摘要：【中文】本发明提供了一种建筑能耗监测装置及评定方法，本发明的智能电能表设备使用RS485线和无线网关连接，无线网关需要设置和智能电能表相同的波特率，符合Modbus标准协议。再使用无线网关设备，通过2G/3G/4G网络或者GPRS传输到服务器的接收平台。最终完成远程动态采集建筑用电能耗数据。根据电表的DTL645‑2007或DTL645‑1997通讯规约，对采集上来的数据进行相应计算和处理。本发明可以对建筑能耗进行实时监测，确保建筑耗能一目了然。节省了人力物力，使用户方便快捷地得到数据并进行分析对比，提高了监管工作效率和管理水平。 【EN】The invention provides a building energy consumption monitoring device and an evaluation method, wherein intelligent electric energy meter equipment is connected with a wireless gateway by using an RS485 line, and the wireless gateway needs to set the baud rate same as that of an intelligent electric energy meter and accords with a Modbus standard protocol. And then the wireless gateway equipment is used for transmitting the data to a receiving platform of the server through a 2G/3G/4G network or GPRS. And finally, remotely and dynamically acquiring the energy consumption data of the electricity for the building. And correspondingly calculating and processing the collected data according to the DTL645-2007 or DTL645-1997 communication protocol of the electric meter. The invention can monitor the building energy consumption in real time and ensure the building energy consumption to be clear at a glance. Manpower and material resources are saved, a user can conveniently and quickly obtain data and analyze and compare the data, and the supervision work efficiency and the management level are improved.

摘要：【中文】本申请提供一种基于神经网络模型的设备故障预测方法、装置及设备，涉及机械设备技术领域。该方法通过获取待检测设备的工作参数，将工作参数输入预设神经网络模型，获取待检测设备的故障信息，而由于该预设神经网络模型是根据多个包含工作参数的训练样本训练得到的，因此，基于训练出来的预设神经网络模型获取待检测设备的故障信息，可以有效提高预测待检测设备的故障信息的准确度。 【EN】The application provides a method, a device and equipment for predicting equipment faults based on a neural network model, and relates to the technical field of mechanical equipment. According to the method, the working parameters of the equipment to be detected are obtained, the working parameters are input into the preset neural network model, and the fault information of the equipment to be detected is obtained.

摘要：【中文】本发明提供了一种智能终端的屏幕组件、智能终端、屏幕压感检测方法及计算机可读存储介质，屏幕组件，包括显示屏、屏幕盖板、传感器组及支撑壳体，传感器组包括至少四个压力传感器，分别设于屏幕盖板的四条侧边的下方，且每条侧边的下方至少设有一个压力传感器；每一压力传感器的一端面与屏幕盖板连接，另一端面与支撑壳体连接，当屏幕盖板接收一按压操作时，压力传感器检测按压操作的压力大小；显示屏的一端面贴设在屏幕盖板的下方，另一端面与支撑壳体间具有一间隙，且当按压操作实施时，显示屏与支撑壳体隔绝。采用上述技术方案后，通过无需在显示屏下布设压力传感器的方式，避免出现压感的盲区，从而实现全面屏压力感应。 【EN】The invention provides a screen assembly of an intelligent terminal, the intelligent terminal, a screen pressure detection method and a computer readable storage medium, wherein the screen assembly comprises a display screen, a screen cover plate, a sensor group and a supporting shell, the sensor group comprises at least four pressure sensors which are respectively arranged below four side edges of the screen cover plate, and at least one pressure sensor is arranged below each side edge; one end face of each pressure sensor is connected with the screen cover plate, the other end face of each pressure sensor is connected with the supporting shell, and when the screen cover plate receives a pressing operation, the pressure sensors detect the pressure of the pressing operation; one end face of the display screen is attached to the lower portion of the screen cover plate, a gap is formed between the other end face of the display screen and the supporting shell, and when the pressing operation is carried out, the display screen is isolated from the supporting shell. After the technical scheme is adopted, the dead zone of pressure sensing is avoided by a mode of not arranging the pressure sensor under the display screen, so that the pressure sensing of the whole screen is realized.

摘要：【中文】一种海水淡化浓盐水蒸发结晶制备碱盐的装置及方法，它涉及一种海水淡化浓盐水制备工业盐的方法。本发明是要解决海水淡化提取淡水后浓缩产生的浓盐水排放,资源没有得到回收利用的问题。方法：将海水淡化产生的浓盐水泵入预热器中进行预热；纳滤处理；在反应器中向海水淡化浓盐水中加入石灰乳获得氢氧化镁沉淀；先后进入硫酸钙蒸发结晶器，氯化钠与氯化钾混合蒸发结晶器，氯化钙蒸发结晶器得到三类工业盐。将氯化钙蒸发浓缩后的浓盐水进入干燥塔中干燥，得到锶渣。本发明用于处理海水淡化浓盐水，从海水淡化浓盐水中产出并分离工业碱盐。 【EN】A device and a method for preparing alkali salt by evaporating and crystallizing sea water desalination strong brine relate to a method for preparing industrial salt by sea water desalination strong brine. The invention aims to solve the problems that strong brine generated by concentrating after seawater desalination and fresh water extraction is discharged, and resources are not recycled. The method comprises the following steps:pumping strong brine generated by seawater desalination into a preheater for preheating;nano-filtration treatment;adding lime milk into the sea water desalination strong brine in a reactor to obtain magnesium hydroxide precipitate;sequentially entering a calcium sulfate evaporation crystallizer, mixing sodium chloride and potassium chloride to obtain three types of industrial salts.And (3) drying the concentrated brine obtained after calcium chloride evaporation concentration in a drying tower to obtain strontium slag. The invention is used for processing the seawater desalination strong brine, and producing and separating the industrial alkali salt from the seawater desalination strong brine.