Abstract: A lubrication structure for a four-stroke engine to lubricate driving parts by supplying oil stored in an oil tank provided separately from a crank chamber, using pressure fluctuation in the crank chamber, includes: a first circulating route to supply the oil from the oil tank to the crank chamber and return oil mist generated in the crank chamber to the oil tank; a second circulating route to supply the oil mist from the oil tank to a valve operating mechanism and return to the oil tank; a discharge passageway to discharge blowby gas contained during circulation of the oil from the second circulating route to a combustion chamber; and a partition wall to separate between the crank chamber and the oil tank. A central part of the partition wall is located vertically above a surface of the oil stored in the oil tank even if an engine body is tilted.

Abstract: A lubricating device for a four-stroke engine is provided that circulates oil while lubricating each part in a valve operating chamber and a crank chamber by supplying the oil to the valve operating chamber and the crank chamber using pressure fluctuation in the crank chamber, the pressure fluctuation being caused by reciprocating motion of a piston. The valve operating chamber is formed by mounting a valve operating chamber cover, and a suction passageway that sucks the oil in the valve operating chamber is provided by forming a groove on an inner surface of the valve operating chamber cover and sealing the groove with a sealing member shaped to fit the groove.

Abstract: A liquid tank cap for a working machine engine is provided. The liquid tank cap opens and closes a filling opening of a tip end portion of a refilling pipe of a liquid tank. The liquid tank cap includes an upper wall that covers the filling opening, a fitting portion that engages with an inner surface of the filling opening and protrudes from the upper wall, and a peripheral wall that covers an outer circumference of the refilling pipe in a state where the liquid tank cap is attached to the filling opening.

Abstract: A handheld engine-driven cutter is provided with a disk blade and a main body that drives the disk blade. The main body comprises a four-stroke engine, an oil supplying opening from which engine oil is supplied, and an oil exhausting opening from which the engine oil is exhausted. In this engine cutter, the oil supplying opening and the oil exhausting opening are both disposed on one side of the main body where one end of a driving axis of the four-stroke engine is located.

Abstract: A handheld engine-driven cutter is provided with a disk blade and a four-stroke engine that drives the disk blade. By employing the four-stroke engine, exhaustion of unburned gas and fuel consumption can be reduced. The engine cutter is further provided with a filter through which air provided to the four-stroke engine passes, a carburetor that mixes fuel and the air that passed through the filter, and a casing that houses the filter and the carburetor. The filter and the carburetor are arranged to align on a straight line along a direction of flow of the air passing through the filter and the carburetor.

Abstract: There have been demands for transparent electrode materials and magnetic materials, each having a wide range of applications. In view of the situations, a novel functional device and a method for forming an oxide material are provided. A functional device includes an AlxGayInzN layer (wherein 0?x?1, 0?y?1, and 0?z?1) and an oxide material layer composed of a metal oxide and formed on the AlxGayInzN layer. The metal oxide may be TiO2. The present invention provides a functional device that includes a group III nitride layer having excellent physical and chemical properties and a film integrally formed thereon. The film reflects less light at the interface and has chemical resistance and high durability.

Abstract: An electric conductor having good electric conductivity and excellent heat resistance, and a process for its production are provided. An electric conductor comprising a substrate 10 and at least two layers formed on the substrate, each being a layer (Z) made of titanium oxide doped with at least one dopant selected from the group consisting of Nb, Ta, Mo, As, Sb, W, N, F, S, Se, Te, Cr, Ni, Tc, Re, P and Bi, wherein at least one layer among said at least two layers is a second layer (Z2) 12 wherein the percentage of the number of dopant atoms based on the total number of titanium and dopant atoms is from 0.01 to 4 atomic %; and between the second layer (Z2) 12 and the substrate 10, a first layer (Z1) 11 is formed wherein the percentage of the number of dopant atoms based on the total number of titanium and dopant atoms is larger than in the second layer (Z2).

