摘要：【中文】本发明涉及一种高铁控制系统连接器，包括前锁插座及可拆卸连接前锁插座的插头，前锁插座包括前锁插座外壳、母胶芯组件、插座固定环、垫圈及螺母，母胶芯组件包括壳体及安装在壳体内部的若干个母针芯；插头包括弯头组件及可拆卸连接弯头组件的线夹组件，弯头组件包括弯头外壳及弹力部件，弹力部件安装有公胶芯部件，公胶芯部件包括第一壳体及安装在第一壳体内部的若干个公针芯；前锁插座外壳的内侧设有安装槽，弯头外壳的外侧设有匹配安装槽的卡接部。该一种高铁控制系统连接器可拆式安装设计便于安装拆卸，有效提高了使用效率；并且前锁插座及插头内部的线路无需经过旋转便可现实插头和前锁插座的安装。 【EN】The invention relates to a high-speed rail control system connector which comprises a front lock socket and a plug detachably connected with the front lock socket, wherein the front lock socket comprises a front lock socket shell, a master rubber core assembly, a socket fixing ring, a gasket and a nut; the plug comprises an elbow assembly and a wire clamp assembly detachably connected with the elbow assembly, the elbow assembly comprises an elbow shell and an elastic part, the elastic part is provided with a male rubber core part, and the male rubber core part comprises a first shell and a plurality of male needle cores arranged in the first shell; the inboard of preceding lock socket shell is equipped with the mounting groove, and the outside of elbow shell is equipped with the joint portion that matches the mounting groove. The connector of the high-speed rail control system is convenient to mount and dismount due to the detachable mounting design, and the use efficiency is effectively improved; and the installation of front lock socket and front lock socket can be realized without rotating the front lock socket and the circuit in the plug.

摘要：【中文】本发明涉及一种单兵手持电台信号传输连接器，包括前锁插座及可拆式连接前锁插座的插头，前锁插座包括插座外壳、母胶芯组件、胶芯固定部件及紧固件，插头包括弹性外壳、插头内壳、公胶芯组件、线夹及尾螺帽；胶芯固定部件安装于插座外壳内，母胶芯组件安装于插座外壳内，紧固件安装于插座外壳的外侧；插头内壳安装于弹性外壳内，公胶芯组件安装于插头内壳内，线夹安装于尾螺帽内，尾螺帽连接插头内壳；插头内壳连接插座外壳，公胶芯组件连接母胶芯组件。本发明的一种单兵手持电台信号传输连接器的母胶芯组件及公胶芯组件均为可拆卸组装设置，能够实现快速插拔及快速替换效果，有效提高了使用效率及减少了维护时间成本。 【EN】The invention relates to a signal transmission connector of a handheld radio station for an individual soldier, which comprises a front lock socket and a plug detachably connected with the front lock socket, wherein the front lock socket comprises a socket outer shell, a female rubber core component, a rubber core fixing component and a fastener; the rubber core fixing component is arranged in the socket shell, the female rubber core component is arranged in the socket shell, and the fastener is arranged on the outer side of the socket shell; the plug inner shell is arranged in the elastic outer shell, the male rubber core assembly is arranged in the plug inner shell, the wire clamp is arranged in the tail nut, and the tail nut is connected with the plug inner shell; the plug inner shell is connected with the socket outer shell, and the male rubber core assembly is connected with the female rubber core assembly. According to the signal transmission connector for the handheld radio station of the individual soldier, the female rubber core component and the male rubber core component are detachably assembled, so that the effects of quick plugging and quick replacement can be realized, the use efficiency is effectively improved, and the maintenance time cost is reduced.

