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|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
JP-S5397577-A
|
JP-182478-A
|
JP
|
A
|
A
| 2664-02-20
| 1978-01-11
| null |
B65D1/02
|
MARUKU OBUSOMERU
|
Thermoplastic hollow body
|
en
| null | null |
JP-S5597352-A
|
JP-184179-A
|
JP
|
A
|
A
| null | 1979-01-08
| null |
B65D41/04
|
TOKUHARA HIDEJI
|
Structure for stopping slackness of cap
|
en
| null | null |
JP-H04230105-A
|
JP-189991-A
|
JP
|
A
|
A
| null | 1991-01-11
| null |
G01S7/03
|
PIITAA DABURYUU HANAN
|
Antenna for airplane provided with corning and banking correction function
|
en
|
PURPOSE: To provide an antenna for airplane, which adjusts the direction and/or the tilt of an antenna beam with respect to an array antenna which transmits/ receives electromagnetic waves. CONSTITUTION: A part 26a of the antenna consists of excitation circuits 40 and 48 and tuning circuits 44 and 50, which give a prescribed relation of the phase and the amplitude to antenna elements 20, 22 and 24 and can achieve the relation over an operation frequency range. The circuit 40 relays a signal component to elements 20 and 24 through a common voltage point 42, and the circuit 48 functions as a power distribution circuit, which relays a part of the input signal from a terminal 16a to the element 22. A shift means is provided which selectively connects excitation circuits 40 and 48 to the antenna elements, so that this signal component can be shifted to antenna elements.
|
en
|
JP-H01178190-A
|
JP-191988-A
|
JP
|
A
|
A
| null | 1988-01-08
| null |
H01L27/105
|
TANAKA HIDEO
|
Multiple layer solid-state magnetic memory device
|
en
|
PURPOSE:To improve mechanical durability by laminating a solid-state magnetic memory device in plural layers in which the crossing part of first and second strip shape superconductors and the crossing part of a third stripe shape superconductor and a stripe shape magneto-resistance effect device are arranged at positions confronting with each other via a magnetic storage medium layer. CONSTITUTION:On the magnetic storage medium layer 5, plural section stripe shape superconductors 1 keeping prescribed intervals, plural first stripe shape superconductors 2 which cross with the second stripe shape superconductor 1 at a prescribed angle, and plural magneto-resistance effect devices 7 are provided, and furthermore, on the resistance effect devices 7, plural third stripe shape superconductors 8 are provided, respectively. And plural solid-state magnetic memory devices (100-102) in which the crossing part of the first and second superconductors 2 and 1 and the crossing part of the third superconductor 8 and the magneto-resistance effect device 7 are arranged at the positions confronting with each other via the magnetic storage medium layer 5 are laminated. In such a way, the mechanical durability can be improved.
|
en
|
JP-S5495338-A
|
JP-192378-A
|
JP
|
A
|
A
| null | 1978-01-13
| null |
H02B1/36
|
TAKAMATSU SEIETSU
|
Enclosed switchboard
|
en
|
PURPOSE:To enable obtaining a test position simply and yet sound safely by adding a test position unit for a control unit so as able to be operated contacting separating independently. CONSTITUTION:Adding a test position unit 20 below a control unit 1, connection mounting by simple screw fastening, a L shaped apparatus 21 screw fastened as for interlocking to a lever 7 of a circuit breaker 2 is located at a bottom end of a test position unit 20 at a time of ''off'' of the circuit breaker as shown by a real line and is made to locate at center when ''on''. In case when an operation test is preformed as a state of a control unit inserted, by unscrewing a screw 26 and pulling a handle 22 towards to front only a power source side disconnecting portion 3 is disconnected as a control circuit is kept as is, even when an electro-magnetic contactor is operated by an operation instruction, a main circuit will not be electrified and a test can be performed safely.
|
en
|
JP-S56100394-A
|
JP-205280-A
|
JP
|
A
|
A
| null | 1980-01-14
| null |
G21C7/08
|
TANAKA KAZUMA
|
Nuclear reactor power control method
|
en
| null | null |
JP-H09189722-A
|
JP-217096-A
|
JP
|
A
|
A
| null | 1996-01-10
| null |
G01R15/20
|
NODA MINORU
|
Current detector
|
en
|
PROBLEM TO BE SOLVED: To provide an inexpensive and compact current detector. SOLUTION: The magnetic flux density of a magnetic core 21 is changed depending on the intensity of current to be measured. A circuit board 23 is provided with a magnetosensing element 23a to detect the change in magnetic flux density, and it detects the intensity of current to be measured depending on the change in magnetic flux density. The core 21 has a shape defined by a circular magnetic path, which is partly provided with a magnetic gap 21a. The core 21 is also moulded by a defining base case 22 made of insulation resin. The case 22 is provided with a housing part for including the board 23 where the element 23a is arranged in the gap 21a on the inner side of the magnetic path and a penetrated part where a conductor for the current to be measured is inserted.
|
en
|
JP-S5182384-A
|
JP-220975-A
|
JP
|
A
|
A
| null | 1974-12-27
| null |
B32B5/18
|
TAKAMATSU YUKIO
|
Jidoshatono naisoyotorimuzai
|
en
| null | null |
JP-H02184215-A
|
JP-234489-A
|
JP
|
A
|
A
| null | 1989-01-09
| null |
H02G15/00
|
SHIMADA MITSUMASA
|
Power cable path
|
en
|
PURPOSE:To reduce current circulating through a metal sheath and to prevent high voltage due to lightning surge by constructing the metal sheath of a power cable with a high resistance metal sheath and a low resistance outer conductor, then connecting the low resistance outer conductors between different phase cables and connecting the high resistance metal sheath between in-phase cables. CONSTITUTION:A cable is maintained airtight through a high resistance metal sheath 7a and a low resistance outer conductor 7b is used as the ground current return path. In general, three phases are grounded integrally at joints 2a, 2b, but the low resistance outer conductors 7b are connected sequentially with the outer conductors of different phase cables through a bonding wires 4 and only the high resistance metal sheath 7a is connected between in-phase cables.
|
en
|
JP-S63170292-A
|
JP-243187-A
|
JP
|
A
|
A
| null | 1987-01-07
| null |
C04B41/88
|
SASAME AKIRA
|
Aluminum nitride sintered body with metallized surface
|
en
|
(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。
|
ja
|
JP-S57115218-A
|
JP-247781-A
|
JP
|
A
|
A
| 1153-04-13
| 1981-01-10
| null |
A47G7/02
|
SAKURAI YUKIO
|
Production of flower vessel, flower stand and bud vase
|
en
| null | null |
JP-S5388691-A
|
JP-250577-A
|
JP
|
A
|
A
| 1153-12-09
| 1977-01-14
| null |
C01B25/18
|
SASAKI HIROMI
|
Phosphoric acid decoloring method
|
en
|
PURPOSE: To obtain high purity phosporic acid cong. little impurities as well as coloring matter by heating wet process phosphoeic acid under press. so as to cstbonize org. matter in the acid and separating the carboniaed matter after cooling.
