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    • 1. 发明授权
    • Apparatus for separating solid material from cooling water in a marine
engine block
    • 用于将固体材料与船用发动机缸体中的冷却水分离的装置
    • US5664526A
    • 1997-09-09
    • US521748
    • 1995-08-31
    • Andrew K. LoganMatthew W. JaegerTerry D. AxtonWilliam E. HughesDavid J. Gruenwald
    • Andrew K. LoganMatthew W. JaegerTerry D. AxtonWilliam E. HughesDavid J. Gruenwald
    • F01P11/06F01P11/02
    • F01P11/06F01P2011/063
    • An apparatus for separating solid material from cooling water in the cooling system of the engine block of a marine engine. The engine block comprises a plurality of cylinder bores surrounded by a cooling passage through which cooling water is pumped. The bottom portion of the block includes a drain outlet that communicates with the cooling passage and a tubular separating member has a first generally horizontal section that is sealed within the drain outlet. The tubular separator also includes a second section that is located within the cooling passage and extends downwardly from the inner end of the first section and is located between two adjacent cylinder bores. The lower end of the second section is closed and a port is provided in the side of the second section adjacent the closed end and facing toward one of the cylinder bores. The outer end of the first section of the tubular member, which is located on the exterior of the block, is connected through a suitable hose or conduit to an automatic drain valve which is located at a level beneath the engine block. When the ambient temperature falls beneath a selected value, the drain valve will open and water will drain from the engine block through the tubular separator to the drain valve, while solid debris will collect in the bottom of the cooling passage beneath the level of the port to prevent the debris from contacting the temperature responsive valve.
    • 一种用于在船用发动机的发动机缸体的冷却系统中将固体材料与冷却水分离的装置。 发动机缸体包括由冷却通道围绕的多个气缸孔,冷却水通过该冷却通道被泵送。 块的底部包括与冷却通道连通的排水出口,管状分离构件具有密封在排水出口内的第一大致水平的部分。 管状分离器还包括第二部分,其位于冷却通道内并且从第一部分的内端向下延伸并且位于两个相邻的气缸孔之间。 第二部分的下端被封闭,并且在靠近封闭端的第二部分的侧面设置一个端口并面对气缸孔中的一个。 管状构件的位于块体外部的第一部分的外端通过合适的软管或管道连接到位于发动机缸体下方的自动排水阀。 当环境温度低于选定值时,排水阀将打开,水将从发动机缸体通过管状分离器排放到排放阀,同时固体碎屑会收集在冷却通道的底部, 以防止碎屑接触温度响应阀。
    • 3. 发明授权
    • Drain valve for a marine engine
    • 船用发动机排水阀
    • US5628285A
    • 1997-05-13
    • US521746
    • 1995-08-31
    • Andrew K. LoganMatthew W. JaegerTerry D. AxtonWilliam E. HughesDavid J. GruenwaldJames E. Erickson
    • Andrew K. LoganMatthew W. JaegerTerry D. AxtonWilliam E. HughesDavid J. GruenwaldJames E. Erickson
    • F01P11/02
    • F01P11/0276F01P2025/08F01P2050/04F01P2050/10Y10T137/1353
    • A drain valve assembly for automatically draining water from a cooling system of an inboard marine engine when the ambient temperature drops to a preselected value. The drain valve includes a cup-shaped base having a group of inlets connected to portions of a cooling system of the engine to be drained, and the open end of the base is enclosed by a cover. Each inlet defines a valve seat and a sealing piston is mounted for movement in the base and includes a series of valve members that are adapted to engage the valve seats. An outlet is provided in the sidewall of the cup-shaped base. The valve members on the sealing piston are biased to a closed position by a coil spring and a temperature responsive element interconnects the sealing piston with the cover. The temperature responsive element is characterized by the ability to exert a force in excess of the spring force of the coil spring when the ambient temperature is above about 50.degree. F., to thereby maintain the valve members in the closed position. When the temperature falls below the selected temperature, the temperature responsive element will retract, thereby permitting the valve members to be opened under the influence of the spring to automatically drain water from the cooling system of the engine.
