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    • 51. 发明授权
    • Edge profiles for vacuum insulated glass (VIG) units, and/or VIG unit including the same
    • 用于真空绝缘玻璃(VIG)单元和/或包括其的VIG单元的边缘轮廓
    • US08202587B2
    • 2012-06-19
    • US12453220
    • 2009-05-01
    • Hong Wang
    • Hong Wang
    • E06B3/00E04C2/54
    • E06B3/66304E06B3/66333E06B3/66357E06B3/677E06B2003/66338Y10T428/24479Y10T428/24777
    • Certain example embodiments of this invention relate to vacuum insulated glass (VIG) units. The VIG unit may comprise first and second substrates with inner and outer substantially planar surfaces. For either or both of the first and second substrates, when considered along a side cross-section, a portion of the inner planar surface is removed proximate to an outer edge of the glass substrate so as to form a shoulder portion. An inner surface of the shoulder portion is angled (a negative number of degrees, zero degrees, or a positive number of degrees) relative to the inner and outer planar surfaces. The shoulder portion at its smallest height is at least about 50% of the glass substrate at its largest height. A side portion of the step proximate the edge also may be angled, e.g., so that it is or is not perpendicular to the planar surfaces.
    • 本发明的某些示例性实施例涉及真空绝热玻璃(VIG)单元。 VIG单元可以包括具有内部和外部基本上平坦的表面的第一和第二基板。 对于第一和第二基板中的一个或两个,当沿着侧面横截面考虑时,内平面的一部分在玻璃基板的外边缘附近被移除以形成肩部。 肩部的内表面相对于内平面和外平面是成角度的(负数为零,零度或正数)。 其最小高度的肩部至少为其最大高度的玻璃基板的约50%。 靠近边缘的台阶的侧部也可以是倾斜的,例如使得它与垂直于平面的表面垂直。
    • 52. 发明申请
    • Method for handoff to a femtocell in a wireless communication system, and server apparatus for the same
    • 在无线通信系统中切换到毫微微小区的方法及其服务器装置
    • US20120129537A1
    • 2012-05-24
    • US13373652
    • 2011-11-23
    • Guanghai LiuJunwei RenHong WangTao Zhao
    • Guanghai LiuJunwei RenHong WangTao Zhao
    • H04W36/30H04W36/08
    • H04W36/04H04W36/0083H04W36/00837
    • A method handsoff a terminal to a femtocell in a wireless communication system. The method includes, upon generation of a request for handoff to the femtocell, selecting, by a second server, at least one femtocells located within a predetermined distance from a source base station as candidate femtocells for the handoff, according to a request of a first server which functions as a femtocell gateway, receiving, by the first server, a response message comprising information of the candidate femtocells from the second server, sending, by the first server, a message requesting measurement of a reverse signal strength of a terminal under the handoff to the candidate femtocells, determining, by the first server, a destination femtocell for the handoff among the candidate femtocells based on the measurement result reported from the candidate femtocells, and executing a handoff procedure to the destination femtocell from the source base station.