COPYRIGHT: (C)1978,JPO&Japio
|
en
|
JP-H09192717-A
|
JP-252096-A
|
JP
|
A
|
A
| null | 1996-01-10
| null |
B21B39/00
|
SUZUKI NORIYUKI
|
Strip transferring method and device in hot rolling
|
en
|
PROBLEM TO BE SOLVED: To prevent a thin strip from flying and flattering at the time of passing through by feeding a gas from nozzles onto the upper surface of the strip with a prescribed elevation angle. SOLUTION: The strip 5 is transferred on a hot run table consisting of table rolls 4 while cooling its upper and lower surface with a cooling device 6 between a finishing final stand 1 and a coiling pinchroll 3, and coiled with a coiler 2. At this time, in the case of transferring the strip chip, so called threading, plural nozzles 8 facing the advancing direction of the strip are arranged over the hot run table so as to cover the whole vertical cross section of the strip in the transferring direction, and a high velocity gas flow is fed from a blower 7 via a flow regulating valve 10. And the velocity of the gas flow in the passing direction is specified to exceed, at least, the passing velocity of the strip.
|
en
|
JP-H08187289-A
|
JP-259895-A
|
JP
|
A
|
A
| null | 1995-01-11
| null |
A61M16/00
|
OBATA DAISUKE
|
Supplying system of gas for respiration
|
en
|
PURPOSE: To provide a supplying system of gas for respiration capable of easily securing the working precision of a demand valve and positioning a gas generation means for respiration main body apart from a user, by setting the demand valve and an attached control means, etc., at the side of the user and the main body of the system apart from the user. CONSTITUTION: Oxygen from an oxygen generation means 1 stored in a pressure- fluctuating absorption type oxygen concentrating device 19 is switched by a continuous flow or flow pass switching means 2 controlled by a flow pass switching control means 3 of a continuous flow or a demand flow based on the detection result by a flow quantity detection means 4, and reaches an extended tube 6 as a duct means via a pass 5a or 5b, and is supplied to a user via a demand valve 7 based on the detection result of a respiration phase detection means 9 mounted on an at-hand-operator 12. As an automatic operation switching means provided to the operator 12, one built in a demand controller 8 in the at-hand-controller 12 is exemplified.
|
en
|
JP-S63173859-A
|
JP-263287-A
|
JP
|
A
|
A
| null | 1987-01-10
| null |
F04B27/10
|
TAKAHASHI HARUO
|
Rotary swash plate type compressor having main shaft supported in cantilever form
|
en
|
PURPOSE:To bring a main shaft and a rotor into uniform surface contact with their respective bearing for lengthening their lives by inclining the main shaft to a rotary swash plate, and establishing pressing force against the inclining surface of the rotary swash plate so as to satisfy its specified conditions. CONSTITUTION:when the thrust bearing surface of a rotor 14 is denoted by ST, and an axis perpendicular to the thrust bearing surface ST by OR, a main shaft 16 is attached with its center axis OS inclining at the angle of theta from the axis OR toward the top dead center of the rotor 14. when the axial length of a radial bearing 15 is denoted by l, and a clearance between the bearing 15 and the main shaft 16 by c, the angle of theta is selected so as to satisfy the formula of theta>tan<-1>(c/l). On the other hand, the axial energizing force F2 of external forces acting onto the inclining surface of the rotor 14 is established so that, when a compressor is in its operation, the thrust race surface of the rotor 14 may come into contact with a thrust bearing 17, and the main shaft 16 and the radial bearing 15 may come into contact with each other with their center axes OS, OB being mutually parallel.
|
en
|
JP-H05189778-A
|
JP-268992-A
|
JP
|
A
|
A
| null | 1992-01-10
| null |
G11B7/09
|
OKADA TAKESHI
|
Optical head feeder
|
en
|
PURPOSE:To provide the optical head feeder which can stably drive a rough positioning actuator in spite of the presence of static friction force and load fluctuation and can decrease the positional errors with respect to the movable center of a precise positioning actuator. CONSTITUTION:The low-frequency component of the displacement of the precise positioning actuator signal 3 for tracking is detected. A pulse forming means 12 generates the driving pulse for the rough positioning actuator 2 in previously determined time period in such a manner that the output of the detected low-frequency component enters a specified range. The pulse forming means 12 changes the size and time width of the driving pulses and outputs the pulses again when the low-frequency component of the displacement of the precise positioning detection signal 3 does not change or the change rate thereof is small upon lapse of the specified or longer period of time after outputting of the driving pulses.
|
en
|
JP-S5175279-A
|
JP-270375-A
|
JP
|
A
|
A
| null | 1974-12-25
| null |
B27B19/06
|
KISHIMOTO TSUNEMATSU
|
Kamusoseishiki setsusakusochi
|
en
| null | null |
JP-S5174633-A
|
JP-273575-A
|
JP
|
A
|
A
| null | 1974-12-24
| null |
G03G15/047
|
MATSUDA SHUNSUKE
|
Kirokusochi
|
ja
| null | null |
JP-S5098217-A
|
JP-273874-A
|
JP
|
A
|
A
| null | 1973-12-26
| null |
H04B1/16
| null | null | null | null | null |
JP-S63171472-A
|
JP-277487-A
|
JP
|
A
|
A
| null | 1987-01-09
| null |
G11B19/02
|
KATO TAIJI
|
Magnetic disk controller
|
en
|
PURPOSE:To reduce the burden of a software and to improve the efficiency of a system by providing a reenergizing function to a DMAC and reading and executing in a writing instruction. CONSTITUTION:When a host system writes data in a magnetic disk, the writing instruction is applied to a magnetic disk controller to write the data to the magnetic disk. Then, a control part 1 instructs the start of a writing operation to the DMAC 6. The DMAC 6 designates the presence of the data in the host system to control the operation of the host system and a data transfer part 2 and executes a data writing to a magnetic disk device. The control part 1 receives the completion information for a data transfer from the transfer part 2, and then, it instructs to read the data just written to the magnetic disk to the transfer part 2 and at the same time, instructs to start the reading operation to the DMAC 6. The DMAC 6 reads the data from the magnetic disk according to a control similar to at the time of writing.
|
en
|
JP-S60146557-A
|
JP-281384-A
|
JP
|
A
|
A
| null | 1984-01-11
| null |
H04L27/156
|
SHIOMI TOMONORI
|
Fsk demodulator
|
en
|
PURPOSE:To execute an exact demodulation by sampling a phase continuous FSK modulation signal whose waveform is shaped, 2(2L+1) times in 1 bit, obtaining exclusive OR of its each pair, and deriving majority decision of outputs of (2L+1) pieces. CONSTITUTION:A phase continuous FSK modulation whose waveform is shaped is inputted from a terminal 7, and sampled 2(2L+1) times in 1 bit by a sampling circuit 8, by a timing pulse from a timer 18. The output of the sampling circuit 8 is shifted by each 1 bit through shift registers 9-13 by the timing pulse of the timer 18. The output of the sampling circuit 8 are a shifted data are selected by forming a pair from both sides of a middle point T/2 of 1 bit, exclusive OR is obtained by exclusive OR circuits 14-16, and a majority is derived from outputs of (2L+1) pieces by a majority decision circuit 17. In this way, even in case when a transmission rate of a modulation signal and a modulation frequency are near, the exact demodulation is executed.
|
en
|
JP-H10200389-A
|
JP-283397-A
|
JP
|
A
|
A
| null | 1997-01-10
| null |
G05F1/56
|
MAEDA AKIRA
|
Load driving circuit
|
en
|
PROBLEM TO BE SOLVED: To prevent unwanted radiation of switching noise or electromagnetic waves from being generated by providing a constant current outflow circuit for the outflow of prescribed current from the control terminal of the switching element when turning a load to inactive state. SOLUTION: As the switching element, an FET 1 is serially connected to an inductive load M1 and connects/disconnects a current to flow to the load M1. When a changeover switch SW is changed over to off for turning the load M1 into inactive state, the current flows out of a gate G of FET 1, the voltage of gate G decreases, the FET 1 is turned to a non-conductive state and the current of the load M1 is cut off so that the inactive state is provided. In this case, the constant current flows out of the gate G of FET 1 through a constant current circuit S1. Thus, the generation of spike voltage caused by the sudden change of the load current Id at the time of load operation stop peculiar for the inductive load is suppressed and the unwanted radiation of switching noise or electromagnetic waves is suppressed.
