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    • 32. 发明申请
    • Lateral pipe lining material and lateral pipe lining method
    • 横管内衬材料和侧管内衬法
    • US20090183794A1
    • 2009-07-23
    • US12321541
    • 2009-01-22
    • Takao KamiyamaKoji KanetaKenji Fujii
    • Takao KamiyamaKoji KanetaKenji Fujii
    • F16L55/16
    • F16L55/179
    • A lateral pipe lining material having a tubular resin-absorbing material impregnated with a thermosetting resin is inserted through a main pipe into the lateral pipe. The lateral pipe lining material is provided with a pushing-up member to push up a collar formed at its end of the lateral pipe lining material. When the lateral pipe lining material is drawn into the lateral pipe to the extent that the collar reaches an opening of the lateral pipe, the pushing-up member is lifted to bring the collar into close contact with the lateral pipe opening periphery of the main pipe. The lateral pipe lining material is then expanded and a heating medium is applied thereto to cure the resin impregnated in the tubular resin-absorbing material. The lateral pipe lining material can be drawn smoothly into the lateral pipe even when it is bent, enabling the lateral pipe to be lined with a high quality.
    • 将具有浸渍有热固性树脂的管状树脂吸收材料的侧管衬里材料通过主管插入侧管中。 侧管衬里材料设置有上推构件,以向上推动形成在其侧管衬里材料的端部处的套环。 当侧管衬里材料被拉入侧管中时,套环到达侧管的开口的程度,上推构件被提升以使套环与主管的侧管开口周边紧密接触 。 然后将侧管衬里材料膨胀,并向其施加加热介质以固化浸渍在管状树脂吸收材料中的树脂。 侧管内衬材料即使在弯曲时也能平滑地拉入侧管,能够使侧管高质量地排列。
    • 34. 发明授权
    • Apparatus for everting a lining material
    • 用于覆盖衬里材料的装置
    • US07402030B2
    • 2008-07-22
    • US11319108
    • 2005-12-27
    • Takao KamiyamaKoji KanetaKenji FujiiRyoichi Goto
    • Takao KamiyamaKoji KanetaKenji FujiiRyoichi Goto
    • B29C31/04
    • B29C63/36F16L55/1651
    • An apparatus is provided for everting a tubular pipe lining material for rehabilitating an existing pipe. The apparatus has a sealed storage container storing a rotary body around which the pipe lining material is wound in a roll. An electric motor undergoes rotation in a first rotational direction to rotate the rotary body to wind the pipe lining material on the rotary body and undergoes rotation in a second rotational direction opposite to the first rotational direction. An eversion nozzle is attached to the storage container for everting the pipe lining material. When fluid pressure is supplied into the storage container to pull the pipe lining material out from the storage container and evert it via the eversion nozzle, the electric motor is caused to rotate in the second rotational direction due to the pulling out of the pipe lining material and to function as an electric generator to brake the pullout of the pipe lining material.
    • 提供了一种用于使用于管道管道衬里材料的设备,用于修复现有管道。 该装置具有储存旋转体的密封储存容器,管内衬材料围绕该旋转体卷绕成卷。 电动机沿第一旋转方向旋转以使旋转体旋转以将管衬材料卷绕在旋转体上并在与第一旋转方向相反的第二旋转方向上进行旋转。 外壳喷嘴连接到存储容器以用于管道衬里材料。 当将流体压力供应到储存容器中以将管道衬里材料从储存容器中拉出并经由外翻喷嘴转动时,电动机由于从衬管材料的拉出而沿第二旋转方向旋转 并且用作发电机以制动管衬材料的拉出。
    • 35. 发明申请
    • Lateral pipe lining material and lateral pipe lining method using same
    • 侧管内衬材料和侧管内衬方法使用相同
    • US20080169036A1
    • 2008-07-17
    • US11653018
    • 2007-01-12
    • Takao KamiyamaKoji KanetaKenji Fujii
    • Takao KamiyamaKoji KanetaKenji Fujii
    • F16L55/18
    • F16L55/1651F16L55/179
    • A lateral pipe lining material is comprised of a tubular resin absorbing material impregnated with a setting resin and has a flange formed on one end thereof. A peeling tube is mounted to an outer periphery of an area around the flange. A tubular peeling end, one end of which closed off, is mounted to an outer peripheral part of the other end of the tubular resin absorbing material. The other end of the peeling tube is mounted to a pressure bag, compressed air is fed into the pressure bag in a state in which the flange of the lateral pipe lining material is attached to a peripheral edge of an opening of a lateral pipe of a main pipe, and the lateral pipe lining material is everted and inserted into the lateral pipe from the main pipe side toward ground level via air pressure. The lateral pipe lining material is then heated while being pressed against an inner peripheral surface of the lateral pipe. After the setting resin impregnated in the lateral pipe lining material has been cured, the peeling end is peeled away and removed from the main pipe-side.
