会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明公开
    • 물체 표면에서 다방향으로 유동을 발생시킬 수 있는액츄에이터
    • 执行器在物体表面多个方向产生流量
    • KR1020020024365A
    • 2002-03-30
    • KR1020000056093
    • 2000-09-25
    • 학교법인 포항공과대학교
    • 김용환전중환
    • B64C13/00
    • F15D1/0065B06B1/0696B62D37/02B64C23/005B64C2230/04F15D1/12
    • PURPOSE: An actuator generating a flow in multiple directions on the surface of an object is provided to generate flows near the upper face of a cantilever driving unit by repeating the suction and discharge of a fluid via the cantilever driving unit and to restrain the occurrence of a wake flow. CONSTITUTION: An actuator generating a flow in multiple directions on the surface of an object includes a case(10) having a cavity to store a fluid and at least two of cantilever driving units(20) installed on one end of the case to suck and discharge the fluid through the gap between rear ends by the free vibration of a free end. The cantilever driving unit consists of a vibrating plate, a piezoelectric deformation unit, and a power supply unit. If the cantilever driving unit moves outward, a gap closed by the case and the cantilever driving unit is expanded. If the cantilever driving unit moves inward, the gap is reduced. An external fluid is absorbed by outward moving the cantilever driving unit, and is discharged by inward moving the cantilever driving unit. Therefore, a flow is generated on the upper portion of the cantilever driving units.
    • 目的:提供一种在物体表面上沿多个方向产生流动的致动器,通过经由悬臂驱动单元重复进行流体的吸入和排出,以产生靠近悬臂驱动单元的上表面的流动,并且抑制 唤醒流。 构成:在物体表面上沿多个方向产生流动的致动器包括具有腔体以存储流体的壳体(10)和安装在壳体的一端上的悬臂驱动单元(20)中的至少两个以吸收和 通过自由端的自由振动将流体排出后端之间的间隙。 悬臂驱动单元由振动板,压电变形单元和电源单元组成。 如果悬臂驱动单元向外移动,则由壳体和悬臂驱动单元封闭的间隙扩大。 如果悬臂驱动单元向内移动,则间隙减小。 通过向外移动悬臂驱动单元吸收外部流体,并通过向内移动悬臂驱动单元而排出外部流体。 因此,在悬臂驱动部的上部产生流动。
    • 4. 发明公开
    • 3가지 관련 기능을 가진 전자 컴포넌트
    • 具有三个相关功能的电子元件
    • KR1020100063711A
    • 2010-06-11
    • KR1020107005006
    • 2008-03-03
    • 피씨 제스띠옹 에스.아.에스.
    • 빼리숑끌로드아니기리프랑스와부엔디아호세삐까뤼가피에르
    • H04R17/00H04R1/02H04R3/04
    • B64C23/005B64C2230/12F15D1/06F15D1/12Y02T50/166
    • Electronic component which modifies, by electronic re-equilibration, mechanical efficiencies, audio-visual effects, and food products. The electronic component eCRT is a regulator which, like entropy, regulates the exchanges of natural equilibrium of the information of electro-magnetic charges with electronic charges. This equilibrium is to naturally clean the air and the excess of magnetic charges around apparatus or in inert products that have accumulated non-useful electrons which are then absorbed, attracted captured by the trap of the metallic components. Nanotechnology makes it possible to see the migration of the magnetic fields converted into electric current whose piezo is fed in order to vibrate. These functions are all natural but, associated together, they create novel functions specific to this method. This vision of nano-technology makes it possible to solve, on a large scale, invisible solutions, through a vision of suitable scale. The application to sound in ambient space of the eCRT electronic component is the supreme demonstration of the audio magnetic loss captured by the piezo-electricity eCRT which captures the magnetic field instantaneously and transforms the magnetic information into electric current, according to the audio modulation. This audio electrical modulation by the thirst, the transience of the piezoelectricity is transformed into audible mechanical motion of the sound lost initially by the coil.