|
en
|
JP-H03207111-A
|
JP-287090-A
|
JP
|
A
|
A
| null | 1990-01-10
| null |
H03K5/1252
|
AWANO HIROAKI
|
Two-way noise canceler
|
en
|
PURPOSE:To cancel both an H and an L pulse as noises by providing an AND gate, an OR gate, and an RS flip-flop for making only accurate data effective. CONSTITUTION:When an input signal is thin H pulses, the thin H pulses inputted from an input signal line 15 and thin H pulses which are delayed by a delay circuit 16 are inputted to an AND gate 18 and canceled by the AND gate 18, so that no thin H pulse is outputted to an output signal line 20. When the input signal is thin L pulses, thin L pulses inputted from the input signal line 15 and thin L pulses which are delayed by the delay circuit 16 are inputted to the NOR gate 19 and canceled by the NOR gate 19, so no thin L pulse is outputted to an output signal line 21. Then the set/reset flip-flop 22 gathers the output signals of the AND gate 18 and NOR gate 19. Consequently, the thin H and L pulses are both canceled as noises.
|
en
|
JP-S58120241-A
|
JP-300782-A
|
JP
|
A
|
A
| null | 1982-01-12
| null |
B41J2/44
|
OOHASHI HIROSHI
|
Color print device
|
en
|
PURPOSE:To prevent the distortion of a picture, by arranging plural display elements different in display color divisionally in plural parallel band-shaped parts and arranging display panels so that the same color is displayed in one band-shaped part. CONSTITUTION:On the display panel of a color print device, small-sized lamps 103 for white light emission are arranged in a grid on 3 lines on a display substrate 101, and band-shaped red optical filter 102R, green optical filter 102G, and blud optical filter 102B are arranged in the front of respective lines of these lamps 103. Each lamp 103 is selected to emit light by the combination between one of X-direction electrode groups 105 and one of Y-direction electrode groups 104R, 104G, and 104B, and the luminance is controlled. By this constitution, a simple-constitution color print device which does not generate the picture distortion or the like is obtained.
|
en
|
JP-S56100406-A
|
JP-303780-A
|
JP
|
A
|
A
| null | 1980-01-17
| null |
H01F38/24
|
GOTOU YOSHINORI
|
Transformer for measuring instrument
|
en
|
PURPOSE:To easily obtain the voltage-division ratio of a capacitor part and thus improve the quality of the device by arranging a capacitor for adjusting electrostatic capacity on the earthing side of a voltage-dividing capacitor and a leakage transformer in connection in series with them. CONSTITUTION:The leakage transformer 5 is housed in a vessel 6, while a joined capacitor part composed of a porcelain tube 3, the main capacitor 1 and the voltage- dividing capacitor 2 is mounted on the vessel 6, and the capacitor 4 for adjustment connected in series with the voltage-dividing capacitor 2 is provided on the exterior earthing side of the joined capacitor part. By setting the capacity of the capacitor 4 for adjustment properly and connecting the same in series between the voltage- dividing capacitor and earthing in this way, the voltage-division ratio of a value near to the prescribed can be obtained with ease and thus the quality of the device can be improved.
|
en
|
JP-S63171366-A
|
JP-305087-A
|
JP
|
A
|
A
| null | 1987-01-09
| null |
G01R1/06
|
NOGUCHI HITOSHI
|
Electric contact apparatus
|
en
|
PURPOSE:To perform measurement using a contact always cleaned, by performing the grinding action between conductors by the vibration of an ultrasonic vibrator to automatically clean the contact. CONSTITUTION:The electrodes 4, 4' of an element 3 to be measured are brought into contact with measuring electrodes 2, 2' and the core wires of the lead wires 1, 1' from a measuring device are respectively connected to the measuring electrodes 2, 2'. The measuring electrodes 2, 2' are further fixed to the insulators 6, 6' fixed to stationary plates 5, 5' and the insulators 6, 6' are driven by Langevin type vibrators 7, 7'. As a result, the measuring electrodes 2, 2' perform relative motion with respect to the electrodes 4, 4' to be closely adhered to the conductor parts of the electrodes 4, 4' so as to destruct the films on the electrodes 2, 2', 4, 4' and to apply low contact resistance thereto.
|
en
|
JP-H09157909-A
|
JP-309196-A
|
JP
|
A
|
A
| null | 1996-01-11
| null |
A41B11/14
|
GOTO KIYOKO
|
Pantyhose
|
en
|
PROBLEM TO BE SOLVED: To provide a pantyhose free from the generation of forced force in use, having large exposing parts and a large air permeability, well fitting to body and excellent in feeling by forming openings at abdormen, etc., for avoiding parts where the body expands and contracts when the body is bent back and forth. SOLUTION: The pantyhose is composed of at least leg parts 2 and a body part. The portion of the body part 2 corresponding to the abdormen is cut out fitting to the shape of human body to form an abdormen opening 5 and the portion corresponding to the buttocks is cut out fitting to the shape of human body to form a buttock opening 6. Between these openings, side-coating parts 8 are formed. The side-coating parts 8 take positions at both the sides of human body. The abdormen opening 5 and the buttock opening 6 are located in such a manner as to avoid the parts where the body expands and contracts when the body is bent back and forth. Further, the back side of the upper part is made freely openable.
|
en
|
JP-S5179775-A
|
JP-309575-A
|
JP
|
A
|
A
| null | 1974-12-28
| null |
A23L11/00
|
SUGIBAYASHI HIROSHI
| null | null | null | null |
JP-H09199080-A
|
JP-330397-A
|
JP
|
A
|
A
| null | 1997-01-10
| null |
H01J61/82
|
UIRAIMUUEMU KEEFUE
|
High-efficiency discharge lamp
|
en
|
PROBLEM TO BE SOLVED: To provide good, high-efficiency luminance quality by using a metal halide containing an iodide for a filling gas, and setting the ratio between the epistatic cross sectional diameter and the arc discharge distance larger than 0.9 and smaller than 1. SOLUTION: A lamp 10 is provided with a glass outer tube 12 and lead conductors 26, 28, and an arc discharge tube 14 is provided in the glass outer tube 12. The discharge tube 14 contains a separated electrode pair, and the electrode pair is electrically connected to lead conductors 26, 28. The discharge tube 14 is provided with a prolate arc chamber having the arc discharge distance measured as the straight distance between the tips of the electrode pair and the epistatic cross sectional diameter, and the ratio between the diameter and the arc discharge distance is set larger than 0.9 and smaller than 1. The filling gas of the arc chamber contains a halide constituted of sodium, scandium, lithium, thulium, and thallium, a gas constituted of argon and xenon, and prescribed mercury.
|
en
|
JP-S5097716-A
|
JP-331874-A
|
JP
|
A
|
A
| null | 1973-12-29
| null |
F02B19/10
| null | null | null | null | null |
JP-S63171841-A
|
JP-337088-A
|
JP
|
A
|
A
| null | 1988-01-11
| null |
H01L23/48
|
ASAI MASATO
|
Copper alloy for electronic equipment
|
en
|
PURPOSE:To obtain a copper alloy for electronic equipment excellent in strength, electric conductivity, and heat resistance and having superior plating suitability, moldability, etc., by incorporating, besides Mg, Cr, and Zn, respectively prescribed amounts of one or more elements among Ti, Hf, V, Ca, B, and rare earth elements. CONSTITUTION:The desired copper alloy for electronic equipment has a composition consisting of, by weight ratio, 0.005-0.8% Mg, 0.01-1.0% Cr, 0.003-0.5% Zn, further 0.003-0.5%, in total, of one or more elements among Ti, Hf, V, Ca, B, and rare earth elements, and the balance Cu with inevitable impurities. In this copper alloy, strength and heat resistance are improved by the addition of Mg and Cr and, by the addition of Zn, workability as well as strength and heat resistance is improved. Moreover, the above Ti, Hf, V, etc., are added in order to improve strength and heat resistance to a greater extent. The copper alloy of this invention produces remarkable effects capable of coping with the miniaturization and making highly concentrated of electronic equipment in recent years as a material for electronic equipment.