    • 侧管衬里材料由浸渍有固化树脂的管状树脂吸收材料组成,并且在其一端上形成有凸缘。 剥离管安装在凸缘周围区域的外周。 其一端封闭的管状剥离端安装在管状树脂吸收材料的另一端的外周部分。 剥离管的另一端安装在压力袋上,压缩空气在侧管衬里材料的凸缘附接到侧管的开口的周边边缘的状态下被送入压力袋 主管,横管内衬材料经由空气压力从主管侧向地面水平插入侧管中。 然后在侧向管内衬材料被压靠在侧管的内周表面上被加热。 在浸渍在侧管衬里材料中的固化树脂已经固化之后,剥离端被剥离并从主管侧去除。
    • 37. 发明申请
    • Lateral pipe lining material and lateral pipe lining method
    • 横管内衬材料和侧管内衬法
    • US20080029177A1
    • 2008-02-07
    • US11880979
    • 2007-07-25
    • Takao KamiyamaKoji KanetaKenji Fujii
    • Takao KamiyamaKoji KanetaKenji Fujii
    • F16L9/14F16L55/16
    • F16L55/179F16L55/265
    • A lateral pipe lining material comprises a tubular resin-absorbing material impregnated with a curable resin and a brim attached at one end thereof. The lining material is positioned so that the brim faces a peripheral edge of a lateral pipe opening of the main pipe. A ring-shaped gasket composed of an elastic material is attached to an upper surface of the brim, and a bonding resin is applied thereto. The gasket seals a gap between an inner peripheral surface of the main pipe and the brim. The lateral pipe lining material is evertedly inserted into the lateral pipe in a state in which the bonding resin applied to the brim is brought into contact with the inner peripheral surface of the main pipe. In such a configuration, ground water can be prevented from seeping into the bonding resin applied to the brim even if the ground water flows into the main pipe from a break of the lateral pipe.
    • 侧管衬里材料包括浸渍有可固化树脂的管状树脂吸收材料和在其一端附着的边缘。 衬里材料定位成使得边缘面对主管的侧管开口的周边边缘。 由弹性材料构成的环状垫圈安装在边缘的上表面,并且在其上施加接合树脂。 垫片密封主管内周表面和边缘之间的间隙。 在施加到边缘的接合树脂与主管的内周面接触的状态下,侧管内衬材料被直接插入到侧管中。 在这种构造中,即使地下水从侧管断裂而流入主管,也能够防止地下水渗入施加于边缘的接合树脂。
    • 38. 发明授权
    • Method for producing an ink jet head
    • 喷墨头的制造方法
    • US07322104B2
    • 2008-01-29
    • US11157762
    • 2005-06-21
    • Shuji KoyamaShingo NagataKenji FujiiMasaki OsumiJun Yamamuro
    • Shuji KoyamaShingo NagataKenji FujiiMasaki OsumiJun Yamamuro
    • B21D53/76G01D15/00
    • B41J2/1639B41J2/1603B41J2/1626Y10T29/49083Y10T29/4913Y10T29/49135Y10T29/49153Y10T29/49401
    • An ink jet head includes a substrate having a flow path construction member constructing a plurality of discharge ports for discharging ink and a plurality of ink flow paths corresponding thereto, and a plurality of energy generating elements corresponding to the plurality of discharge ports. The substrate has an ink supply port for supplying ink to the ink flow paths. The ink supply port includes a first liquid chamber disposed on a plane on which the energy generating elements are formed, and having a grooves with island-shaped columns left, and a second liquid chamber disposed on the opposed plane, and having a plurality of through holes partitioned at positions corresponding to the island-shaped columns. In the ink jet head, the island-shaped columns and a partition wall for the through holes are left as a beam construction section, thereby improving a mechanical strength of a semiconductor substrate. Also, the first liquid chamber has a groove with island-shaped columns left, thereby enabling ink to be adequately supplied from the ink supply port to the discharge ports.
