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    • 2. 发明申请
    • WATER-BORNE PRIMER COATING COMPOSITION AND METHOD OF FORMING COATING FILM
    • 水性底漆涂料组合物和形成涂膜的方法
    • US20080032055A1
    • 2008-02-07
    • US11830462
    • 2007-07-30
    • Takeshi OGAWATakanori HASHIMOTOEmi NOMIYutaro KAWASAKIYoshihiko SAITO
    • Takeshi OGAWATakanori HASHIMOTOEmi NOMIYutaro KAWASAKIYoshihiko SAITO
    • B05D1/36C09K3/00
    • C09D5/002C08F255/02C08L23/025C08L51/06C08L63/00C08L75/04C09D133/06C08L2666/02C08L2666/04C08L2666/14
    • It is an object of the present invention to provide a water-borne primer coating composition using a polyolefin resin not containing chlorine, which can achieve an adhesion property to a substrate and gasohol resistance simultaneously and can achieve the inhibition of peeling of a multilayer coating film in washing a car by high pressure cleaning and moisture resistance simultaneously. A water-borne primer coating composition including a water-borne non-chlorinated polyolefin resin (A), a water-borne polyurethane resin (B), a water-borne epoxy resin (C) and an internally crosslinked acrylic particle emulsion (D), wherein the content of said resin (A) is 15 to 60% by weight, the content of said resin (B) is 10 to 50% by weight, the content of said resin (C) is 20 to 50% by weight, and the content of said emulsion (D) is 5 to 20% by weight on the solid equivalent basis in 100% by weight of the total amount of said resin (A), resin (B), resin (C) and emulsion (D), and said resin (A) is a water-borne polypropylene resin having crystallinity of 35 to 55% and a weight average molecular weight of 50000 to 200000.
    • 本发明的目的是提供一种使用不含氯的聚烯烃树脂的水性底漆涂料组合物,其能够同时实现与基材的粘附性和耐醇基性,并且可以实现多层涂膜的剥离抑制 同时在高压清洗和耐湿性下洗车。 包含水性非氯化聚烯烃树脂(A),水性聚氨酯树脂(B),水性环氧树脂(C)和内部交联的丙烯酸类颗粒乳液(D)的水性底漆涂料组合物, 其中,所述树脂(A)的含量为15〜60重量%,所述树脂(B)的含量为10〜50重量%,所述树脂(C)的含量为20〜50重量% 所述乳液(D)的含量相对于所述树脂(A),树脂(B),树脂(C)和乳液(D)的总量的100重量%,以固体当量计为5〜20重量% ),所述树脂(A)是结晶度为35〜55%,重均分子量为50000〜200000的水性聚丙烯树脂。
    • 3. 发明申请
    • Wireless communication apparatus and communication method thereof
    • 无线通信装置及其通信方法
    • US20060114865A1
    • 2006-06-01
    • US11268594
    • 2005-11-08
    • Takanori HashimotoTeruaki Uehara
    • Takanori HashimotoTeruaki Uehara
    • H04Q7/24
    • H04W88/10H04W28/26H04W48/02H04W48/12H04W74/08
    • An AP allows a CTS generator provided within a control unit to generate a self-destined, e.g., IEEE802.11b standard-based CTS signal containing a duration time corresponding to each standard. Then, the AP notifies to each STA operated based on the 11b standard in a basic service set, that it is being ready for transmission due to the transmission of the CTS signal, thereby to prohibit the operation of the corresponding STA. Further, the AP transmits a beacon based on an IEEE802.11g standard to thereby set a condition based on this standard and is caused to perform transmission/reception to and from the corresponding STA alone over the duration time indicated by the 11b standard. In a reverse case, the AP transmits a CTS signal containing a self-destined duration time under the IEEE802.11g standard to prohibit the operation of the corresponding STA based on the 11g standard. Further, the AP transmits a beacon based on the 11b standard to thereby set a condition based on this standard and is caused to perform transmission/reception to and from the corresponding station alone over the duration time indicated by the 11g standard.