|
en
|
JP-S59128445-A
|
JP-339783-A
|
JP
|
A
|
A
| null | 1983-01-14
| null |
G01N27/84
|
MATSUI TAKASHI
|
Magnetic powder flaw detection of coil shaped wire material over total length thereof
|
en
|
PURPOSE:To enable the magnetic powder flaw detection of a coil shaped wire material over the total length thereof, by such relatively simple constitution that a magnetic field corresponding to the induction current due to magnetic flux in the coil shaped wire material in such a state that each ring is short- circuited to perform magnetic powder flaw detection. CONSTITUTION:When a coil shaped wire material S is suspended from the iron core 3 of a receiving rod 6 and a receiving rod 7 and actuators 8, 9 are respectively operated, the core is formed of a yoke 1 equipped with coils 2 and the iron core 3 while each ring of the wire material S is short-circuited by a conductive member 4. In this state, an induction current is generated in the wire material S by the magnetic flux due to the core while a circular magnetic field having the longitudinal direction of the wire material S as an axis is formed and a magnetic powder is gathered to a leak magnetic field by the defect in the longitudinal direction to perform the flaw detection of the defect. In this case, the wire material S comes to substantially one winding by the short-circuiting of the coil of the wire material S and magnetic powder flaw detection over the total length of the long coil shaped wire material can be performed by relatively simple constitution.
|
en
|
JP-H09189076-A
|
JP-343696-A
|
JP
|
A
|
A
| null | 1996-01-12
| null |
E04B1/58
|
NAKAHARA YASUO
|
Connection device of structural member for wooden building
|
en
|
PROBLEM TO BE SOLVED: To improve the earthquake resistance by bonding a vertical member between an upper horizontal member and a lower horizontal member, tensioning a connection rod by a tensioning member to firmly sandwiching the vertical member between the upper horizontal member and the lower horizontal member. SOLUTION: An anchor body 1 erected from a concrete foundation (c) is passed through a lower horizontal member (d), and the lower horizontal member (d) is fixed to the foundation (c) by nuts 5. A plurality of vertical members such as columns are erected on the lower horizontal member (d) with equal intervals to connect a column (e) to the upper horizontal member (d) such as a girder, a beam, and a girth. A threaded part 2a of one end part of a connection rod 2 is passed through a through hole in the upper horizontal member (d), and fixed by nuts 5. The other end part is suspended, and the threaded part 2a of the connection rod 2 is screwed with a threaded part 1a of the anchor body 1 through a tensioning member 3 to tense the connection rod 2 in the longitudinal direction.
|
en
|
JP-S62162944-A
|
JP-348786-A
|
JP
|
A
|
A
| null | 1986-01-13
| null |
G01N15/14
|
HANAJIMA SHIGEHARU
|
Counter for suspended particulate
|
en
|
PURPOSE:To automatically and continuously compensate variation of irradiation light by holding the voltage of an amplification system at a constant value through a variable attenuator according to the deviation between the output voltage of an irradiated light intensity detection signal amplification system and a set voltage and making the output of a particulate scattered light signal amplification system constant. CONSTITUTION:Light emitted by a light source 3 passes through an irradiation lens 4 to illuminates a sample air flow 9 and scattered light from suspended particulates in the air flow is incident on a scattered light detector 5 through a photodetection lens 10. Its output is passed through an amplifier 7 and the particle scattered light signal amplification system into which a variable attenuator 18 is inserted in series and detected by a particulate counter 11. Part of the irradiated light from an irradiated light detector 13 is passed through an amplifier 14 and the irradiated light intensity detection signal amplification system and inputted to a differential amplifier 15. The differential amplifier 15 outputs the deviation between the output of an amplifier 14 and the set voltage to control variable attenuators 17 and 18 through a control element 19.
|
en
|
JP-H10194947-A
|
JP-349197-A
|
JP
|
A
|
A
| null | 1997-01-13
| null |
A61K8/00
|
SHIN TAE YURU
|
Cosmetic composition containing extract of plant of family cannabaceae
|
en
|
PROBLEM TO BE SOLVED: To obtain the subject composition containing an extract of a plant of the family Cannabaceae and having excellent moisture-keeping effect and sebum secretion suppressing effect. SOLUTION: A plant of the family Cannabaceae selected from Dioscorea opposita, Dioscorea japonica, Dioscorea nipponica, Dioscorea tokoro, Dioscorea tenuipes, Dioscorea septemloba, Dioscorea quinqueloba, etc., is optionally crushed and extracted with 1-50 liter of a solvent (e.g. water) based on 100g of the plant at 0 to 40-50 deg.C for 1-14 days to obtain an extract (A) of the plant. The objective cosmetic composition such as face lotion, cream, body lotion, body soap, shampoo, hair rinse, etc., is produced by compounding 0.01-30wt.% (dry basis) of the component A with (B) a surfactant, colorant, perfume, antiseptic, emulsifier, solvent, fat component, etc., as arbitrary components. The component A contains a large amount of a sugar protein known as mucilage.
|
en
|
JP-S56100870-A
|
JP-359580-A
|
JP
|
A
|
A
| null | 1980-01-18
| null |
C09D5/03
|
FUJITA IZUMI
|
Black powder coating composition
|
en
|
PURPOSE: To obtain a black powder coating composition having excellent storage stability from an unsaturated polyester in solid state at ordinary temperature, a transition metal (or a transition metal-containing compound), a radicalgenerator, and carbon black.
CONSTITUTION: A hundred pts.wt. an unsaturated polyester in solid state at ordinary temperature, consisting of a polyhydric alcohol component composed of dicarboxylic acid component containing 20W50mol% unsaturated dicarboxylic acid and 10W40mol% 1,4-cyclohexanedimethanol and having a molecular weight of 500W 20,000 and a softening point of 30W170°C, is mixed with 3pts.wt. or less a transition metal (or a transition metal-containing compound) (e.g., Mn, Fe, etc.), 0.01W 5pts.wt. a radical generator having a temperature satisfying one minute half-period of 130W300°C and a temperature satisfying ten hour-half period of 70W200°C (e.g., cumene hydroperoxide, etc.), and 0.02W5pts.wt. carbon black.
EFFECT: A black paint film which is excellent in smoothness of coated surface, mechanical properties, weather resistance, solvent resistance, and corrosion resistance can be formed.
COPYRIGHT: (C)1981,JPO&Japio
|
en
|
JP-H06207517-A
|
JP-362393-A
|
JP
|
A
|
A
| null | 1993-01-12
| null |
F02B19/16
|
WAKITA SABURO
|
Chamber of diesel engine
|
en
|
PURPOSE:To make possible relaxation of a force applied from direction crossing an inner wall surface formed in continuity to a pair of inclining surfaces of an injection hole out of forces in compressing direction applied on the outer circumferential surface of a chamber main body so as to prevent generation of crack smoothly and surly. CONSTITUTION:Fitting between the outer circumferential surface 10c of a chamber main body 10a in direction crossing both inner wall surfaces 10f, 10g of the injection hole 10b of the chamber main body 10a, and a cylinder head 1 is loosened so as to relax the force in compressing direction received from the cylinder head 1. Fitting between the outer circumferential surface 10c of the chamber main body 10a in a direction along both inner wall surfaces 10f, 10g of the injection hole 10b, and the cylinder head 1 is tightened so as to support the chamber main body 10a, and prevent the chamber main body 10a from falling-out from the cylinder head 1 at the time of cooling.
|
en
|
JP-S5596787-A
|
JP-371179-A
|
JP
|
A
|
A
| null | 1979-01-16
| null |
G01N29/24
|
NAKASHIMA YOSHIMOTO
|
Ultrasonic probe
|
en
|
PURPOSE:To obtain an ultrasonic probe which is easy to produce and inspect and can be used for the direct contact method and has reduced fluctuation of the focal distance caused by change of the refractive index of a lens dependent upon materials of the lens, temperature change, etc., by adding the plane lens utlizing diffraction phenomena to the ultrasonic probe. CONSTITUTION:Plane lens 6 obtained by forming white ring band 6a of an ultrasonic transmission region and black ring band 6b of an ultrasonic non-transmission region alternately into coaxial circles or ellipses is arranged in the face of ultrasonic vibrator 1 opposite to a inspected material. Then, the focusing point of the ultrasonic wave can be changed by expanding or contracting the whole ultrasonic transmission region 6a and ultrasonic non-transmission region 6b by a prescribed magnification.
|
en
|
JP-S5388411-A
|
JP-380277-A
|
JP
|
A
|
A
| null | 1977-01-17
| null |
F02D39/08
|
SUMIYOSHI MASAHARU
|
Control valve device for improved gas flow rate in internal combustion engine
|
en
|
PURPOSE: To control the supply of fuel and air to an improving device in response to operation condition, by controlling the opening area of a valve port in a duct of creating improved gas due to the negative press. of an intake pipe.