    • 喷墨头包括具有构造用于排出墨的多个排出口和与其对应的多个墨水流路的流路构造构件的基板和与多个排出口对应的多个能量产生元件。 基板具有用于向油墨流路供给油墨的供墨口。 供墨口包括设置在其上形成有能量产生元件的平面上的第一液体室,并且具有留下岛状柱的槽和设置在相对平面上的第二液体室,并且具有多个通孔 在与岛状列相对应的位置处划分的孔。 在喷墨头中,岛形柱和用于通孔的分隔壁被留作为梁结构部分,从而提高半导体基板的机械强度。 此外,第一液体室具有留下岛状柱的凹槽,从而使得墨水能够从供墨口适当地供应到排出口。
    • 40. 发明申请
    • Ink jet recording head producing method, ink jet recording head, and substrate for ink jet recording head
    • 喷墨记录头制造方法,喷墨记录头和喷墨记录头用基板
    • US20050285905A1
    • 2005-12-29
    • US11157762
    • 2005-06-21
    • Shuji KoyamaShingo NagataKenji FujiiMasaki OsumiJun Yamamuro
    • Shuji KoyamaShingo NagataKenji FujiiMasaki OsumiJun Yamamuro
    • B41J2/05B41J2/16
    • B41J2/1639B41J2/1603B41J2/1626Y10T29/49083Y10T29/4913Y10T29/49135Y10T29/49153Y10T29/49401
    • An ink jet head includes a substrate having a flow path construction member constructing a plurality of discharge ports for discharging ink and a plurality of ink flow paths corresponding thereto, and a plurality of energy generating elements corresponding to the plurality of discharge ports. The substrate has an ink supply port for supplying ink to the ink flow paths. The ink supply port includes a first liquid chamber disposed on a plane on which the energy generating elements are formed, and having a grooves with island-shaped columns left, and a second liquid chamber disposed on the opposed plane, and having a plurality of through holes partitioned at positions corresponding to the island-shaped columns. In the ink jet head, the island-shaped columns and a partition wall for the through holes are left as a beam construction section, thereby improving a mechanical strength of a semiconductor substrate. Also, the first liquid chamber has a groove with island-shaped columns left, thereby enabling ink to be adequately supplied from the ink supply port to the discharge ports.
    • 喷墨头包括具有构造用于排出墨的多个排出口和与其对应的多个墨水流路的流路构造构件的基板和与多个排出口对应的多个能量产生元件。 基板具有用于向油墨流路供给油墨的供墨口。 供墨口包括设置在其上形成有能量产生元件的平面上的第一液体室,并且具有留下岛状柱的槽和设置在相对平面上的第二液体室,并且具有多个通孔 在与岛状列相对应的位置处划分的孔。 在喷墨头中,岛形柱和用于通孔的分隔壁被留作为梁结构部分,从而提高半导体基板的机械强度。 此外,第一液体室具有留下岛状柱的凹槽,从而使得墨水能够从供墨口适当地供应到排出口。