摘要：【中文】本发明公开了一种拉链布带水洗定型方法，包括以下步骤：(1)将布带以条状牵引穿过水洗装置，进行水洗处理；(2)将从水洗装置穿出的布带再以条状牵引穿过定型机，进行加热定型处理；(3)收集整理从定型机穿出的布带。本发明改进了需水洗的拉链布带的生产工艺，省略了卷带放带工序、干燥工序，从而大大缩短了工艺流程，提高了生产效率，降低了生产成本。 【EN】The invention discloses a method for washing and shaping zipper cloth belts, which comprises the following steps: (1) drawing the cloth belt in a strip shape to pass through a washing device for washing treatment; (2) pulling the cloth belt which penetrates out of the washing device through a setting machine in a strip shape, and carrying out heating setting treatment; (3) collecting and tidying the cloth belts penetrating out of the setting machine. The invention improves the production process of the zipper cloth belt needing to be washed by water, and omits the processes of winding and unwinding the belt and drying, thereby greatly shortening the process flow, improving the production efficiency and reducing the production cost.

摘要：【中文】本发明公开了一种山火目标自动定位监测系统，属于山火监测技术领域，解决了的现有技术对山火目标的定位精度明显不足的问题。一种山火目标自动定位监测系统，包括雷达监测装置、红外探测装置和数据处理主机，雷达监测装置，用于通过天线将毫米波信号辐射到需要探测的区域，接收山火目标的回波信号，并将山火目标的回波信号转化为对应的电信号，发送至数据处理主机；所述红外探测装置，用于探测接收山火目标发出的红外辐射，得到山火目标的红外辐射信号，并将红外辐射信号转换为对应的电信号，发送至数据处理主机；数据处理主机，用于根据山火目标回波信号对应的电信号及红外辐射信号对应的电信号，得到山火目标位置。实现了山火目标的精确定位。 【EN】The invention discloses an automatic mountain fire target positioning and monitoring system, belongs to the technical field of mountain fire monitoring, and solves the problem that the positioning accuracy of the prior art for mountain fire targets is obviously insufficient. An automatic mountain fire target positioning and monitoring system comprises a radar monitoring device, an infrared detection device and a data processing host, wherein the radar monitoring device is used for radiating millimeter wave signals to an area needing to be detected through an antenna, receiving echo signals of a mountain fire target, converting the echo signals of the mountain fire target into corresponding electric signals and sending the electric signals to the data processing host; the infrared detection device is used for detecting and receiving infrared radiation emitted by the forest fire target to obtain an infrared radiation signal of the forest fire target, converting the infrared radiation signal into a corresponding electric signal and sending the electric signal to the data processing host; and the data processing host is used for obtaining the position of the forest fire target according to the electric signal corresponding to the echo signal of the forest fire target and the electric signal corresponding to the infrared radiation signal. The accurate positioning of the mountain fire target is realized.

摘要：【中文】本发明提供一种无线充电发射线圈及无线充电结构，所述无线充电发射线圈至少包括：以上下堆叠方式排布的至少三层线圈排布层，其中，至少三层线圈排布层中第一线圈排布层包括：设置于同一平面的至少三个第一线圈，并且相邻第一线圈之间彼此相切；第二线圈排布层包括：设置于第一线圈排布层和第三线圈排布层之间的至少一个第二线圈；第三线圈排布层包括：设置于同一平面的至少三个第三线圈，并且相邻第三线圈之间彼此相切；其中，彼此相切的三个第一线圈的圆心及彼此相切的三个第三线圈的圆心分别构成一等边三角形，并且两等边三角形的中心在堆叠方向上重合，同时与一第二线圈的圆心在堆叠方向重合，以减小所述无线充电发射线圈的充电盲区。 【EN】The invention provides a wireless charging transmitting coil and a wireless charging structure, wherein the wireless charging transmitting coil at least comprises: at least three-layer coil cloth gang layer of arranging with stacking mode from top to bottom, wherein, first coil cloth gang layer in at least three-layer coil cloth gang layer includes: at least three first coils arranged on the same plane, wherein adjacent first coils are tangent to each other; the second coil cloth laying layer includes: at least one second coil disposed between the first coil arranging layer and the third coil arranging layer; the third coil cloth disposal layer includes: at least three third coils arranged on the same plane, and the adjacent third coils are tangent to each other; the centers of the three first coils which are tangent to each other and the centers of the three third coils which are tangent to each other respectively form an equilateral triangle, the centers of the two equilateral triangles are overlapped in the stacking direction and are overlapped with the center of a second coil in the stacking direction, and therefore the charging blind area of the wireless charging transmitting coil is reduced.