COPYRIGHT: (C)1978,JPO&Japio
|
en
|
JP-S60147866-A
|
JP-385284-A
|
JP
|
A
|
A
| null | 1984-01-12
| null |
G06F9/52
|
NARUSE TADASHI
|
Control system of bus
|
en
|
PURPOSE:To allow bus release without fail by terminating read and write signals within a certain period in terms of the system where plural processors are connected by a bus and by releasing the bus temporarily so as to allow a retrial at the time of failure due to the response condition. CONSTITUTION:If a processor is of a bus master, a bus control part 100 transmits a bus requirement (BREQ) signal to an arbiter 13 when an action stop signal (BUSS) is not on, and waits a bus permission signal from the arbiter 13. If a busy signal is off and a bus is released, a new bus master is generated by turning the busy signal off. By turning the BREQ signal off, a read (RD) or write (WT) signal is transmitted. When the RD or WT terminates within a certain period, a value of a response (XACK) signal from a bus slave is stored in a response result memory part 103. If the XACK signal is completed, the operation terminates, and if the XACK signal is not completed, retrial is executed.
|
en
|
JP-H07209403-A
|
JP-387794-A
|
JP
|
A
|
A
| null | 1994-01-19
| null |
G01S3/808
|
TANAKA SHUNJI
|
Submerged direction finder and range finder
|
en
|
PURPOSE:To surely confirm at least the two-dimensional direction from a slave machine side (diving worker) to a master machine side (transmitting source) by a simple means. CONSTITUTION:Three microphones 10, 11, 12, three wave detectors 20, 21, 22, and three zero cross position detectors 30, 31, 32 are connected to one arithmetic part 40. The sound wave inputted from the microphone 10 is detected by the detector 20, and the zero cross position is detected by the zero cross position detector 30. The arrival time difference of the sound waves inputted to the three microphone systems are represented by the zero cross positions, and the coming direction of the sound wave is arithmetically operated from them by the arithmetic part 40.
|
en
|
JP-H03208824-A
|
JP-391090-A
|
JP
|
A
|
A
| null | 1990-01-11
| null |
C03B23/025
|
YOSHIZAWA HIDEO
|
Method and device for press-bending sheet glass
|
en
|
PURPOSE:To improve precision in press bending by clamping the peripheral edge of a sheet glass heated close to the softening point between the dies and pushing a die against the center of the sheet glass as such from one surface side to swell the glass toward the other surface side. CONSTITUTION:A sheet glass G passes through a heating furnace 2 as shown in Fig. I, heated close to the softening point, preformed by a charging roll 3 and delivered to an in-mold roll 4 of the press bending device 1, and the roll 4 is lowered to place the glass G on a concave die 11. Almost at the same time, cylinder units 10a and 10b are extended as shown in Fig. II to lower the side dies 9a and 9b, and the front and rear sides of the glass G are clamped along with the concave die 11. The cylinder units 10c and 10d and the cylinder unit 8a are extended to lower the side dies 9c and 9d and the center die 8, hence the glass G is bent with the entire surface, and the whole peripheral edge of the glass is fixed by the side dies 9a-9d and the concave die 11. The center die 8 is lowered to extend, swell and form the center part of the glass C, and the glass is sent to a quencher, quenched and hardened.
|
en
|
JP-H05204966-A
|
JP-397392-A
|
JP
|
A
|
A
| null | 1992-01-13
| null |
G06F17/28
|
OKUMURA AKITOSHI
|
Sentence generating device
|
en
|
PURPOSE:To provide a sentence generating system which can omit the rewriting operations for generation of the French sentences by using a dictionary where the subject words of elision are registered with their forms lacking each final vowel defined as the word stems and the connection forms are described as the talk information. CONSTITUTION:The output sentence data read by an input reading part 1 are sent to a sentence structure generating part 2, and the part 2 obtains the information from a dictionary 4 to generate the sentence structures. A morpheme generating part 3 obtains the information from the dictionary 4 and outputs the word stems first. Then the part 3 outputs the next word with an apostrophe when elision is requested by the next word. If the next word requests no elision, the next word is outputted together with a word ending vowel and a space.
|
en
|
JP-S58121017-A
|
JP-411082-A
|
JP
|
A
|
A
| null | 1982-01-14
| null |
G02F1/055
|
FUNATO HIROYOSHI
|
Optical shutter array
|
en
|
PURPOSE:To realize driving by low power, and to increase intensity of output light, by providing an electrode group like an array, on a plate of a ferroelectric substance having an electro-optical effect, and pinch-holding the plate by a reflecting member having a Dach type reflecting surface, and a polarizer. CONSTITUTION:Light which is made incident to an optical shutter array consisting of a plate 50, a polarizer 60 and a reflecting member 70 is made incident from the upper direction of the polarizer 60, becomes linear polarized light, is made incident to the plate 50 from an incident part H, is emitted from an emitting part I, is reflected by a Dach type reflecting surface of the reflecting member 70, is made incident to the plate 50 again in an incident part J, transmits it, and is emitted from an emitting part K. To this emitted light, the polarizer 60 operates as an analyzer. On electrode groups 52, 53, a common electrode 51 is provided, both electrode groups 52, 53 are driven by a common switching signal, a phase difference is generated as addition, and an electro-optical effect generating area in the transmitting direction of light is increased substantially.
|
en
|
JP-S56101797-A
|
JP-417180-A
|
JP
|
A
|
A
| null | 1980-01-17
| null |
H05K3/44
|
SATOU EIICHI
|
Method of insulating printed circuit board with metal core as substrate
|
en
| null | null |
JP-S4875526-A
|
JP-418172-A
|
JP
|
A
|
A
| null | 1972-01-06
| null |
C07C239/00
| null | null | null | null | null |
JP-S61166474-A
|
JP-423285-A
|
JP
|
A
|
A
| null | 1985-01-14
| null |
B66B1/14
|
NAKADA MINORU
|
Cage calling registration device for elevator
|
en
|
(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。
|
ja
|
JP-S5188223-A
|
JP-427975-A
|
JP
|
A
|
A
| null | 1975-01-07
| null |
G03C7/00
| null | null | null | null | null |
JP-H05190137-A
|
JP-450492-A
|
JP
|
A
|
A
| null | 1992-01-14
| null |
H01J61/06
|
NOMI KAZUMASA
|
Cold cathode fluorescent lamp
|
en
|
PURPOSE:To facilitate electric radiation and reduce the lamp electric power by installing an emitter consisting of an oxide electric conductor containing the compound which possesses the perovskite type crystal structure on one between a pair of electrodes installed in a bulb. CONSTITUTION:A porous cylindrical electrode 2 which is formed by sintering the wolfram powder at one edge part of a glass tube 1 is installed through welding on a mouthpiece 3 made of NiCrFe alloy. A cobaltite emitter 4 consisting of an oxide electric conductor containing the oxide having the perovskite crystal structure is applied on the surface of the electrode 2. The organic substance of the emitter 4 is thermal-decomposition-removed by the high frequency inductive heating in the sealing process for a lamp, and a film is formed on the surface of the electrode 2 by the melting of the low melting point glass frit. Accordingly, by using the perovskite type oxide which possesses electric conductivity is used as emitter, the electron radiation in the cold cathode operation state is facilitated, the lamp voltage can be lowered, and the lamp electric power can be reduced.