    • 排水阀组件,用于当环境温度下降到预选值时,自动从内侧船用发动机的冷却系统排出水。 排水阀包括杯形基座,其具有连接到待排放的发动机的冷却系统的一部分的入口组,并且基座的开口端由盖包围。 每个入口限定阀座,并且安装密封活塞用于在基座中移动,并且包括适于接合阀座的一系列阀构件。 出口设在杯形底座的侧壁中。 密封活塞上的阀构件通过螺旋弹簧偏压到关闭位置,并且温度响应元件将密封活塞与盖相互连接。 温度响应元件的特征在于当环境温度高于约50°F时施加超过螺旋弹簧的弹簧力的能力,从而将阀构件保持在关闭位置。 当温度低于所选择的温度时,温度响应元件将缩回,从而允许阀构件在弹簧的影响下打开以自动从发动机的冷却系统排出水。
    • 5. 发明授权
    • Engine cooling system with simplified drain and flushing procedure
    • 发动机冷却系统,具有简化的排水和冲洗程序
    • US6089934A
    • 2000-07-18
    • US361370
    • 1999-07-26
    • Timothy M. BiggsWilliam E. HughesMatthew W. JaegerAndrew K. LoganRobert J. PitchfordCharles E. Wright
    • Timothy M. BiggsWilliam E. HughesMatthew W. JaegerAndrew K. LoganRobert J. PitchfordCharles E. Wright
    • B63H21/10F01P3/20F01P11/02F01P11/06
    • F01P11/06B63H21/10F01P11/0276F01P2011/065F01P3/205
    • An engine cooling system is provided with one or more flexible conduits attached to drain openings of the engine and its related components. First ends of the conduits are attached to the drain openings while the second ends are sealed by studs attached to a plate of a stationary bracket. A retainer is slidably associated with the flexible conduits and attached to a tether which is, in turn, attached to a handle. By manipulating the handle, the tether forces the retainer to slide along the flexible conduits and control the position of second ends of the flexible conduits. This allows the system to be moved from a first position with the second ends of the conduits above the first ends of the conduits to a second position with the second ends of the conduits below the first ends and in the bilge of the boat. The system allows an operator to stand in a single location and move the drain system from the first and second position and back again without having to reach down into the engine compartment to remove drain plugs. The system allows the cooling system to be easily drained or flushed.
    • 发动机冷却系统设置有一个或多个连接到发动机的排放开口及其相关部件的柔性管道。 导管的第一端连接到排水口,而第二端由附接到固定支架的板的螺柱密封。 保持器可滑动地与柔性管道相关联并且附接到系绳,其又连接到手柄。 通过操纵手柄,系绳迫使保持器沿着柔性导管滑动并控制柔性导管的第二端的位置。 这允许系统从第一位置移动管道的第二端在导管的第一端上方到第二位置,其中管道的第二端在第一端的下方和船的舱底中。 该系统允许操作者站在单个位置并且将排水系统从第一和第二位置移回并且再次返回,而不必向下进入发动机舱以移除排水塞。 该系统允许冷却系统容易排水或冲洗。
    • 6. 发明授权
    • Flushing system for a marine propulsion engine
    • 用于船用推进发动机的冲洗系统
    • US5980342A
    • 1999-11-09
    • US165144
    • 1998-10-01
    • Andrew K. LoganMatthew W. JaegerJames E. SharpLawrence C. BibowWilliam E. Hughes
    • Andrew K. LoganMatthew W. JaegerJames E. SharpLawrence C. BibowWilliam E. Hughes
    • F01P3/20B63H21/10
    • F01P3/205
    • A flushing system provides a pair of check valves that are used in combination with each other. One of the check valve is attached to a hose located between the circulating pump and the thermostat housing of the engine. The other check valve is attached to a hose through which fresh water is provided. Both check valves prevent flow of water through them unless they are associated together in locking attachment. The check valve attached to the circulating pump hose of the engine directs a stream of water from the hose toward the circulating pump so that the water can then flow through the circulating pump, the engine block, the heads, the intake manifold, and the exhaust system of the engine to remove seawater residue from the internal passages and surfaces of the engine. It is not required that the engine be operated during the flushing operation.