    • 在无线通信系统中将终端切换到毫微微小区的方法。 该方法包括:在产生对毫微微小区的切换请求时,根据第一服务器的请求,由第二服务器选择位于距离源基站预定距离内的至少一个毫微微小区,作为用于切换的候选毫微微小区 服务器,其用作毫微微小区网关,由第一服务器接收包括来自第二服务器的候选毫微微小区的信息的响应消息,由第一服务器发送请求测量终端下的终端的反向信号强度的消息 切换到所述候选毫微微小区,由所述第一服务器基于从所述候选毫微微小区报告的测量结果,确定所述候选毫微微小区中的切换的目的地毫微微小区,以及从所述源基站执行到所述目的地毫微微小区的切换过程。
    • 54. 发明授权
    • Method for supporting MBMS service transmission in LTE system
    • LTE系统中支持MBMS业务传输的方法
    • US08165053B2
    • 2012-04-24
    • US12220469
    • 2008-07-24
    • Lixiang XuHong WangXiaoqiang LiChunying SunYanmin Zhu
    • Lixiang XuHong WangXiaoqiang LiChunying SunYanmin Zhu
    • H04H20/71
    • H04W76/12H04W72/005H04W92/24
    • A method for supporting Multicast Broadcast Multimedia Service (MBMS) data transmission in a Long-term evolution (LTE) system includes a network entity (ECN) to which a user equipment (UE) is registered, receives an Activate MBMS context request message from the UE, and sends a Create MBMS UE Context Request message to a ECN that offers MBMS service. The ECN that offers MBMS service performs an authorization process with a Broadcast and Multicast Service Center (BM-SC) and sends a “Create MBMS UE Context Response” message to the ECN to which the UE is registered. The ECN to which the UE is registered sends an Activate MBMS Context Accept message to the UE. With the methods for supporting the transmission of MBMS data in the LTE system according to present invention, both the BM-SC and the ECN can find the downstream node so that service transmission paths may be found for MBMS data.
    • 一种用于在长期演进(LTE)系统中支持多播广播多媒体业务(MBMS)数据传输的方法包括用户设备(UE)向其注册的网络实体(ECN),从所述网络实体(UE)接收激活MBMS上下文请求消息 UE,并向提供MBMS服务的ECN发送创建MBMS UE上下文请求消息。 提供MBMS服务的ECN使用广播和组播服务中心(BM-SC)进行授权处理,并向UE注册的ECN发送“创建MBMS UE上下文响应”消息。 UE注册的ECN向UE发送激活MBMS上下文接受消息。 利用根据本发明的用于支持LTE系统中的MBMS数据传输的方法,BM-SC和ECN都可以找到下游节点,以便可以针对MBMS数据找到服务传输路径。
    • 56. 发明申请
    • CARRIAGE SEALING STRUCTURE FOR REFRIGERATOR CAR AND WORKING METHOD THEREOF
    • 用于冷藏车的运输密封结构及其工作方法
    • US20120043729A1
    • 2012-02-23
    • US13262236
    • 2009-12-30
    • Hong Wang
    • Hong Wang
    • F16J15/02B62D33/04B23P17/00
    • B62D33/048B32B3/06B32B5/18B32B2250/03B32B2266/0278B32B2307/304B65D90/08Y10T29/4998
    • A carriage sealing structure for refrigerator car is disclosed. The carriage is composed of core carriage plates provided with a heat preservation layer that is made of polyurethane. The carriage plates include a left side plate (5), a right side plate (6), a head plate (1), a soleplate (3), a front plate (4) and a backdoor plate (2). Notches are equipped at the jointed sites of the left side Plate, the right side plate, the head plate, the soleplate and the front plate, and an injection groove (7) is formed by the notches between mutually jointed carriage plates. High density polyurethane foam material is filled in the injection grooves in a high pressure so as to provide sealed connection between carriage plates. A working method for the carriage sealing structure is also disclosed. Assembled refrigerator car carriage is simple in structure and better in connection strength of the carriage plates. The structure can effectively reduce the cold air leakage or cold energy conduction of the carriage to improve the thermal insulation property of the carriage.