|
en
|
JP-H08192730-A
|
JP-461595-A
|
JP
|
A
|
A
| null | 1995-01-17
| null |
B60T8/58
|
MAKINO NOBUHIKO
|
Apparatus for detecting wheel running on step
|
en
|
PURPOSE: To detect a wheel running on a step while preventing the pressure reduction control of prake fluid pressure from being started due to drop of the wheel speed caused by an impact of running on the step. CONSTITUTION: A time CT1 when wheel speed VW exceeds reference speed to judge a step is calculated. The calculated time CT1 is judged to corresponding to the reference time to judge the step, and further the maximum wheel acceleration dVW while the wheel speed VW exceeds the reference speed to judge the step is judged to be higher than the maximum wheel acceleration KGP of the reference to judge the step, so that the wheel running on the step is detected on the basis of these judging results.
|
en
|
JP-S4912224-A
|
JP-462973-A
|
JP
|
A
|
A
| null | 1973-01-05
| null |
F01L1/24
| null | null | null | null | null |
JP-S53119421-A
|
JP-469078-A
|
JP
|
A
|
A
| null | 1978-01-18
| null |
B25B13/56
|
NAKAO MASAKAZU
|
Cylinder system
|
en
|
PURPOSE: Installation of a single-acting piston rod and a double-acting piston rod in a common cylinder facilitates to obtain a surface to attain opening and closing action of a pair of pawl materials together with the axial direction movement in said condition.
COPYRIGHT: (C)1978,JPO&Japio
|
en
|
JP-H06294972-A
|
JP-474794-A
|
JP
|
A
|
A
| null | 1994-01-20
| null |
G02F1/1368
|
BORISU II KAZUROFU
|
Active-matrix liquid-crystal display
|
en
|
PURPOSE: To provide a new constitution as to an active matrix liquid crystal display. CONSTITUTION: This active matrix liquid crystal display is equipped with plural pixels, plural address buses 1-1 to 1-n, and plural data buses 2-1 to 2-n orthogonal to the address buses 1-1 to 1-n, and the respective address buses include address subbus couples at intervals and the respective data buses include data subbus couples 1-1a and 1-1b at intervals. Each pixel is equipped with display electrode couples 4a and 4b, a 1st switching means which is connected between each display electrode couple and the 1st address subbus couple of each address bus and each data bus, and a 2nd switching means which is connected between each display electrode couple and the 2nd address subbus couple of each address bus and each data bus, and each data subbus is separated from the other display electrode by at least one display electrode.
|
en
|
JP-S59129004-A
|
JP-475783-A
|
JP
|
A
|
A
| null | 1983-01-15
| null |
A45C9/00
|
KANJIN TAKASHI
|
Suit case with chair
|
en
|
(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。
|
ja
|
JP-H04236356-A
|
JP-487491-A
|
JP
|
A
|
A
| null | 1991-01-21
| null |
G01R1/067
|
ASHIDA MASATAKA
|
Contact probe
|
en
|
PURPOSE:To keep the contact pressure of a probe constant and to bring the probe into contact even with a contact surface different in height by definite propelling force by directly driving the probe by an electromagnetic coil. CONSTITUTION:A contact probe is constituted of a housing 2, an electromagnetic coil 1, a probe 3, a spring 4, an insulating spacer 5, an iron core pipe 6 and a lead wire 7. The force acting on the probe 3 is only the reaction force due to the spring 4 when no current is supplied to the electromagnetic coil 1 and the probe 1 does not come into contact with a contact surface 8. When a current is supplied to the electromagnetic coil 1, constant propelling force acts on the iron core pipe 6 to compress the spring 4 to push down the probe 3. The contact pressure at this time becomes almost same to the propelling force because the spring constant of the spring 4 is sufficiently smaller than the propelling force generated by the coil 1 and the reaction, force of the spring 4 can be neglected. By this constitution, the contact probe can come into even with the contact surface different in height by constant propelling force.
|
en
|
JP-S4993597-A
|
JP-494073-A
|
JP
|
A
|
A
| null | 1973-01-09
| null |
A24D3/14
| null | null | null | null | null |
JP-S4997177-A
|
JP-498073-A
|
JP
|
A
|
A
| null | 1973-01-09
| null |
G05B11/16
| null | null | null | null | null |
JP-S57119703-A
|
JP-507381-A
|
JP
|
A
|
A
| 1160-12-04
| 1981-01-19
| null |
A43B13/20
|
KAWASHIMA HIROO
|
Elastic sole of shoe
|
en
| null | null |
JP-S5097703-A
|
JP-507474-A
|
JP
|
A
|
A
| 1160-12-26
| 1974-01-08
| null |
F22B21/04
| null | null | null | null | null |
JP-H01180609-A
|
JP-511088-A
|
JP
|
A
|
A
| null | 1988-01-13
| null |
B61B13/00
|
NEMOTO KATSUKO
|
Stop position detector for unmanned carrier
|
en
|
PURPOSE:To detect the stopping position deviation of an unmanned carrier at a high speed and in a simple constitution by receiving each display point from a line light emitter set at a station via a one-dimensional line receiver mounted on the traveling carrier and obtaining the stopping angle of the carrier to the station as well as the distance from the station. CONSTITUTION:Each display point sent from a line light emitter 5 set at a station 3 is received by a one-dimensional line receiver 10 mounted on an unmanned carrier 1. Then the stopping angle theta of the carrier 1 against the station 3 and the distance Y between the carrier 1 and the station 3 are obtained from the positions of those display points received by the receiver 10 respectively. Thus it is possible to obtain at a high speed both the angle theta and the distance Y. In addition, the capacity of a memory 13 can be reduced owing to application of the receiver 10.
|
en
|
JP-H05271714-A
|
JP-513192-A
|
JP
|
A
|
A
| null | 1992-01-14
| null |
B22F3/14
| null |
Pack rolling method
|
en
|
PURPOSE:To recover the contents of a vessel in high yield after rolling in pack- rolling a powder or ingot. CONSTITUTION:A powder or ingot 2 is packed in a metallic vessel 1 which is then closed and rolled for each vessel. In this case, when the rolling direction is shown by R.D. and the drafting direction by N.D., the inner wall of the side plate of the vessel 1 with the plate surface vertical to the R.D. direction is protruded 7 inward, and the protrusion 7 is fixed in the N.D. direction in this pack rolling method.
|
en
|
JP-S56105332-A
|
JP-527180-A
|
JP
|
A
|
A
| null | 1980-01-22
| null |
G11B5/702
|
KAWAHARA HIROSHI
|
Magnetic recording medium
|
en
|
PURPOSE: To improve the electromagnetic characteristic of the magnetic recording medium, by using the urethane resin which is produced by using the alkylene diisocyanate of C 4 WC 8 and the alkylene glycol of C 3 or more.
CONSTITUTION: A crosslinking agent is added to the material obtained by kneading uniformly the urethane resin which is produced by using the alkylene diisocyanate of C 4 WC 8 such as hexamethylene diisocyanate as isocyanate components and using the alkylene glycol of C 3 or more such as 1,4-butanediol as polyol components, magnetic powder, the dispersing agent, and the organic solvent, and this obtained material is applied onto the base supporting material, and magnetic particles are orientated, and it is dried, and the surface work is performed. Next, it is subjected to heat treatment to crosslinking and cure the urethane resin. As a result, a magnetic recording material is obtained where dispersibility, the electromagnetic characteristic, and the physical characteristic are balanced.