摘要：【中文】本发明公开一种可植入型缓释微针贴片及其制备方法。本发明首先公开了可植入型缓释微针包括针尖、针体和基底；所述针尖包括针尖中心层和针尖外层；所述针尖中心层由包含生物可降解不溶于水的高分子材料基质形成；所述针尖外层、针体和基底由包含水溶性高分子材料基质形成。本发明还公开了上述微针的制备方法和包含上述微针的微针贴片。本发明微针或微针贴片用高分子材料制作针尖中心层，用水溶性高分子材料制作基底、针体和针尖外层，形成针尖中心层难溶于水的微针或微针贴片，作用于皮肤后，吸收皮肤的水分，使基底和针体与针尖在0.5‑2h内快速分离，基底被揭下后，针尖会被留在皮内，用药者不需长时间贴敷，就能保证药物在体内长效释放。 【EN】The invention discloses an implantable sustained-release microneedle patch and a preparation method thereof. The invention firstly discloses an implantable slow-release micro-needle, which comprises a needle point, a needle body and a substrate; the needle tip comprises a needle tip central layer and a needle tip outer layer; the needle tip central layer is formed by a biodegradable water-insoluble high polymer material matrix; the needle tip outer layer, the needle body and the base are formed by a matrix containing a water-soluble high polymer material. The invention also discloses a preparation method of the microneedle and a microneedle patch containing the microneedle. The microneedle or microneedle patch is characterized in that a microneedle central layer is made of a high polymer material, a substrate, a needle body and a microneedle outer layer are made of a water-soluble high polymer material to form the microneedle or microneedle patch, wherein the microneedle or microneedle patch is insoluble in water in the microneedle central layer, and after the microneedle or microneedle patch acts on skin, the water of the skin is absorbed, so that the substrate, the needle body and the microneedle are quickly separated within 0.5-2h, the microneedle can be remained in the skin after the substrate is removed, and a user can ensure that a medicament is released in vivo for a long time without applying for a long time.

摘要：【中文】本申请实施例公开了一种液体储氢材料储氢率的检测方法，包括以下步骤：步骤1，测定质量校正系数；步骤2，对样品加氢反应后获得的产物进行分析；步骤3，对反应物的峰面积进行校正；步骤4，计算储氢材料的储氢率；本申请所述方案引入质量校正系数，通过归一化法计算得到加氢反应各产物的质量分数，最终获得加氢反应完成率，为有机液体储氢材料加氢完成率的计算提供一种更加准确的数据处理方法。 【EN】The embodiment of the application discloses a method for detecting the hydrogen storage rate of a liquid hydrogen storage material, which comprises the following steps: step 1, measuring a mass correction coefficient; step 2, analyzing a product obtained after the hydrogenation reaction of the sample; step 3, correcting the peak area of the reactant; step 4, calculating the hydrogen storage rate of the hydrogen storage material; according to the scheme, the mass correction coefficient is introduced, the mass fraction of each product of the hydrogenation reaction is calculated through a normalization method, the hydrogenation reaction completion rate is finally obtained, and a more accurate data processing method is provided for the calculation of the hydrogenation completion rate of the organic liquid hydrogen storage material.

摘要：【中文】本发明公开了一种基于无相位近场测量的天线辐射特性获取方法，首先，在距离待测天线不远处的近场区，获取闭合曲面上所有采样点的电场幅度信息，接着，通过球面波展开理论，建立起近场区某一球面上电场分布和测量面上幅度数据的两种非线性关系；最后，利用遗传算法“猜测”出近场区目标球面上的电场分布；当算法停止迭代优化时，该待猜测的球面切向电场分布将基本接近理想结果，此时利用球面波模式展开理论计算出待优化球面上的加权系数，通过球面近远场变换求得远场；本发明提供了一种适应于各类规格天线测量技术。 【EN】The invention discloses an antenna radiation characteristic obtaining method based on phase-free near-field measurement, which comprises the steps of firstly, obtaining electric field amplitude information of all sampling points on a closed curved surface in a near-field area which is not far away from an antenna to be measured, and then establishing two nonlinear relations of electric field distribution on a spherical surface of the near-field area and amplitude data on a measuring surface through a spherical wave expansion theory; finally, the electric field distribution on the target spherical surface of the near field region is 'guessed' by utilizing a genetic algorithm; when the algorithm stops iterative optimization, the tangential electric field distribution of the spherical surface to be guessed is basically close to an ideal result, at the moment, the weighting coefficient on the spherical surface to be optimized is calculated by utilizing a spherical wave mode expansion theory, and the far field is obtained through the near-far field transformation of the spherical surface; the invention provides a measuring technology suitable for antennas of various specifications.