    • 公开了一种用于冰箱车的车厢密封结构。 托架由具有由聚氨酯制成的保温层的芯托架板组成。 滑架板包括左侧板(5),右侧板(6),头板(1),底板(3),前板(4)和后门板(2)。 在左侧板,右侧板,头板,底板和前板的连接部位设有槽口,并且在相互接合的托架板之间由凹口形成注入槽(7)。 高密度聚氨酯泡沫材料以高压填充在注入槽中,以便在托架板之间提供密封连接。 还公开了一种用于滑架密封结构的工作方法。 组装的冰箱车架结构简单,车架板的连接强度更好。 该结构可有效降低滑架的冷空气泄漏或冷能传导,提高滑架的隔热性能。
    • 57. 发明申请
    • WALL STRUCTURE OF LARGE-SIZED REFRIGERATED STORAGE AND CONSTRUCTION METHOD THEREOF
    • 大型制冷储存的壁结构及其结构方法
    • US20120031912A1
    • 2012-02-09
    • US13262242
    • 2010-03-30
    • Hong Wang
    • Hong Wang
    • B65D81/38B23P25/00
    • F25D23/065B05D7/14B23P15/00E04B2/84E04B2/8647F25D13/00F25D23/06F25D2201/126Y10T29/49885
    • A wall structure of a large-sized refrigerated storage and a construction method thereof are provided. The wall structure comprises an interior wall board (1), an exterior wall board (2) and a skeleton positioned between the interior wall board (1) and the exterior wall board (2). A polyurethane foam plastic (7) is filled between the interior wall board (1) and he exterior wall board (2). The method for construction a wall of a large-sized refrigerated storage comprises the following steps: A. building the wall skeleton; B. mounting a color steel plate on the outer surface of the skeleton to form an exterior wall board (2) of the wall; C. painting the polyurethane spraying material on the exterior wall board (2) layer by layer for multiple times, and reserving a pouring apace at a distance of 40 to 80 mm from the installation position of a interior wall board (1); and D. taking the color steel plate of the interior wall as a mould plate and pouring space at the color steel plate of the interior wall to form the interior wall board (1) of the wall. The wall structure is simple and the structural strength of light steel is high.
    • 提供了一种大型冷藏库的壁结构及其构造方法。 壁结构包括内壁板(1),外壁板(2)和位于内壁板(1)和外壁板(2)之间的骨架。 聚氨酯泡沫塑料(7)填充在内墙板(1)和外墙板(2)之间。 大型冷藏库墙体的建造方法,包括以下步骤:A.建筑墙体; B.将彩色钢板安装在骨架的外表面上以形成壁的外壁板(2); C.将聚氨酯喷涂材料逐层涂在外墙板(2)上多次,并与内壁板(1)的安装位置相距40至80mm的距离储存一个倾倒空间。 并且将内壁的彩色钢板作为模板并在内壁的彩色钢板上倾倒空间以形成壁的内壁板(1)。 壁结构简单,轻钢结构强度高。
    • 59. 发明授权
    • Detecting chemical and biological impurities by nano-structure based spectral sensing
    • 通过纳米结构的光谱感测检测化学和生物杂质
    • US08081308B2
    • 2011-12-20
    • US12643689
    • 2009-12-21
    • Hong WangXun Guo
    • Hong WangXun Guo
    • G01J3/30
    • G01J3/02G01J3/0208G01J3/021G01J3/0264G01J3/44G01N21/65
    • A method is disclosed for providing quality assurance in an industrial process. The method includes obtaining a manufacturing material from the industrial process, allowing the manufacturing material to contact with a nano-scale surface, which allows the harmful substance to adsorb to the nano-scale surface. The method also includes obtaining a Raman spectrum from the manufacturing material and the nano-scale surface using a spectrometer, searching for, using a spectral analyzer, a spectral signature of a harmful substance in a predetermined spectral region in the Raman spectrum to determine the existence of the harmful substance in the manufacturing material, determining the concentration of the manufacturing material if the spectral signature is found in the Raman spectrum, and rejecting the manufacturing material from the industrial process if the concentration of the manufacturing material is determined to be above a predetermined tolerance level.
    • 公开了一种在工业过程中提供质量保证的方法。 该方法包括从工业过程获得制造材料,允许制造材料与允许有害物质吸附到纳米级表面的纳米级表面接触。 该方法还包括使用光谱仪从制造材料和纳米级表面获得拉曼光谱,使用光谱分析仪搜索在拉曼光谱中的预定光谱区域中的有害物质的光谱特征,以确定存在 的制造材料中的有害物质,如果在拉曼光谱中发现光谱特征,则确定制造材料的浓度,并且如果将制造材料的浓度确定为高于预定值,则拒绝来自工业过程的制造材料 公差水平