摘要：【中文】本发明公开了一种不锈钢管表面处理装置，包括底座，所述加固管中安装有夹紧装置，所述加固管和操作台之间安装有卡紧装置，所述电机远离活动板一侧活动安装有输出轴，所述输出轴远离电机一端固定安装有安装板，所述安装板靠近底座一侧安装有压紧装置。优点在于：本发明将钢管利用两个夹板夹设在加固管中，利用其正上方的打磨板进行打磨，代替了人工打磨的方式，这样不仅降低了劳动强度，更提高了打磨精度和打磨的效率，安装板上的打磨板以及加固管均可进行拆卸，更换或维护，以保证打磨的质量，打磨过程中利用风机和喷管将钢管上的碎屑吹走，操作员还可利用防护板来保护自己，防止烫伤。 【EN】The invention discloses a stainless steel pipe surface treatment device which comprises a base, wherein a clamping device is arranged in a reinforcing pipe, a clamping device is arranged between the reinforcing pipe and an operating platform, an output shaft is movably arranged on one side of a motor, which is far away from a movable plate, an installation plate is fixedly arranged on one end of the output shaft, which is far away from the motor, and a pressing device is arranged on one side of the installation plate, which is close to the base. Has the advantages that: according to the invention, the steel pipe is clamped in the reinforcing pipe by the two clamping plates, and the polishing plate right above the reinforcing pipe is used for polishing, so that a manual polishing mode is replaced, the labor intensity is reduced, the polishing precision and the polishing efficiency are improved, the polishing plate on the mounting plate and the reinforcing pipe can be detached, replaced or maintained, the polishing quality is ensured, the blower and the spray pipe are used for blowing away scraps on the steel pipe in the polishing process, and an operator can protect the steel pipe by the protection plate to prevent scalding.

摘要：【中文】本发明公开一种电路板的制造方法及钻孔机，该电路板的制造方法包括：提供钻孔机，其包含工作台、设置于工作台上方的钻头、及电连接钻头的控制模块；将第一导电片体设置于工作台上；依据预设背钻孔区域以钻头接触第一导电片体，以获得第一高度信息；移除第一导电片体；将电路板设置于工作台上；将第二导电片体设置于电路板上；依据预设背钻孔区域以钻头接触第二导电片体，以获得第二高度信息；依据第一高度信息及第二高度信息计算实际背钻孔深度值。本发明另提供一种钻孔机。 【EN】The invention discloses a manufacturing method of a circuit board and a drilling machine, wherein the manufacturing method of the circuit board comprises the following steps: providing a drilling machine which comprises a workbench, a drill bit arranged above the workbench and a control module electrically connected with the drill bit; arranging a first conductive sheet body on a workbench; contacting the first conductive sheet body with a drill according to a preset back drilling area to obtain first height information; removing the first conductive sheet body; arranging the circuit board on a workbench; arranging the second conductive sheet body on the circuit board; contacting the second conductive sheet body with a drill according to the preset back drilling area to obtain second height information; and calculating the actual back drilling depth value according to the first height information and the second height information. The invention further provides a drilling machine.

摘要：【中文】本发明公开一种电路板的制造方法及钻孔机，其中该电路板的制造方法包括：提供钻孔机，其包含工作台及设置于工作台上方的钻头；将电路板设置于工作台，其中，电路板具有顶面及底面、且包含由顶面至底面依序堆叠的多个板结构，电路板进一步定义有预设背钻孔区域及背钻孔深度测试区域，并且多个板结构的其中一个板结构在背钻孔深度测试区域设置内层检测金属垫；依据背钻孔深度测试区域以钻头接触顶面，以获得一第一高度信息；依据背钻孔深度测试区域以钻头接触内层检测金属垫，以获得第二高度信息；依据第一高度信息及第二高度信息计算实际背钻孔深度值。 【EN】The invention discloses a manufacturing method of a circuit board and a drilling machine, wherein the manufacturing method of the circuit board comprises the following steps: providing a drilling machine which comprises a workbench and a drill bit arranged above the workbench; arranging a circuit board on a workbench, wherein the circuit board is provided with a top surface and a bottom surface and comprises a plurality of board structures which are sequentially stacked from the top surface to the bottom surface, a preset back drilling hole area and a back drilling hole depth testing area are further defined on the circuit board, and one board structure of the plurality of board structures is provided with an inner layer detection metal pad in the back drilling hole depth testing area; contacting the top surface with a drill according to the back drilling depth test area to obtain first height information; contacting the inner detection metal pad with a drill according to the back drilling depth test area to obtain second height information; and calculating the actual back drilling depth value according to the first height information and the second height information.

