WO/2014/064802 METHOD FOR INCREASING PRODUCTION OF LATEX||WO||01.05.2014|
||PCT/JP2012/077608||ASAHI GROUP HOLDINGS, LTD.||KITAGAWA Takanori|
There is provided a method for increasing the production of latex without causing damage, such as splitting of the bark, to a latex-producing plant, the method capable of being applied to young plants and used for improving the production capability of latex. A method for increasing the production of latex characterized in applying, to a latex-producing plant, a reducible fertilizer obtained by hydrothermal reaction treatment of a mixture of yeast or yeast cell walls, phosphoric acid, and potassium.
WO/2014/061127 LED LAMP LIGHTING CONTROL CIRCUIT AND LED LAMP LIGHTING CONTROL METHOD||WO||24.04.2014|
||PCT/JP2012/076928||SHINDENGEN ELECTRIC MANUFACTURING CO., LTD.||FUJII Motonobu|
An LED lamp lighting control circuit of the present invention is provided with the following: a first input terminal to which is connected one end of a coil of a single-phase alternating current power generator the other end of which is connected to a ground; a second input terminal to which is connected a cathode side of an LED element an anode side of which is connected to the ground; an output terminal to which a load is connected; a ground terminal to which the ground is connected; a first switch element one end of which is connected to the first input terminal and the other end of which is connected to the second input terminal; a first control circuit for controlling the first switch element; a second switch element one end of which is connected to the output terminal and the other end of which is connected to the first input terminal; and a second control circuit for controlling the second switch element.
WO/2014/058292 STACKING SYSTEM FOR ASSYMMETRIC OBJECTS||WO||17.04.2014|
||PCT/MY2012/000263||SENTINEL ENGINEERING (M) SDN. BHD.||K. H., Kuan|
A system for stacking or arranging any asymmetric subject of manufacture having a distinguishable front end and a rear end such as a glove. More particularly, a stacking or arranging system and methods enabling bidirectional stacking or arranging one over the other for packing or like purposes of such asymmetric subject of manufacture having a distinguishable front end and a rear end such as a glove. The system for such bidirectional stacking or arranging basically involving a feeder conveyor unit having a pair of feeder conveyer (2,3) disposed below a manufacture process conveyer (1) which can be used for stacking different asymmetric packing elements/subjects such as gloves having distinguishing front and rear end over collecting member/shelf (10,12) in bidirectional manner. Optionally and advantageously, the proposed stacking apparatus includes a sensor driven oscillating means operatively connected with the feeder conveyer pair for driving the feeder conveyer in pendulum type motion and to facilitate the bidirectional stacking of the packing element over a collecting member/ shelf. The advancement is thus directed to provide for an automatized system for bidirectional stacking of asymmetric packing elements/subjects such as gloves to ensure optimized arrangement of the stocks for packing and the like and an even distribution of the weight of the stacked subjects such as when packed in a carton and the like.
WO/2014/024326 UNDERWEAR-TYPE WORN ARTICLE||WO||13.02.2014|
||PCT/JP2012/076171||UNICHARM CORPORATION||ICHIKAWA, Makoto|
Provided is an underwear-type worn article of which at least the central portion of a crotch region has a desired flexibility and of which the front waist region side of the crotch region has a desired tensile strength. The front and back waist regions (11, 12) and the portion that is at least at the front waist region (11) side of the crotch region (13) are a multilayer region (44) that results from laminating a base sheet (25) and a front waist sheet (26), and the central portion (13C) of the crotch region (13) is a single-layer region (43) consisting of the base sheet (25). The multi-layer region (44) has: a boundary (40); an inner edge (11d) of the front waist region (11); a joining region (60) at which a liquid-absorbing structure (15) and a chassis (14) are joined; and corners (73) encircled by the concave curved side edges (19c) of the crotch region (13). The boundary (40) between the multi-layer region (44) and the single-layer region (43) traverses the joining region (60).
WO/2014/024271 HIGH-TEMPERATURE LEAD-FREE SOLDER ALLOY||WO||13.02.2014|
||PCT/JP2012/070185||SENJU METAL INDUSTRY CO., LTD.||UESHIMA Minoru|
Provided is an Sn-Sb-Ag-Cu based high-temperature lead-free solder alloy which does not form any low-melting phase even when solidified at a low cooling rate and which exhibits excellent joint reliability. This solder alloy has an alloy composition which comprises, in mass%, 35-40% Sb, 13-18% Ag, 6-8% Cu, and the balance Sn.
