection can not be really realized due to the difficulty of field operation in the prior art.

摘要：【中文】本发明公开了一种衣物处理设备，包括枢转安装在整机(W)的前封门组件(200)上的门盖组件(300)、第一和第二衣物处理单元，第一衣物处理单元包括设置在整机内的第一衣物处理腔，第二衣物处理单元包括连接管道(400)和形成在用于封盖第一衣物处理腔的门盖组件内的第二衣物处理腔，连接管道通过门盖组件与前封门组件之间的枢转连接部从整机连接至第二衣物处理腔。本发明的衣物处理设备包括两个衣物处理单元和两个衣物处理腔，可分别处理不同衣物，方便用户使用。第二衣物处理腔设在门盖组件中，仅通过连接管路与整机相连，通入导出水或气，以实现静态洗涤，管线、电气结构简单，安全可靠性高，而且连接管路隐蔽，不影响产品外观。 【EN】A laundry treating apparatus includes a door assembly (300) pivotally mounted on a front door assembly (200) of a clothes treating machine (W), first and second laundry treating units, the first laundry treating unit including a first laundry treating chamber provided in the clothes treating machine, the second laundry treating unit including a connecting duct (400) connected from the clothes treating machine to the second laundry treating chamber through a pivotal connection between the door assembly and the front door assembly, and a second laundry treating chamber formed in the door assembly for closing the first laundry treating chamber. The clothes treatment device comprises two clothes treatment units and two clothes treatment cavities, and can treat different clothes respectively, so that the clothes treatment device is convenient for users to use. The second clothes treatment cavity is arranged in the door cover assembly, is connected with the whole machine only through a connecting pipeline, and is filled with guided water or gas to realize static washing.

摘要：【中文】本发明公开了一种衣物处理设备及其门盖组件，门盖组件(300)包括第一门组件(301)和第二门组件(303)，第一门组件包括向后伸出的第一门腔体(301a)、连接管道(400)以及用于枢转连接的第一门枢转部(302)，第二门组件可开合地安装于第一门组件的前侧以暴露或封闭第一门腔体，连接管道的一端连通第一门腔体，另一端从第一门枢转部穿出。本发明的门盖组件包括第一门腔体并可通过第二门组件开合，从而可形成小件洗涤腔，从而整机适于分类洗涤，而且双门开合的操作方式简单、便捷，用于水、气连接的连接管路有多种布置方式，可从枢转连接部穿出延伸至整机内，适于静态洗涤且实现多种洗涤方式，安全可靠性高。 【EN】The invention discloses a clothes treating device and a door cover assembly thereof, wherein the door cover assembly (300) comprises a first door assembly (301) and a second door assembly (303), the first door assembly comprises a first door cavity (301a) protruding backwards, a connecting pipeline (400) and a first door pivot part (302) used for pivoting connection, the second door assembly is arranged on the front side of the first door assembly in an openable and closable manner so as to expose or close the first door cavity, one end of the connecting pipeline is communicated with the first door cavity, and the other end of the connecting pipeline penetrates out of the first door pivot part. The door cover assembly comprises the first door cavity and can be opened and closed through the second door assembly, so that a small washing cavity can be formed, the whole machine is suitable for classified washing, the operation mode of opening and closing the double doors is simple and convenient, connecting pipelines for connecting water and gas have various arrangement modes, the connecting pipelines can penetrate through the pivoting connecting part and extend into the whole machine, the door cover assembly is suitable for static washing and can realize various washing modes, and the safety and the reliability are high.

摘要：【中文】本发明涉及洗衣机领域，公开了一种洗衣机，包括具有第一洗涤腔的第一洗涤单元、门盖组件和具有第二洗涤腔的第二洗涤单元，门盖组件包括第二门(20)和内腔为第二洗涤腔的第一门(30)，第一门通过第一门枢转部枢转连接于洗衣机的前封门(10)的端面上以开合第一洗涤腔，第二门枢转连接于第一门的前端面上以开合第二洗涤腔，第二洗涤单元包括第二洗涤单元进水管(805)和第二洗涤单元排水管(806)，第二洗涤腔的顶部设有出水口(704)，第二洗涤单元进水管连接出水口，第二洗涤单元排水管连接于第二洗涤腔的底部。本发明的洗衣机具有独立的两个洗涤腔，适于分类洗涤，更好地满足用户需求，而且采用静态洗涤，安全可靠性好，洗涤效果好。 【EN】The invention relates to the field of washing machines, and discloses a washing machine which comprises a first washing unit with a first washing cavity, a door cover assembly and a second washing unit with a second washing cavity, wherein the door cover assembly comprises a second door (20) and a first door (30) with an inner cavity as the second washing cavity, the first door is pivotally connected to the end surface of a front sealing door (10) of the washing machine through a first door pivot part to open and close the first washing cavity, the second door is pivotally connected to the front end surface of the first door to open and close the second washing cavity, the second washing unit comprises a second washing unit water inlet pipe (805) and a second washing unit water outlet pipe (806), a water outlet (704) is formed in the top of the second washing cavity, the second washing unit water inlet pipe is connected with the water outlet, and the second washing unit water outlet pipe is connected to the bottom of the second washing cavity. The washing machine provided by the invention is provided with two independent washing cavities, is suitable for classified washing, better meets the user requirements, and has the advantages of good safety and reliability and good washing effect due to the adoption of static washing.