摘要：【中文】本发明涉及一种调控导电高分子薄膜晶体生长的方法，将聚‑3已基噻吩薄膜依次放入不同体积比的混合溶剂中退火，然后迅速除去薄膜中的溶剂；所述混合溶剂为氯仿与正己烷的混合溶剂或氯仿与环己烷的混合溶剂。本发明调控导电高分子薄膜晶体生长的方法，通过改变不良溶剂的极性来调节导电高分子晶体在薄膜中可控生长，从而制备结晶度和晶体尺度大小可控的导电高分子薄膜。本发明利用极性不良溶剂与高分子烷基侧链的排斥性，诱导高分子链堆积更加紧密，促进高分子晶体的增长，从而改善导电高分子薄膜的结晶度。 【EN】The invention relates to a method for regulating and controlling the crystal growth of a conductive polymer film, which comprises the steps of sequentially putting poly-3 hexyl thiophene films into mixed solvents with different volume ratios for annealing, and then quickly removing the solvents in the films; the mixed solvent is a mixed solvent of chloroform and n-hexane or a mixed solvent of chloroform and cyclohexane. The method for regulating and controlling the growth of the conductive polymer film crystal regulates the controllable growth of the conductive polymer crystal in the film by changing the polarity of the poor solvent, thereby preparing the conductive polymer film with controllable crystallinity and crystal size. The invention utilizes the repulsion of the polar poor solvent and the macromolecule alkyl side chain to induce the tight accumulation of the macromolecule chain and promote the growth of the macromolecule crystal, thereby improving the crystallinity of the conductive macromolecule film.

摘要：【中文】本公开提供一种体检数据处理方法、体检数据处理了装置、计算机可读存储介质及电子设备；涉及数据处理技术领域。该方法包括：获取体检需求信息，根据所述体检需求信息确定第一体检任务；将所述第一体检任务发送至目标客户端，并按照所述第一体检任务中的体检时间向所述目标客户端发送提醒消息；如果接收到所述第一体检任务对应的体检记录信息，则根据所述体检记录信息确定健康风险评估结果，以根据所述健康风险评估结果确定健康管理计划；将所述健康管理计划发送至所述目标客户端，以在所述目标客户端显示所述健康管理计划中的第二体检任务。本公开中的体检数据处理方法能够提升体检数据处理的效率。 【EN】The present disclosure provides a physical examination data processing method, a physical examination data processing device, a computer readable storage medium and an electronic device; relates to the technical field of data processing. The method comprises the following steps: acquiring physical examination requirement information, and determining a first physical examination task according to the physical examination requirement information; sending the first physical examination task to a target client, and sending a reminding message to the target client according to the physical examination time in the first physical examination task; if physical examination record information corresponding to the first physical examination task is received, determining a health risk assessment result according to the physical examination record information, and determining a health management plan according to the health risk assessment result; and sending the health management plan to the target client to display a second physical examination task in the health management plan on the target client. The physical examination data processing method can improve the efficiency of physical examination data processing.