WO/2014/020736 THREE-PHASE MOTOR DRIVE DEVICE AND THREE-PHASE MOTOR DRIVING METHOD||WO||06.02.2014|
||PCT/JP2012/069658||SHINDENGEN ELECTRIC MANUFACTURING CO., LTD.||KAWASUMI Shinji|
A three-phase motor drive device related to an embodiment of the present invention is equipped with a control unit that estimates rotational positions of a three-phase brushless motor on the basis of a reference pulse signal, which is output by a rotor sensor according to a rotational position of a first-phase magnetic pole of a rotor during rotation of the three-phase brushless motor, and controls a motor driver in accordance with driving patterns that are defined in sequence according to the estimated rotational positions of the three-phase brushless motor.
WO/2014/020689 BATTERY CHARGING DEVICE AND BATTERY CHARGING METHOD||WO||06.02.2014|
||PCT/JP2012/069431||SHINDENGEN ELECTRIC MANUFACTURING CO., LTD.||TAKASHIMA Toyotaka|
In a battery voltage adjusting circuit, when an output voltage for a generator terminal output by a single phase alternating current generator has a negative polarity, a control circuit turns a first switch element on when a comparative value, which is an effective value or an average value for a lamp voltage for a lamp terminal, is less than a target voltage. Meanwhile, when the output voltage has a positive polarity, the control circuit turns a third switch element on when the comparative value is less than a threshold voltage, which is lower than the target voltage, and turns on a second switch element when the battery voltage for a battery is less than a prescribed voltage.
WO/2014/013300 APPARATUS FOR EXTENDING AND RETRACTING A FLEXIBLE AND EXTENSIBLE TUBULAR HOSE||WO||23.01.2014|
||PCT/IB2012/057473||A.T.E.S. ITALIANA S.R.L.||MARLIA, Dante|
Apparatus for extending and retracting a flexible and extensible tubular hose An apparatus (100) for extending and retracting a flexible and extensible hose comprises a first flexible and extensible tubular hose, which is received in the housing of a support structure (3), and actuation means (5) associated with said support structure (3) to support and guide the extending or retracting movement of said first hose (2) from and toward said housing. The above mentioned actuation means include a plurality of drive belts (5) in circumferentially spaced relation around the first hose, and a corresponding plurality of respective electric motors (6) which are independent of one another.
WO/2014/002185 DRIVE CONTROL DEVICE AND DRIVE CONTROL METHOD||WO||03.01.2014|
||PCT/JP2012/066253||SHINDENGEN ELECTRIC MANUFACTURING CO., LTD.||KAWASUMI Shinji|
A drive control method whereby the position of the rotational angle of an engine after normal rotational driving is determined on the basis of: information regarding whether the rotational angle of the engine has passed a first top dead center due to normal rotational movement when the engine is rotated normally with a predetermined reference torque; the amount of normal rotational movement by which the engine has moved in the normal rotational direction; and the amount of reverse rotational movement by which the engine has moved in the reverse rotational direction.
WO/2013/179388 DRIVE CONTROL DEVICE AND POWER GENERATION CONTROL METHOD||WO||05.12.2013|
||PCT/JP2012/063767||SHINDENGEN ELECTRIC MANUFACTURING CO., LTD.||KAWASUMI Shinji|
A power generation control method determines whether each peak of the reciprocal of the rotation speed measured in a plurality of consecutive cycles of a 4-stroke engine is equal to or smaller than a first threshold and equal to or greater than a second threshold. If the first peak of the reciprocal of the rotation speed measured in the first cycle following the plurality of consecutive cycles is not equal to or smaller than the second threshold, it is determined whether the first peak is equal to or greater than a third threshold which is higher than the first threshold. If the second peak of the reciprocal of the rotation speed measured in a second cycle after the first cycle is equal to or smaller than a fourth threshold, the target voltage for generating power by a generator the rotary shaft of which is connected to the crankshaft of the 4-stroke engine is switched from the voltage in the normal state to a voltage during acceleration which is lower than the voltage in the normal state.