摘要：【中文】本发明提供一种遥感卫星任务规划能源的动态分配方法，该方法具体包括如下步骤：依据卫星N轨道每轨平均开机时间，卫星在每轨上的预规划开机时间，判断是否需进行能源动态分配，如果需要，则选择剩余冗余能源最多且圈号最小的轨道Orb_Tmax，和待测绘目标数最多且圈号最大的轨道Orb_Nmax；计算出Orb_Tmax轨道中的剩余冗余能源需要分配给Orb_Nmax的量，并按量分配；当具有剩余冗余能源的轨道中的剩余冗余能源为0，或当具有待测绘目标数的轨道的待测绘目标数均为0，则停止能源分配，否则进入新的一轮能源分配；并重新规划卫星的每轨开机时间。本发明充分高效利用了卫星能源，且提高了卫星成像测绘效率。 【EN】The invention provides a dynamic allocation method of remote sensing satellite mission planning energy, which specifically comprises the following steps: judging whether energy dynamic allocation is needed or not according to the average startup time of each orbit of the N orbits of the satellite and the pre-planned startup time of the satellite on each orbit, and if so, selecting the orbit Orb with the most residual redundant energy and the smallest circle number_TmaxAnd the track Orb with the largest number of drawing targets to be detected and the largest circle number_Nmax(ii) a Calculate Orb_TmaxThe remaining redundant energy in the track needs to be allocated to Orb_NmaxAnd apportioned by amount; when the residual redundant energy in the track with the residual redundant energy is 0 or the number of the to-be-detected drawing targets of the track with the number of to-be-detected drawing targets is 0, stopping energy distribution, or else, entering a new round of energy distribution; and re-schedule the turn-on time per orbit for the satellite. The invention fully and efficiently utilizes the satellite energy and improves the satellite imaging mapping efficiency.

摘要：【中文】本发明提供一种卫星星座组网同轨道面扩容重构的控制方法，该方法首选确定卫星星座轨道优化决策变量；确定卫星星座优化决策变量约束条件；确定卫星星座扩容重构的目标函数；确定卫星星座扩容重构控制的燃料消耗评价函数；在利用基于多目标优化NSGA‑II算法，确定卫星星座单星目标相位，从而得到扩容重构后的卫星星座中每颗卫星的目标相位；确定控制脉冲和脉冲时刻，并在脉冲时刻利用控制脉冲将卫星调整到相应的目标相位。本发明进一步提高了卫星星座系统对目标区域的重访覆盖性能。 【EN】The invention provides a satellite constellation networking same-orbit surface capacity expansion reconstruction control method, which firstly determines a satellite constellation orbit optimization decision variable; determining satellite constellation optimization decision variable constraint conditions; determining a target function of satellite constellation capacity expansion reconstruction; determining a fuel consumption evaluation function of satellite constellation capacity expansion reconstruction control; determining a satellite constellation single-satellite target phase by using a multi-objective optimization-based NSGA-II algorithm, thereby obtaining a target phase of each satellite in the satellite constellation after capacity expansion reconstruction; a control pulse and a pulse time are determined, and the satellite is adjusted to the corresponding target phase at the pulse time using the control pulse. The invention further improves the revisit coverage performance of the satellite constellation system to the target area.