摘要：【中文】本发明公开了一种海洋石油工程结构钢管椭圆度全过程检测记录仪，包括：固定架、检测组件、记录组件，固定架穿过钢管轴心并通过固定组件设在钢管内，检测组件包括径向转动机构、轴向伸缩机构和轨迹笔，径向转动机构转动连接在固定架上，且两者同轴心设置，轴向伸缩机构的一端与径向转动机构连接，轴向伸缩机构的轴线与径向转动机构的轴线间隔开并平行设置，轴向伸缩机构的另一端连接有轨迹笔；记录组件的一端与径向转动机构连接，另一端与轨迹笔抵接，以在径向转动机构转动过程中，将轨迹笔的检测轨迹记录在记录组件中。本发明的钢管椭圆度全过程检测记录仪能快速完成椭圆度的无遗漏检测，且可自动生成具有可追溯性的检测记录表。 【EN】The invention discloses a full-process detection recorder for ovality of a steel pipe of an offshore oil engineering structure, which comprises: the detection assembly comprises a radial rotating mechanism, an axial telescopic mechanism and a track pen, wherein the radial rotating mechanism is rotatably connected to the fixed frame and coaxially arranged, one end of the axial telescopic mechanism is connected with the radial rotating mechanism, the axis of the axial telescopic mechanism and the axis of the radial rotating mechanism are spaced and arranged in parallel, and the other end of the axial telescopic mechanism is connected with the track pen; one end of the recording assembly is connected with the radial rotating mechanism, and the other end of the recording assembly is abutted to the track pen so as to record the detection track of the track pen in the recording assembly in the rotating process of the radial rotating mechanism. The steel pipe ovality overall-process detection recorder can rapidly complete the omission-free detection of ovality, and can automatically generate a detection record table with traceability.

摘要：【中文】本发明公开了一种基于图像处理的Depthwise快速卷积系统，包括图像像素读取单元、DW卷积计算单元；所述图像像素读取单元能够以多维度的形式将待处理的图像存储到存储单元中；所述DW卷积计算单元按行对图像数据进行读取后，与三行的卷积核进行乘累加计算，获得所有像素点的计算结果。本发明实现了图像卷积的快速算法，可以减少重复读取图像存储单元的过程，降低了卷积使用的计算空间，有助于快速准确地得出图像卷积的结果。 【EN】The invention discloses a Depthwise fast convolution system based on image processing, which comprises an image pixel reading unit and a DW convolution calculating unit; the image pixel reading unit can store an image to be processed into a storage unit in a multi-dimensional form; and after reading the image data according to the rows, the DW convolution calculation unit performs multiplication accumulation calculation with convolution kernels in three rows to obtain calculation results of all pixel points. The invention realizes the fast algorithm of the image convolution, can reduce the process of repeatedly reading the image storage unit, reduces the calculation space used by the convolution and is beneficial to quickly and accurately obtaining the result of the image convolution.

摘要：【中文】本发明公开了一种基于实体概念的知识图谱补全、推演、存储方法及装置，所述方法包括：确定知识图谱中与实体的多个概念一一对应的多个概念向量以及与关系对应的关系向量；根据实体的多个概念向量，确定实体的实体向量；根据未知三元组的头实体向量、尾实体向量、关系向量中的任意两个已知向量，计算未知向量；遍历知识图谱中确定的实体向量或关系向量，确定与计算的未知向量余弦相似度最高的实体向量或关系向量，并推测未知向量对应的实体或关系，以补全知识图谱。采用本发明，将概念信息与知识图谱中已有的结构知识充分融合，并将概念及关系向量化，可以有效提高知识图谱向量化建模结果的准确率和表达能力。 【EN】The invention discloses a method and a device for complementing, deducing and storing a knowledge graph based on an entity concept, wherein the method comprises the following steps: determining a plurality of concept vectors corresponding to a plurality of concepts of an entity one by one and a relationship vector corresponding to a relationship in a knowledge graph; determining an entity vector of an entity according to a plurality of concept vectors of the entity; calculating an unknown vector according to any two known vectors in the head entity vector, the tail entity vector and the relation vector of the unknown triple; and traversing the determined entity vector or relation vector in the knowledge graph, determining the entity vector or relation vector with the highest cosine similarity with the calculated unknown vector, and predicting the entity or relation corresponding to the unknown vector to complete the knowledge graph. By adopting the method, the concept information and the existing structural knowledge in the knowledge graph are fully fused, and the concepts and the relations are vectorized, so that the accuracy and the expression capability of the knowledge graph vectorized modeling result can be effectively improved.