摘要：【中文】本发明公开了一种高折射率角膜接触镜材料以及应用，该材料包括以下重量份比例的原料：具有取代芳环结构的可聚合乙烯基单体:18～52份，亲水单体：21～80份，交联剂：0.1～1份，自由基引发剂：0.1～1份。利用本发明角膜接触镜材料制成的角膜接触镜，具有良好的伸长率和回弹性，以及较好的机械强度，同时具有高折射率和光学透明。同时，利用该材料制备角膜接触镜，制作方法简单，无需溶剂，提高人眼佩戴的安全性。 【EN】The invention discloses a high-refractive index corneal contact lens material and application thereof, wherein the material comprises the following raw materials in parts by weight: 18-52 parts of polymerizable vinyl monomer with a substituted aromatic ring structure, hydrophilic monomer: 21-80 parts of a cross-linking agent: 0.1-1 part of free radical initiator: 0.1 to 1 portion. The cornea contact lens made of the cornea contact lens material has good elongation and rebound resilience, better mechanical strength, high refractive index and optical transparency. Meanwhile, the corneal contact lens prepared from the material is simple in preparation method, does not need a solvent, and improves the safety of wearing by human eyes.

摘要：【中文】本发明涉及一种由渣油加氢失活催化剂制备镍基催化剂的方法，包括下述步骤：将渣油加氢失活催化剂、硫酸镍铵及过硫酸盐混合均匀，焙烧，浸泡，固液分离，分离出的液体作为镍基催化剂酸性原料，分离的固体作为镍基催化剂碱性原料；反应釜中加入水，搅拌并对反应釜进行加热，达到反应温度时，向反应釜中加入得到的酸性原料，同时并流加入碱性原料，当反应结束后，调整pH值，并进行老化、过滤、洗涤，固体产物经干燥得到镍基加氢催化剂前躯物，物料成型后经干燥、焙烧，即得镍基加氢催化剂。本发明以失活渣油加氢催化剂制备镍基催化剂，即使失活催化剂得到有效处理，也为镍基催化剂制备原料提供了一种新途径。 【EN】The invention relates to a method for preparing a nickel-based catalyst from a residual oil hydrogenation deactivated catalyst, which comprises the following steps: uniformly mixing a residual oil hydrogenation deactivated catalyst, nickel ammonium sulfate and persulfate, roasting, soaking, and carrying out solid-liquid separation, wherein the separated liquid is used as an acidic raw material of the nickel-based catalyst, and the separated solid is used as an alkaline raw material of the nickel-based catalyst; adding water into a reaction kettle, stirring and heating the reaction kettle, adding the obtained acidic raw material into the reaction kettle when the reaction temperature is reached, adding the obtained basic raw material into the reaction kettle in a concurrent flow manner, adjusting the pH value after the reaction is finished, aging, filtering and washing, drying a solid product to obtain a precursor of the nickel-based hydrogenation catalyst, and drying and roasting the material after the material is formed to obtain the nickel-based hydrogenation catalyst. The invention prepares the nickel-based catalyst by using the deactivated residual oil hydrogenation catalyst, and provides a new way for preparing raw materials of the nickel-based catalyst even if the deactivated catalyst is effectively treated.

摘要：【中文】本发明提供了一种制备纳米铝粉的方法，通过将原料铝盐在溶剂中均匀混合，并在保护剂三苯基氧膦的条件下制取纳米铝粉。通过控制反应条件，可以得到粒径不同的纳米铝粉，并通过使用X射线衍射、红外光谱、粒度分析、热重分析等方法对得到纳米铝粉末进行表征。本发明提供的方法操作简单，所需原料简单，产量大，所制得的纳米铝粉平均粒径小。 【EN】The invention provides a method for preparing nano aluminum powder, which is characterized in that raw materials of aluminum salt are uniformly mixed in a solvent, and the nano aluminum powder is prepared under the condition of a protective agent triphenylphosphine oxide. By controlling the reaction conditions, nano aluminum powder with different particle sizes can be obtained, and the obtained nano aluminum powder is characterized by using methods such as X-ray diffraction, infrared spectroscopy, particle size analysis, thermogravimetric analysis and the like. The method provided by the invention has the advantages of simple operation, simple required raw materials, high yield and small average particle size of the prepared nano aluminum powder.

摘要：【中文】本发明提供了一种利用保护剂制备纳米铝粉的方法，通过将原料铝盐在溶剂中均匀混合，并在保护剂三苯基氧膦的条件下制取纳米铝粉。通过控制反应条件，可以得到粒径不同的纳米铝粉，并通过使用X射线衍射、红外光谱、粒度分析、热重分析等方法对得到纳米铝粉末进行表征。本发明提供的方法操作简单，所需原料简单，产量大，所制得的纳米铝粉平均粒径小。 【EN】The invention provides a method for preparing nano aluminum powder by using a protective agent, which is characterized in that raw materials of aluminum salt are uniformly mixed in a solvent, and the nano aluminum powder is prepared under the condition of the protective agent triphenylphosphine oxide. By controlling the reaction conditions, nano aluminum powder with different particle sizes can be obtained, and the obtained nano aluminum powder is characterized by using methods such as X-ray diffraction, infrared spectroscopy, particle size analysis, thermogravimetric analysis and the like. The method provided by the invention has the advantages of simple operation, simple required raw materials, high yield and small average particle size of the prepared nano aluminum powder.