COPYRIGHT: (C)1981,JPO&Japio
|
en
|
JP-S57120227-A
|
JP-546181-A
|
JP
|
A
|
A
| null | 1981-01-17
| null |
G11B5/73
|
HANAOKA HISAHIRO
|
Magnetic recording medium
|
en
|
PURPOSE:To reduce discharge noise, etc., due to static electricity by providing a metallic magnetic thin film to one side of a base and by forming a conductive layer made of a high polymer compound with a protective layer on the other side. CONSTITUTION:On one side of a base 1, metal, such as Al, is formed into a base layer 2, a metallic magnetic thin film 3 is made of single metal or alloy, and on it, a protective film 4 is provided. The other side of the base, on the other hand, is back-coated with metal, such as Al, with high conductivity to about 300Angstrom thickness by vaccum deposition, ion plating, planting, etc., to form a conductive layer 5 for removing discharge noise, and on the layer 5, a protective film 6 of a high polymer compound is provided.
|
en
|
JP-H03210808-A
|
JP-548890-A
|
JP
|
A
|
A
| null | 1990-01-12
| null |
H03F3/45
|
TANIGUCHI TOSHIMI
|
Amplifier circuit
|
en
|
PURPOSE:To offer an amplifier circuit whose transistor(TR) is not destroyed due to electrostatic disturbance whose high frequency characteristic is not deteriorated by forming the base.emitter junction area of 1st and 2nd TRs to be ratio of (m) to '1', forming that of 3rd and 4th TRs to be ratio of '1' to (m), and selecting the same current for 2nd 3rd current sources. CONSTITUTION:TRs 1, 4 are formed to have an area of a multiple of (m) so that the base.emitter junction area ratio of TRs 1, 2 and 13, 14 is respectively (m) to '1' and '1' to (m) (m is a real number being more than '1'). Moreover, a same current is selected for current sources 6, 7. An emitter level of the TR 13 is supplied to the base of the TR 1 as a bias level, and an emitter level of the TR 14 is supplied to the base of the TR 4 as a bias level. Thus, the bases of the TRs 1, 2 are biased with an input offset voltage at all times. Thus, the emitter current of the TRs 1, 2 is balanced for all temperature ranges.
|
en
|
JP-H03209475-A
|
JP-549690-A
|
JP
|
A
|
A
| null | 1990-01-12
| null |
G03F1/70
|
TANAKA KENICHI
|
Reticle in semiconductor manufacture process
|
en
|
PURPOSE:To obtain required yield and device parameter for the yield by providing the plural reticle patterns of various device parameters in the internal part of one reticle. CONSTITUTION:Gate patterns 1a1-1a3 are provided while changing the gate length of the device parameter in the breadthwise direction of the reticle. In such a way, since plural patterns 1a1-1a3 of the various device parameters are provided in the internal part of one reticle, plural 2-input NAND gates with various layout and circuit accuracy can be manufactured on one wafer by these reticle. Therefore, yield distribution according to statistical data in rot or between rots is enlarged over a wide range according to the combination of the device parameters. Thus, the required yield can be easily obtained and the device parameter for the yield can be obtained as well.
|
en
|
JP-S63173639-A
|
JP-552987-A
|
JP
|
A
|
A
| null | 1987-01-13
| null |
D21H19/16
|
TAIMA KAZUO
|
Sheet for surface protection of synthetic resin board
|
en
|
(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。
|
ja
|
JP-S59129890-A
|
JP-558983-A
|
JP
|
A
|
A
| null | 1983-01-17
| null |
G09B5/06
|
TERADA FUMIYUKI
|
Privately learning apparatus
|
en
|
(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。
|
ja
|
JP-H11200413-A
|
JP-568898-A
|
JP
|
A
|
A
| null | 1998-01-14
| null |
E02F9/00
|
KOBAYASHI MASAHIKO
|
Backhoe
|
en
|
PROBLEM TO BE SOLVED: To provide a backhoe designed to bring the center of gravity of machine body toward the rear and also to help reduce the weight of a rear cover member covering the lower backside of an engine (to form the cover member into a press molded product). SOLUTION: In a backhoe, a hydraulic oil tank 29, a fuel tank 30, and a battery 31 are provided on a turntable 6 which can turn about the vertical axis of turning. In this case, the hydraulic oil tank 29 is provided on either a right or left side behind the axis O of turning, the fuel tank 30 is provided at the side of the rear of the hydraulic oil tank 29, and the battery 31 is placed in front of the fuel tank 30.
|
en
|
JP-H02186202-A
|
JP-571189-A
|
JP
|
A
|
A
| null | 1989-01-12
| null |
G01N37/00
|
FUJITA SHIGETO
|
Scanning tunneling microscope-applied processor
|
en
|
PURPOSE:To omit the labor of chip replacement due to wearing by mounting a mechanism sending out a fine needle from the leading end of a tip. CONSTITUTION:A conductive fine needle 6 is provided to a tip at a place separated by about 10A from the surface of a substrate 2 so as to piercing through the tip 1 and electrically connected to the tip 1. Negative voltage is applied to the fine needle 6 to allow a tunnel current 3 to flow between the surface of the substrate 2 and the fine needle 6 and probe parts 1,6,7 are vertically moved along the surface of the substrate 2 by a piezoelectric element so as to make the current 3 constant to keep the distances of the probe parts 1,6,7 from the surface of the substrate 2. Further, the probe parts 1,6,7 are fixed and positive voltage is applied to the fine needle 6 and organometal gas is emitted between the fine needle 6 and the surface of the substrate 2 from a nozzle 5 and a metal is vapor-deposited on the surface of the substrate 2. At this time, the fine needle 6 is worn but voltage is applied to a piezoelectric element 7 from a power supply to allow the fine needle 6 to be lowered by the piezoelectric element 7 and discharge is again made possible.
|
en
|
JP-H02185121-A
|
JP-572389-A
|
JP
|
A
|
A
| null | 1989-01-12
| null |
H03L7/099
|
GOTO TAKAO
|
Microwave band phase synchronous oscillator
|
en
|
PURPOSE:To prevent the degradation of the phase noise characteristic even at the time of the change of the control voltage of a VCO by using a voltage controlled oscillator, where the oscillation frequency characteristic for the control voltage is nonlinear, as the VCO. CONSTITUTION:When a frequency control voltage Vc is inputted to an auxiliary resonator, the capacity of a varactor diode VD is changed in accordance with the voltage Vc. As the result, an oscillation frequency omega2 of the auxiliary resonator is changed. This auxiliary resonator is coupled to a dielectric resonator 20 to change an oscillation frequency omega0 of a main resonator. As a result, the oscillation frequency omega1 of the VCO. The change of the capacity of the varactor diode VD is varied by the control voltage Vc, but its variation is reduced according as the voltage Vc rises.
|
en
|
JP-S4994124-A
|
JP-575273-A
|
JP
|
A
|
A
| null | 1973-01-10
| null |
E04B9/00
| null | null | null | null | null |
JP-S56105615-A
|
JP-583981-A
|
JP
|
A
|
A
| null | 1981-01-16
| null |
H01F27/29
|
YURUGEN KAIZAA
|
Method of connecting electric part
|
en
| null | null |
JP-H05191062-A
|
JP-587292-A
|
JP
|
A
|
A
| null | 1992-01-16
| null |
H05K7/14
|
SASAKI KATSUNAO
|
Mounting structure for component unit
|
en
|
PURPOSE:To enable a component unit to be enhanced in assembling workability by a method wherein the component unit provided with a connection terminal correspondent to a terminal receptor is electrically connected to a support member making its connection terminal bear against the terminal receptor. CONSTITUTION:A component unit 2 is mechanically supported at a support member 4 through the intermediary of a bracket 16 fixed to the base of the support member 4. The component unit 2 is provided with a cable 7 connected to a printed board 3. When the component unit 2 is mechanically mounted on the support member 4, a connection terminal 1 formed of the connection cable 7 of the component 2 is made to press a terminal receptor 6 of the support member 4. The bent of the connection cable 7 and the terminal receptor 6 are proper in rigidity and elastic force as the cable 7 and the receptor 6 are bent into the shape of U, so that the connection terminal 1 and the terminal receptor 6 are made to bear against each other at a proper pressure to be electrically connected together. By this setup, a component unit can be enhanced in assembling workability.