    • 通过电子重新平衡来改变机械效率,视听效果和食品的电子元件。 电子元件eCRT是一种调节器,像熵一样,调节电子电荷信息与电子电荷的自然平衡交换。 这种平衡是自然地清洁装置周围的空气和过量的磁荷,或者在积累非有用电子的惰性产物中吸收过量的磁性电荷,这些电子被金属部件的陷阱捕获。 纳米技术使得可以看到转换成电压的磁场的迁移,其压电被馈送以便振动。 这些功能都是自然的,但是它们相关联,它们创建了特定于该方法的新颖功能。 纳米技术的这一愿景使得可以通过适当规模的愿景大规模解决隐形解决方案。 eCRT电子部件的环境空间中的声音应用是压电eCRT捕​​获的音频磁损耗的最高演示,该eCRT根据音频调制立即捕获磁场并将磁信息转换成电流。 这种通过口渴的音频电调制,压电的瞬变转化为由线圈最初损失的声音的可听见的机械运动。
    • 5. 发明公开
    • 공기 역학적 효과의 경계층을 감소시키는 장치 및 방법
    • 减少空气动力学效应的边界层
    • KR1020100061468A
    • 2010-06-07
    • KR1020107005133
    • 2007-08-08
    • 피씨 제스띠옹 에스.아.에스.
    • 기리프랑스와빼리숑끌로드아니삐까뤼가피에르부엔디아호세
    • F15D1/12B64C21/00B64C23/00B82Y40/00
    • B64C23/005B64C2230/12F15D1/06F15D1/12Y02T50/166
    • Aerodynamic effects are found when air flows over objects such as aircraft and motor cars moving through ambient air. The flow of air through the objects involves issues concerned with aerodynamics. Forced circulation of air through pipes presents numerous problems of aerodynamics because of the variable behavioural modes of operation generally in subsonic mode. Opposing forces then come into play and throttle the flows, thus reducing the effectiveness of a given diameter or cross section under particularly critical conditions in the flow of gases, generally air. The flow of gases or liquids close to the walls is slowed and opposes the overall flow, creating differential flow gradients between the centre of the flow and the peripheral edges thereof. This electronic component known as an eCRT ''electron convector real time'' which is made up of a very fine mixture of various silica powders to which there are added metal powders, for example titanium powder, aluminium powder, these being added in very precise ratios by those skilled in the art, attracts the electrons and converts them into a vibrational mechanical mode simply through electronic affinity which attracts, transforms and directs the energy of the electrons. The method and devices of this patent can be used to correct and regulate all agitated electrons and free ions, also involved in moving fluids and gases, which devices can be used in the mechanical, aeronautical, space and marine industries and in the field of computers, food stuffs and also the sphere of medicine.
    • 当空气流过诸如飞机和汽车的物体移动通过环境空气时,会发现空气动力学效应。 通过物体的空气流动涉及与空气动力学有关的问题。 由于通常在亚音速模式下运行的可变行为模式,空气通过管道的强制循环呈现出空气动力学的许多问题。 然后相反的力量起作用并节流流动,从而在气体(通常为空气)流动的特别关键条件下降低给定直径或横截面的有效性。 靠近墙壁的气体或液体的流动减慢,并且与整个流动相反,从而在流动中心与其周边边缘之间产生不同的流量梯度。 这种被称为eCRT“电子对流器实时”的电子部件,其由各种二氧化硅粉末的非常精细的混合物组成,其中添加了金属粉末,例如钛粉末,铝粉末,这些添加在非常精确的 本领域技术人员的比例吸引电子,并且通过吸引,转换和引导电子的能量的电子亲和力简单地将它们转换成振动机械模式。 该专利的方法和装置可用于校正和调节所有搅动的电子和游离离子,也涉及移动流体和气体,这些装置可用于机械,航空,太空和海洋工业以及计算机领域 食物和药物领域。