    • AP允许提供在控制单元内的CTS发生器产生自发目的地,例如基于IEEE802.11b标准的CTS信号,其包含对应于每个标准的持续时间。 然后,AP通过基本服务集中的11b标准对所运行的每个STA通知由于CTS信号的发送而正在准备发送,从而禁止对应的STA的操作。 此外,AP基于IEEE802.11g标准发送信标,从而基于该标准设置条件,并且在由11b标准指示的持续时间内单独对对应的STA进行发送/接收。 在相反的情况下,AP根据IEEE802.11g标准发送包含自发目的地持续时间的CTS信号,以基于11g标准禁止对应的STA的操作。 此外,AP基于11b标准发送信标,从而基于该标准设置条件,并且在由11g标准指示的持续时间内单独执行与相应站的发送/接收。
    • 6. 发明授权
    • Wireless communication apparatus and communication method thereof
    • 无线通信装置及其通信方法
    • US07468971B2
    • 2008-12-23
    • US11268594
    • 2005-11-08
    • Takanori HashimotoTeruaki Uehara
    • Takanori HashimotoTeruaki Uehara
    • H04Q7/24
    • H04W88/10H04W28/26H04W48/02H04W48/12H04W74/08
    • An AP allows a CTS generator provided within a control unit to generate a self-destined, e.g., IEEE802.11b standard-based CTS signal containing a duration time corresponding to each standard. Then, the AP notifies to each STA operated based on the 11b standard in a basic service set, that it is being ready for transmission due to the transmission of the CTS signal, thereby to prohibit the operation of the corresponding STA. Further, the AP transmits a beacon based on an IEEE802.11g standard to thereby set a condition based on this standard and is caused to perform transmission/reception to and from the corresponding STA alone over the duration time indicated by the 11b standard. In a reverse case, the AP transmits a CTS signal containing a self-destined duration time under the IEEE802.11g standard to prohibit the operation of the corresponding STA based on the 11g standard. Further, the AP transmits a beacon based on the 11b standard to thereby set a condition based on this standard and is caused to perform transmission/reception to and from the corresponding station alone over the duration time indicated by the 11g standard.
    • AP允许提供在控制单元内的CTS发生器产生自发目的地,例如基于IEEE802.11b标准的CTS信号,其包含对应于每个标准的持续时间。 然后,AP通过基本服务集中的11b标准对所运行的每个STA通知由于CTS信号的发送而正在准备发送,从而禁止对应的STA的操作。 此外,AP基于IEEE802.11g标准发送信标,从而基于该标准设置条件,并且在由11b标准指示的持续时间内单独对对应的STA进行发送/接收。 在相反的情况下,AP根据IEEE802.11g标准发送包含自发目的地持续时间的CTS信号,以基于11g标准禁止对应的STA的操作。 此外,AP基于11b标准发送信标,从而基于该标准设置条件,并且在由11g标准指示的持续时间内单独执行与相应站的发送/接收。
    • 7. 发明授权
    • Receiving apparatus
    • 接收装置
    • US07885241B2
    • 2011-02-08
    • US11938915
    • 2007-11-13
    • Takanori Hashimoto
    • Takanori Hashimoto
    • H04J3/00
    • H04J3/0608
    • LCCH steal receiving is done by a receiving unit which uses TDMA method without overloading to the control processor. A UW detecting unit 10 for detecting a UW by setting a UW expected value for control channel according to a timing signal TM3 from a LCCH timing unit 30, a frame timing unit 20 for outputting a frame timing signal TM1 of the frame according to a UW detecting signal DET, the LCCH timing unit 30 for outputting a timing signal TM3 for the UW detecting unit 10 and a timing signal TM5 for a PLL control unit 40 by counting the timing signal TM1, and the PLL control unit 40 for selecting and outputting a channel setting signal CH for a PLL2 according to the timing signal TM5 are all configured by hardware circuits. By the above configuration, the LCCH steal receiving becomes possible without software operations of the receiving units.