摘要：【中文】本发明公开了一种机械手半自动包胶系统，包括包胶机、机械手部件和自动上料装置；所述机械手部件包括机械手和治具；所述自动上料装置包括支架、料匣、旋转装置以及顶料装置；所述旋转装置包括气缸、齿轮、齿条和托盘；所述顶料装置包括电机、丝杆、连接板以及顶杆。本系统可实现包胶的半自动化，在整个包胶过程中，只需操作人员隔一段时间往料匣内放入一批料件即可，其他时间可以进行其他工作，因此本系统可以提高生产效率和时间利用率，从而降低成本，还可以降低操作人员的疲劳度。另外对比其他同类产品，本系统成本低，操作简单，制作成本低。 【EN】The invention discloses a semi-automatic rubber coating system of a manipulator, which comprises a rubber coating machine, a manipulator component and an automatic feeding device, wherein the manipulator component is arranged on the rubber coating machine; the manipulator component comprises a manipulator and a jig; the automatic feeding device comprises a bracket, a material box, a rotating device and a material ejecting device; the rotating device comprises a cylinder, a gear, a rack and a tray; the ejection device comprises a motor, a screw rod, a connecting plate and an ejector rod. The semi-automation of rubber coating can be realized to this system, in whole rubber coating in-process, only need operating personnel to put into a batch material spare in the material casket at a period can, other times can carry out other work, consequently this system can improve production efficiency and time utilization to reduce cost can also reduce operating personnel's fatigue. In addition, compared with other similar products, the system has low cost, simple operation and low manufacturing cost.

摘要：【中文】本发明提供了一种用于日用杂品的多功能疲劳试验机，包括底座，所述底座的上端设有试样平台和支架，试样平台的上端设有夹持板，支架内固定设有电机，电机螺杆下端设有力控传感器，电机螺杆侧面设有夹持部件，夹持部件上端设有夹持装置，夹持装置的内部夹持加载杆，加载杆下部设有夹板，夹板前侧设有若干个夹具，夹具用于夹持触头，触头下端设有缓冲弹簧；本发明的优点在于：具有行程控制和力控两种试验加载模式，根据试样的种类和特点而选择某一种试验加载模式，功能广泛，操作简便，实现自动化、多功能疲劳试验的目的。 【EN】The invention provides a multifunctional fatigue testing machine for daily sundries, which comprises a base, wherein a sample platform and a support are arranged at the upper end of the base, a clamping plate is arranged at the upper end of the sample platform, a motor is fixedly arranged in the support, a force control sensor is arranged at the lower end of a motor screw, a clamping part is arranged on the side surface of the motor screw, a clamping device is arranged at the upper end of the clamping part, a loading rod is clamped in the clamping device, a clamping plate is arranged at the lower part of the loading rod, a plurality of clamps are arranged on the front side of the clamping plate, the clamps are used for clamping a contact; the invention has the advantages that: the fatigue test device has two test loading modes of stroke control and force control, selects a certain test loading mode according to the type and the characteristics of a sample, has wide functions, is simple and convenient to operate, and achieves the purposes of automation and multifunctional fatigue test.

摘要：【中文】本发明公开了一种机器人自动包胶系统，包括注塑机、包胶机、机器人组件以及中转站，所述注塑机与包胶机间隔设置，所述机器人组件以及中转站位于所述注塑机与包胶机之间；当进行生产时，首先由所述注塑机注塑生产注塑件，其次由所述机器人组件将所述注塑件取出并放在中转站中进行中转和调整，再由所述机器人组件将调整完成后的注塑件放入包胶机内进行包胶，在包胶完成后由顶针顶出，最后由所述机器人组件将包胶后的料件取出，放入料框内。 【EN】The invention discloses an automatic rubber coating system of a robot, which comprises an injection molding machine, a rubber coating machine, a robot assembly and a transfer station, wherein the injection molding machine and the rubber coating machine are arranged at intervals; when the injection molding machine is used for producing injection molding parts, the injection molding parts are firstly produced through injection molding through the injection molding machine, then the injection molding parts are taken out through the robot assembly and placed in a transfer station for transfer and adjustment, the adjusted injection molding parts are placed into the rubber coating machine through the robot assembly for rubber coating, the rubber coating parts are ejected out through the ejector pins after the rubber coating is completed, and finally the rubber coated parts are taken out through the robot assembly and placed into the material frame.