Abstract: With regard to a substrate for a transparent electrode and transparent conductive thin film each having transparency and conductivity, a transparent metal material and transparent electrode are provided which are capable of being stably supplied and are composed of raw materials with superior chemical resistance. When a metal oxide layer (12) composed of an anatase type crystal structure is provided on a substrate (11) to constitute the metal oxide layer (12) by M:TiO2, low resistivity is achieved while internal transmittance is maintained. M:TiO2 obtained by substituting other atoms (Nb, Ta, Mo, As, Sb, or W) for Ti of the anatase type TiO2 enable maintenance of transparency and remarkably improvement of electric conductivity.

Abstract: To provide a process capable of producing a titanium oxide electric conductor layer having excellent electric conductivity and good transparency, with high productivity. A first layer and a second layer each made of titanium oxide doped with a dopant such as Nb, are formed in order on a substrate in a state where the substrate is heated to prepare an electric conductor layer comprising an electric conductor layer. The first layer is formed under film formation conditions under which it is a layer containing polycrystals which contain no rutile crystals. The second layer is formed under film formation conditions under which a layer containing polycrystals which contain rutile crystals is obtained when directly formed on a substrate.

Abstract: To provide a process whereby a titanium oxide type electrical conductor excellent in electrical conductivity with good transparency can be produced with good productivity.

Abstract: When a p-layer 4 composed of GaN is maintained at ordinary temperature and TNO is sputtered thereon by an RF magnetron sputtering method, a laminated TNO layer 5 is in an amorphous state. Then, there is included a step of thermally treating the amorphous TNO layer in a reduced-pressure atmosphere where hydrogen gas is substantially absent to thereby crystallize the TNO layer. At the sputtering, an inert gas is passed through together with oxygen gas, and volume % of the oxygen gas contained in the gas passed through is 0.10 to 0.15%. In this regard, oxygen partial pressure is 5×10?3 Pa or lower. The temperature of the thermal treatment is 500° C. for about 1 hour.

Abstract: There have been demands for transparent electrode materials and magnetic materials, each having a wide range of applications. In view of the situations, a novel functional device and a method for forming an oxide material are provided. A functional device includes an AlxGayInzN layer (wherein 0?x?1, 0?y?1, and 0?z?1) and an oxide material layer composed of a metal oxide and formed on the AlxGayInzN layer. The metal oxide may be TiO2. The present invention provides a functional device that includes a group III nitride layer having excellent physical and chemical properties and a film integrally formed thereon. The film reflects less light at the interface and has chemical resistance and high durability.

Abstract: The refractive index of a titanium oxide layer is modified by adding an impurity (e.g., niobium (Nb)) thereto within a range where good electrical conductivity is obtained. The Group III nitride-based compound semiconductor light-emitting device of the invention includes a sapphire substrate, an aluminum nitride (AlN) buffer layer, an n-contact layer, an n-cladding layer, a multiple quantum well layer (emission wavelength: 470 nm), a p-cladding layer, and a p-contact layer. On the p-contact layer is provided a transparent electrode made of niobium titanium oxide and having an embossment. An electrode is provided on the n-contact layer. An electrode pad is provided on a portion of the transparent electrode. Since the transparent electrode is formed from titanium oxide containing 3% niobium, the refractive index with respect to light (wavelength: 470 nm) becomes almost equal to that of the p-contact layer.

Abstract: With regard to a substrate for a transparent electrode and transparent conductive thin film each having transparency and conductivity, a transparent metal material and transparent electrode are provided which are capable of being stably supplied and are composed of raw materials with superior chemical resistance. When a metal oxide layer (12) composed of an anatase type crystal structure is provided on a substrate (11) to constitute the metal oxide layer (12) by M:TiO2, low resistivity is achieved while internal transmittance is maintained. M:TiO2 obtained by substituting other atoms (Nb, Ta, Mo, As, Sb, or W) for Ti of the anatase type TiO2 enable maintenance of transparency and remarkably improvement of electric conductivity.