摘要：【中文】本发明提出了一种知识图谱的关系预测推演方法及知识图谱的动态更新方法，知识图谱的关系预测方法包括：针对知识图谱创建多个嵌入空间；从知识图谱中为每个嵌入空间选择实体和关系，作为嵌入空间的实体集合和关系集合；针对每个嵌入空间，训练实体集合对应的实体向量以及训练关系集合对应的关系向量；基于嵌入空间的实体向量和关系向量，计算待预测的第一实体和第二实体之间的预测关系，以确定第一实体和第二实体之间的关系。根据本发明的知识图谱的关系预测推演方法，基于多元嵌入空间进行动态知识图谱关系推理预测，摆脱了为每种关系生成一个关系特定投射向量的约束，克服了传统翻译模型微调参数的需求，可有效适应知识图谱动态变化特性。 【EN】The invention provides a relation prediction deduction method of a knowledge graph and a dynamic updating method of the knowledge graph, wherein the relation prediction method of the knowledge graph comprises the following steps: creating a plurality of embedding spaces for the knowledge graph; selecting entities and relations for each embedding space from the knowledge graph as an entity set and a relation set of the embedding space; aiming at each embedding space, training entity vectors corresponding to the entity set and relation vectors corresponding to the training relation set; based on the entity vector and the relationship vector of the embedding space, a predicted relationship between the first entity and the second entity to be predicted is calculated to determine a relationship between the first entity and the second entity. According to the knowledge graph relation prediction deduction method, dynamic knowledge graph relation reasoning prediction is carried out based on the multivariate embedding space, the constraint that a relation specific projection vector is generated for each relation is eliminated, the requirement of fine adjustment parameters of a traditional translation model is overcome, and the knowledge graph relation prediction deduction method can effectively adapt to the dynamic change characteristics of the knowledge graph.

摘要：【中文】本发明提出了一种参数共享的知识图谱的补全推演方法及装置，知识图谱的补全方法包括：训练所述知识图谱的实体向量和关系向量；基于所述实体向量和所述关系向量计算基准向量，基于所述基准向量确定待预测实体或待预测关系，以进行所述知识图谱的补全。根据本发明的参数共享的知识图谱的补全推演方法，包括训练和预测两部分，通过训练可以得到实体向量和关系向量，从而获得三元组中已知的实体或关系对应的向量，并计算基准向量，根据基准向量预测确定待预测的实体或关系，实现知识图谱的补全。由此，用更简练的模型框架、更小的模型参数规模，实现了对知识图谱推理与补全，提高了知识图谱的补全操作效率。 【EN】The invention provides a completion deduction method and a completion deduction device of a parameter-shared knowledge graph, wherein the completion method of the knowledge graph comprises the following steps: training entity vectors and relationship vectors of the knowledge graph; and calculating a reference vector based on the entity vector and the relation vector, and determining an entity to be predicted or a relation to be predicted based on the reference vector so as to complete the knowledge graph. The parameter-shared knowledge graph completion deduction method comprises two parts of training and predicting, entity vectors and relation vectors can be obtained through training, so that vectors corresponding to known entities or relations in triples are obtained, reference vectors are calculated, entities or relations to be predicted are determined according to the reference vector prediction, and completion of the knowledge graph is achieved. Therefore, reasoning and completion of the knowledge graph are realized by using a more concise model framework and a smaller model parameter scale, and the completion operation efficiency of the knowledge graph is improved.