摘要：【中文】本发明公开了一种基于方向回溯天线的波束自跟踪全双工通信系统及方法，系统主要包括收发天线、接收电路和共轭发射电路。其中接收电路主要由Costas环结构来实现。共轭发射电路采用超外差混频结构对恢复的载波进行相位共轭，达到自跟踪性能，从而实现方向回溯。本发明无需预先知道来波信号的发射方向，通过提取出来波信号的空间相位信息，然后经过相位共轭处理将空间相位反相，将回波信号重新发射到来波方向上，实现通信链路的自动对准。接收电路由Costas环结构构成，不仅能够实现空间相位同步的载波提取，也能够对来波信号进行解调，提取原始基带信号，解码出原始二进制码元。本发明比传统的锁相环电路实现相位共轭功能更为简单，无需额外的信号解调电路。 【EN】The invention discloses a beam self-tracking full-duplex communication system and method based on a direction backtracking antenna. Wherein the receiving circuit is mainly implemented by a Costas loop structure. The conjugate transmitting circuit adopts a superheterodyne mixing structure to carry out phase conjugation on the recovered carrier, so that the self-tracking performance is achieved, and the direction backtracking is realized. The invention does not need to know the transmitting direction of the incoming wave signal in advance, and realizes the automatic alignment of the communication link by extracting the spatial phase information of the incoming wave signal, then inverting the spatial phase through phase conjugation processing and retransmitting the echo signal to the incoming wave direction. The receiving circuit is composed of a Costas ring structure, not only can realize the carrier extraction of space phase synchronization, but also can demodulate an incoming wave signal, extract an original baseband signal and decode an original binary code element. Compared with the traditional phase-locked loop circuit, the phase conjugation function is simpler to realize, and an additional signal demodulation circuit is not needed.

摘要：【中文】一种动力吊卡及其控制方法，其中动力吊卡包括吊卡本体和动力装置；吊卡本体包括吊卡主体、左活门、右活门、内衬、锁闩和保险机构，于吊卡主体的两端分别活动连接左活门和右活门，于吊卡主体、左活门和右活门的内侧设置内衬，于左活门上活动连接锁闩，于右活门上设置可活动的保险机构；动力装置包括动力单元、控制阀、活门驱动缸、锁闩驱动缸和动力连杆机构，动力单元通过管线和控制阀连接，控制阀分别和活门驱动缸和锁闩驱动缸连接，活门驱动缸通过动力连杆机构分别和左活门和右活门连接，锁闩驱动缸通过动力连杆机构和锁闩连接。该吊卡将动力装置集成在动力吊卡本体内部，减少液压管线连接，降低能耗，并可实现吊卡的自动化控制，提高作业效率。 【EN】A power elevator and a control method thereof, wherein the power elevator comprises an elevator body and a power device; the elevator body comprises an elevator main body, a left valve, a right valve, a lining, a lock latch and a safety mechanism, wherein the left valve and the right valve are respectively and movably connected with the two ends of the elevator main body; the power device comprises a power unit, a control valve, a valve driving cylinder, a latch driving cylinder and a power link mechanism, wherein the power unit is connected with the control valve through a pipeline, the control valve is respectively connected with the valve driving cylinder and the latch driving cylinder, the valve driving cylinder is respectively connected with a left valve and a right valve through the power link mechanism, and the latch driving cylinder is connected with the latch through the power link mechanism. The elevator integrates the power device inside the power elevator body, reduces hydraulic pipeline connection, reduces energy consumption, can realize automatic control of the elevator, and improves operation efficiency.

摘要：【中文】本发明公开了一种利用离子液体对液态有机储氢材料脱氢的方法，方法的创新点在于以离子液态作为溶剂与过渡金属催化混合进行有机液态储氢材料的脱氢过程，由于是均相反应，离子液体对液态储氢材料和催化剂溶解度高，有利于提高反应活性，降低反应温度，且有利于催化剂和产物的分离。 【EN】The invention discloses a method for dehydrogenating a liquid organic hydrogen storage material by using an ionic liquid, which has the innovation point that the ionic liquid is taken as a solvent to be catalytically mixed with a transition metal to carry out the dehydrogenation process of the organic liquid hydrogen storage material.