Abstract: A brake fluid pressure controller for a vehicle having a brake system, a brake operation element and a master cylinder, the brake system including: a pump configured for being activated and increasing brake fluid pressure to provide braking force to a wheel brake of the other brake system in which the brake operation element is not operated; a cutoff valve which blocks an output fluid pressure passage leading from a master cylinder-side to a wheel brake-side when the pump is operated; a brake fluid pool disposed downstream of the cutoff valve and upstream of the pump; and a pressure member configured for being slidably moved by a brake fluid pressure generated on the master cylinder-side relative to the cutoff valve by an operation of the brake operation element and for providing pressure to a fluid pressure passage leading to the wheel brake.

Abstract: An electric conductor is provided, which is excellent in electric conductivity and has good transparency. A process for producing electric conductor comprising a step of forming on a surface of a substrate body 11 a precursor layer 12? made of titanium oxide doped with one or at least two dopants selected from the group consisting of Nb, Ta, Mo, As, Sb, Al, Hf, Si, Ge, Zr, W, Co, Fe, Cr, Sn, Ni, V, Mn, Tc, Re, P and Bi; and a step of annealing the precursor layer 12? in a reducing atmosphere to form a metal oxide layer 12.

Abstract: A brake control system includes at least a pair of brake systems respectively connected to a pair of brake operating members L1, L2, and a control unit 10 for controlling the brake forces of the pair of brake systems interlockingly according to a predetermined distribution ratio by operating one of the pair of brake operating members L1, L2. The control unit 10 executes a decreasing control on the brake forces in such a manner that, when releasing the pair of brake operating members L1, L2, the control unit 10 decreases both of the brake forces together, even in a state where the control unit performs the interlocking control so as to decrease the brake force of one of the brake system as the brake force of the other of the brake system is increased in accordance with the predetermined distribution ratio.

Abstract: A power distributing apparatus is provided to reduce the number of voltage converters. The power distributing apparatus 1 includes a power source part 4 for supplying a power of 42V, an electrical connection box 7 connected with the part 4 through a power line 5, and a plurality of electronic control units 8a, 8b . . . , 8n. The electrical connection box 7 has a regular-supply converter 9 to convert a high voltage of 42V to an intermediate voltage higher than a load voltage of 5V. The regular-supply converter 9 can exhibit a high conversion efficiency when the apparatus is operated under high load. Each of the electronic control units 8a, 8b . . . , 8n has a series regulator 14 to convert the intermediate voltage to the load voltage. Owing to the supply of voltage higher than the load voltage by the regular-supply converter 9, there is no need to consider inconvenience due to voltage drop between the converter and a remote load.

Abstract: A load drive (1) having a pulse converter (2) and a DC/DC converter (5). The pulse converter (2) is capable of converting a high DC voltage supplied from the power supply unit (10) of a vehicle to a pulse voltage and applies the pulse voltage to a first lamp (L1). The DC/DC converter (5) operates to convert the high DC voltage to a low DC voltage whose voltage value is lower than the voltage value of the high DC voltage and applies the low DC voltage to a second lamp (L2).

Abstract: A load driving device of the invention includes an electric charge control unit 3, which charges a low-voltage battery 7 with a direct-current voltage from a DC/DC converter 2 that converts a high voltage from a high-voltage battery 1 into a low voltage. The electric charge control unit 3 includes a switching regulator 11 for performing switching of the direct-current voltage from the DC/DC converter 2 varying an output voltage supplied to the low-voltage battery 7, a series regulator 12 for inputting the direct-current voltage from the DC/DC converter 2 and adjusting power consumption to vary an output voltage supplied to the low-voltage battery 7, and a voltage-current detector 13 for detecting a voltage in accordance with a charge ratio of the low-voltage battery 7.