    • LCCH窃取接收由使用TDMA方式的接收单元完成,而不会超载到控制处理器。 UW检测单元10,用于根据来自LCCH定时单元30的定时信号TM3设置用于控制信道的UW期望值来检测UW;帧定时单元20,用于根据UW输出帧的帧定时信号TM1 检测信号DET,用于输出用于UW检测单元10的定时信号TM3的LCCH定时单元30和通过对定时信号TM1进行计数的PLL控制单元40的定时信号TM5以及用于选择和输出 根据定时信号TM5的PLL2的通道设置信号CH都由硬件电路配置。 通过上述配置,在没有接收单元的软件操作的情况下,LCCH窃取接收成为可能。
    • 8. 发明申请
    • METHOD FOR FORMING BRIGHT COATING FILM
    • 形成明亮涂膜的方法
    • US20090041943A1
    • 2009-02-12
    • US12188391
    • 2008-08-08
    • Takeshi OGAWATakanori HASHIMOTOEmi NOMIYutaro KAWASAKIYoshihiko SAITO
    • Takeshi OGAWATakanori HASHIMOTOEmi NOMIYutaro KAWASAKIYoshihiko SAITO
    • B05D3/02
    • B05D7/572B05D2451/00B05D2401/20
    • A method for forming a bright coating film includes: (1) applying a water-based primer coating material composition to a substrate to form a water-based primer coating film; (2) applying a water-based bright coating material (i) to the water-based primer coating film to form a first base coating film; (3) applying a water-based bright coating material (ii) to the first base coating film to form a second base coating film; (4) applying a high-solid clear coating material to the second base coating film to form a clear coating film; and (5) heat-curing the water-based primer coating film, the first base coating film, the second base coating film, and the clear coating film simultaneously to form a cured coating film, wherein the water-based primer coating material composition includes a water-based non-chlorinated polyolefin resin (A), a water-based polyurethane resin (B), a water-based epoxy resin (C), and an internally crosslinked acrylic particle emulsion (D), and an emulsifier.
    • 形成光亮涂膜的方法包括:(1)将水性底漆涂料组合物涂布在基材上以形成水性底漆涂膜; (2)向水性底漆涂布水性光亮涂料(i),形成第一基底涂膜; (3)将水性光亮涂料(ii)施加到第一基底涂膜上以形成第二基底涂膜; (4)将高固体透明涂料施加到第二基底涂膜以形成透明涂膜; 和(5)同时对水性底漆,第一基底涂膜,第二基底涂膜和透明涂膜进行热固化以形成固化涂膜,其中水性底漆涂料组合物包括 水性非氯化聚烯烃树脂(A),水性聚氨酯树脂(B),水性环氧树脂(C)和内部交联的丙烯酸类颗粒乳液(D),以及乳化剂。
    • 9. 发明申请
    • RECEIVING APPARATUS
    • 接收装置
    • US20080253338A1
    • 2008-10-16
    • US11938915
    • 2007-11-13
    • Takanori HASHIMOTO
    • Takanori HASHIMOTO
    • H04J3/06H04B7/212
    • H04J3/0608
    • LCCH steal receiving is done by a receiving unit which uses TDMA method without overloading to the control processor. A UW detecting unit 10 for detecting a UW by setting a UW expected value for control channel according to a timing signal TM3 from a LCCH timing unit 30, a frame timing unit 20 for outputting a frame timing signal TM1 of the frame according to a UW detecting signal DET, the LCCH timing unit 30 for outputting a timing signal TM3 for the UW detecting unit 10 and a timing signal TM5 for a PLL control unit 40 by counting the timing signal TM1, and the PLL control unit 40 for selecting and outputting a channel setting signal CH for a PLL2 according to the timing signal TM5 are all configured by hardware circuits. By the above configuration, the LCCH steal receiving becomes possible without software operations of the receiving units.
    • LCCH窃取接收由使用TDMA方式的接收单元完成,而不会超载到控制处理器。 UW检测单元10,用于通过根据来自LCCH定时单元30的定时信号TM3设置控制信道的UW期望值来检测UW;帧定时单元20,用于根据帧定时单元20输​​出帧的帧定时信号TM1 UW检测信号DET,用于输出UW检测单元10的定时信号TM3的LCCH定时单元30和通过对定时信号TM 1进行计数的PLL控制单元40的定时信号TM5以及PLL控制单元40 根据定时信号TM5选择和输出PLL2的通道设置信号CH都由硬件电路配置。 通过上述配置,在没有接收单元的软件操作的情况下,LCCH窃取接收成为可能。