摘要：【中文】本发明公开了一种增强现实互动实现方法及系统，增强现实设备、存储介质，该增强现实互动实现方法包括：第一增强现实设备获取标识物的特征点数据和坐标系数据，追踪所述标识物，显示第一虚拟三维模型；所述第一增强现实设备接收第二增强现实设备发送的所述第一虚拟三维模型的位姿信息，根据所述第一虚拟三维模型的位姿信息确定所述第一虚拟三维模型在所述第一增强现实设备的图像采集设备坐标系下的第一模型转换矩阵，根据所述第一模型转换矩阵更新所述第一虚拟三维模型。本实施例提供的方案，以标识物作为媒介，通过一系列矩阵变换，实现参与互动的AR终端之间共享坐标系，避免了指令执行过程，提高了处理效率。 【EN】The invention discloses a method and a system for realizing augmented reality interaction, augmented reality equipment and a storage medium, wherein the method for realizing the augmented reality interaction comprises the following steps: the method comprises the steps that first augmented reality equipment obtains feature point data and coordinate system data of a marker, tracks the marker and displays a first virtual three-dimensional model; the first augmented reality device receives pose information of the first virtual three-dimensional model sent by the second augmented reality device, a first model transformation matrix of the first virtual three-dimensional model under an image acquisition device coordinate system of the first augmented reality device is determined according to the pose information of the first virtual three-dimensional model, and the first virtual three-dimensional model is updated according to the first model transformation matrix. According to the scheme provided by the embodiment, the identifier is used as a medium, and a coordinate system is shared among the AR terminals participating in interaction through a series of matrix transformation, so that the instruction execution process is avoided, and the processing efficiency is improved.

摘要：【中文】本发明公布了一种基于信令大数据的用户出行轨迹提取方法和系统，用于从海量信令数据中挖掘用户出行轨迹序列，在离线轨迹提取的过程中获取用户位置切换数据序列，利用停留时间检测用户驻留点并提取用户离线轨迹；在实时轨迹提取中，利用流式计算和Geohash计算，记录每个用户当前所处的Geohash网格，使用Geohash网格作为驻留点，并生成新的驻留点，从而获取实时轨迹数据。采用本发明提供的技术方案，能够提取用户实时轨迹和离线轨迹，灵活性高。 【EN】The invention discloses a user travel track extraction method and system based on signaling big data, which are used for mining a user travel track sequence from massive signaling data, acquiring a user position switching data sequence in an offline track extraction process, detecting a user residence point by using residence time and extracting a user offline track; in the real-time track extraction, a Geohash grid where each user is located at present is recorded by utilizing stream type calculation and Geohash calculation, the Geohash grid is used as a residence point, a new residence point is generated, and therefore real-time track data are obtained. By adopting the technical scheme provided by the invention, the real-time track and the off-line track of the user can be extracted, and the flexibility is high.

摘要：【中文】本发明提供一种AGV换电控制方法及系统，AGV换电控制方法具体包括监测AGV电量，当监测到电量低于预定值，发出电量信号；接收电量信号，发出请求换电信号；接收请求换电信号，发出换电信号，根据接收的换电信号，选择合适的电池作为待更换电池，以及根据接收的换电信号，控制AGV驶入换电站的指定位置，最后对AGV的电池进行更换。通过上述方法，可以实现换电站的信息化、网络化和智能化的管理，并能够实现在无人操作的状态下，对AGV电池的智能更换。 【EN】The invention provides an AGV power change control method and system, wherein the AGV power change control method specifically comprises the steps of monitoring electric quantity of an AGV, and sending an electric quantity signal when the monitored electric quantity is lower than a preset value; receiving an electric quantity signal and sending a power change request signal; receiving a power change request signal, sending a power change signal, selecting a proper battery as a battery to be replaced according to the received power change signal, controlling the AGV to drive into an appointed position of a power change station according to the received power change signal, and finally replacing the battery of the AGV. By the method, informatization, networking and intelligent management of the battery replacement station can be realized, and intelligent replacement of the AGV battery can be realized in an unmanned operation state.