    • 冲洗系统提供一对彼此组合使用的止回阀。 止回阀中的一个安装在位于发动机的循环泵和恒温器壳体之间的软管上。 另一个止回阀连接到提供淡水的软管上。 两个止回阀都可以防止水流过它们,除非它们在锁定附件中相连。 附着在发动机的循环泵软管上的止回阀将来自软管的水流引导到循环泵,使得水然后可以流过循环泵,发动机缸体,头部,进气歧管和排气 发动机的系统,以从发动机的内部通道和表面去除海水残留物。 在冲洗操作期间不要求发动机运转。
    • 7. 发明授权
    • Exhaust system for a marine propulsion engine
    • 船用推进发动机的排气系统
    • US06652337B1
    • 2003-11-25
    • US10099160
    • 2002-03-15
    • Andrew K. LoganChristopher J. LuckettMatthew W. JaegerBrian D. Simpson
    • Andrew K. LoganChristopher J. LuckettMatthew W. JaegerBrian D. Simpson
    • B63H2132
    • B63H21/32
    • The present invention provides a relationship between the exhaust passages and coolant passages of the exhaust manifold and exhaust elbow which serves to maintain the joint of the exhaust passage at a higher temperature than would be possible with known exhaust manifolds and exhaust elbows. By providing a space between surfaces of a raised exhaust portion of the components and surfaces of the raised coolant portions of the exhaust system, leakage from the coolant conduits to the exhaust cavities is avoided. The space provided between exhaust portions of the manifold and elbow and coolant portions of the manifold and elbow, near the joint between these components, provides the two advantages of maintaining a higher exhaust connection between the manifold and elbow and also preventing coolant leakage from flowing from the coolant passages to the exhaust passages of the exhaust system.
    • 本发明提供排气歧管和排气弯管的排气通道和排气弯头之间的关系,其用于将排气通道的接头保持在比已知排气歧管和排气弯头可能的更高的温度。 通过在部件的升高的排气部分的表面和排气系统的升高的冷却剂部分的表面之间提供空间,避免了从冷却剂导管泄漏到排气腔。 在歧管和肘管的排气部分之间提供的空间和歧管和弯头的冷却剂部分在这些部件之间的接头附近提供了两个优点:在歧管和弯头之间保持更高的排气连接并且还防止冷却剂泄漏从 通向排气系统的排气通道的冷却剂通道。
    • 8. 发明授权
    • Exhaust gasket with individually sealed water passages
    • 带独立密封水通道的排气垫片
    • US06648338B1
    • 2003-11-18
    • US10098272
    • 2002-03-15
    • Matthew W. JaegerAndrew K. LoganChristopher J. Luckett
    • Matthew W. JaegerAndrew K. LoganChristopher J. Luckett
    • F02F1100
    • F16J15/0818F02B61/04F16J2015/0856
    • A gasket for an exhaust system comprises a metallic plate having an exhaust sealing segment and a coolant sealing segment which is attached to and extends from the exhaust sealing segment. Both segments have first and second planar surfaces on opposite sides thereof, with the first and second planar surfaces of the exhaust sealing segment being co-planar with the first and second planar surfaces of the coolant sealing segment, respectively. An exhaust opening is formed through the plate and first and second elastomeric seals, which can be silicone rubber and which are both integral parts of a common elastomeric element, are disposed on the first and second surfaces, respectively, of the coolant sealing segment. A raised portion of the exhaust opening through the metal plate extends at an angle from the exhaust sealing segment and away from the first surface to form a transition segment from a first opening to a second. A hole can be formed through the plate and located at a central region of the coolant sealing segment with the common elastomeric element extending through the hole with the first and second elastomeric seals being joined to each other within the hole. A central portion of the coolant sealing segments can either comprise a hole to allow liquid to flow through the thickness of the plate, or alternatively, can comprise a solid portion that inhibits a flow of liquid through the thickness of the plate.
    • 用于排气系统的垫圈包括具有排气密封段的金属板和附接到排气密封段并从排气密封段延伸的冷却剂密封段。 两个区段在其相对侧上具有第一和第二平坦表面,排气密封段的第一和第二平面分别与冷却剂密封段的第一和第二平坦表面共平面。 通过该板形成排气口,并且分别设置在冷却剂密封段的第一和第二表面上的第一和第二弹性体密封件,其可以是硅橡胶,并且它们是公共弹性体元件的整体部件。 通过金属板的排气口的凸起部分与排气密封段成一角度并且远离第一表面延伸以形成从第一开口到第二开口的过渡段。 孔可以穿过板形成并且位于冷却剂密封段的中心区域处,其中公共弹性体元件延伸穿过孔,第一和第二弹性体密封件在孔内相互连接。 冷却剂密封段的中心部分可以包括允许液体流过板的厚度的孔,或者可以包括抑制液体流过板的厚度的固体部分。