|
en
|
JP-H04238143-A
|
JP-587891-A
|
JP
|
A
|
A
| null | 1991-01-22
| null |
G11B15/46
|
HARASAWA YUKIHIRO
|
Tape traveling speed controller
|
en
|
PURPOSE:To provide such a tape traveling speed controller which can execute precise phase control. CONSTITUTION:A 1st edge detector detects the rising of a 30Hz control signal and a phase comparator compares the phases of a 30Hz reference signal and the rising edge of the control signal and outputs a 1st error signal. A 2nd edge detector detects the rising edge and falling edge of the 30Hz control signal and a 2nd phase comparator compares the phases of a 60Hz reference signal and the rising edge and falling edge of the control signal and outputs a 2nd error signal. The 1st error signal and the 2nd error signal are added by an adder and the result thereof is applied via a low-pass filter to a subtractor. The subtractor computes a phase error from the speed error and a DC servo motor is controlled by the output thereof.
|
en
|
JP-S5394652-A
|
JP-587977-A
|
JP
|
A
|
A
| null | 1977-01-24
| null |
D03D47/24
|
SOFUE YOSHIFUMI
|
Method of manufacture of bullet for shuttleless loom
|
en
| null | null |
JP-S5181148-A
|
JP-592175-A
|
JP
|
A
|
A
| null | 1975-01-14
| null |
G02F1/1339
|
NAKAMURA KENJI
|
Ekishososhi
|
ja
| null | null |
JP-H01279828-A
|
JP-596889-A
|
JP
|
A
|
A
| null | 1989-01-17
| null |
A61K31/57
|
FOLKMAN JUDAH
|
Anglogenic inhibitor
|
en
|
PURPOSE: To obtain an angiogenesis inhibitor containing fumagillin as active ingredient, and useful for preventing/treating various diseases involving the abnormal sthenia of angiogenesis in mammals such as diabetic retinopathy, ocular tumor, suppurative sarcoma, and rheumatic arthritis. CONSTITUTION: This inhibitor contains fumagillin or a pharmaceutically permissible salt thereof (e.g. sodium salt, potassium salt) as active ingredient, and pref. furthermore, angiogenesis inhibitory effect potentiator(s) such as heparin, sulfated cyclodextrin (esp. β-cyclodextrin tetradecasulfate. When to be put to use, this inhibitor can be safely administered orally or parenterally in the form of tablets or capsules or through injection. In general, the weight ratio of the potentiator to the fumagillin is about (1:10) to (3011)[pref. (1:3) to (10:1)].
|
en
|
JP-H10205986-A
|
JP-598897-A
|
JP
|
A
|
A
| null | 1997-01-17
| null |
F25D23/02
|
FUKUI HIROICHI
|
Refrigerator door
|
en
|
PROBLEM TO BE SOLVED: To improve a heat insulation ability of a door body of a refrigerator door, by a method wherein a gasket is inserted in a gasket inserting sash, a force for preventing the removal of the gasket and an airtightness between the gasket and the door body are held favorably so that the leakage of cold air and the infiltration of outside air can be prevented and the perspiration is also prevented. SOLUTION: A door body of a refrigerator is provided with an annular gasket inserting sash 4 on an outer peripheral portion of an inner surface thereof and an engaging groove 5 is formed in the gasket inserting sash 4. An engaging step portion formed on a gasket mounting leg 3 is engaged with the engaging groove 5 so as to attach a gasket 2. Namely, a gasket distal end hook 7 is integrally formed on the distal portion of the gasket mounting leg 3, while a sash inner surface hook 8 is integrally formed on the inner surface bottom portion of the gasket inserting sash 4. The gasket distal end hook 7 and the sash inner surface hook 8 are engaged with each other.
|
en
|
JP-H06214159-A
|
JP-610493-A
|
JP
|
A
|
A
| null | 1993-01-18
| null |
G02B15/20
|
YAMAZAKI SHOICHI
|
Variable power finder
|
en
|
PURPOSE:To provide the compact finder which is small in the number of lens elements and is small in overall length and lens diameter as well at a paraxial power variation ratio of 2.5 times by moving the first to third groups of an objective lens while changing the respective inter-group spacings, thereby varying the power. CONSTITUTION:The objective lens of three groups; negative, positive and positive, varies the power with the positive second group and the positive third group and maintains diopter with the negative first group. The negative first group and the positive second group otherwise vary the power and the positive third group maintains the diopter or the negative first group and the positive third group vary the power and the positive second group maintains the diopter. Above all the case the positive second group and the positive third group vary the power and the negative first group maintains the diopter is best in performance and is excellent in compact design as well. Various aberrations are relatively easily suppressed and the higher variable power is obtd. by moving the positive third group to a subject side nearer the telephoto side from the wide angle side. Further, the focal lengths of the respective groups of the objective lens are varied to the higher power with the relatively weak power by moving the second group to the subject side as well in such a manner that the spacing d4 between the second and third groups decreases.
|
en
|
JP-H10199412-A
|
JP-612397-A
|
JP
|
A
|
A
| null | 1997-01-17
| null |
H01J9/20
|
TAKACHIO FUMIYOSHI
|
Method and device for forming film on panel surface
|
en
|
PROBLEM TO BE SOLVED: To eliminate uneven coating and form a uniform film on the whole surface of a panel by arranging a rotating wind control plate having a space in the center rotating together with a rotating pallet in the upper part of the rotating pallet on which a cathode-ray tube is placed, and forming a control part for letting wind generated by the rotation flow to the panel surface in the inner circumference of the space. SOLUTION: A rotating wind control plate 10 fixed to a rotating pallet 2 through a shaft 9 has a space slightly larger than a cathode ray tube 1, and a plurality of cutting up parts 10b cut up upward are formed in the inner circumferential part of the space. The cutting up parts 10b are formed so that when a rotating shaft 6 rotates in A direction, wind 3 uniformly flows in the surface direction of a panel 1a over the whole surface. When a coating solution 5 is poured onto the surface of the panel 1a, the coating solution 5 is radiately scattered on the surface of the panel 1a by the wind 3 uniformly blown against the surface of the panel 1a, uneven coating is eliminated, and a uniform film is formed.
|
en
|
JP-S5599578-A
|
JP-613479-A
|
JP
|
A
|
A
| null | 1979-01-24
| null |
F27D3/12
|
YAMANE SHIGEMI
|
Jig for baking ceramic parts
|
en
| null | null |
JP-S61165722-A
|
JP-622885-A
|
JP
|
A
|
A
| null | 1985-01-17
| null |
G02B27/28
|
CHIKAMA TERUMI
|
Optical isolator
|
en
|
PURPOSE:To improve isolation by arranging the first taper glass and the second taper glass having prescribed vertical angles in the front of the first polarizing prism and reflected totally reflecting totally ordinary rays as well as extraordi nary rays in the reverse direction by taper glasses. CONSTITUTION:When the exit light of a semiconductor laser 5, namely, the light in the forward direction is made incident on the first taper glass 10 at a prescribed incidence angle, the light is refracted on an incidence surface 20a and is transmitted and is refracted on an exit surface 20b and passes a medium 8 and is made incident on the second taper glass 6. The light incident on the second taper glass 6 is refracted on an incidence surface 21a and is transmitted and is made incident on the first polarizing prism 1. Since the optical axis of the second polarizing prism 2 is inclined at 45 deg. to the first polarizing prism 1, the light is made incident on the second polarizing prism as ordinary rays o1. Consequently, the light is refracted in the second polarizing prism 2 with a refraction index of ordinary rays and is made incident on a taper glass 7. Extraordinary rays (e) has the plane of polarization rotated at 45 deg. by a Farady rotator 3 and are made incident on the second polarizing prism 2 as extraordinary rays e1.
|
en
|
JP-S57121223-A
|
JP-638481-A
|
JP
|
A
|
A
| null | 1981-01-21
| null |
H01L21/768
|
SHIMURA ISAO
|
Semiconductor device
|
en
|
PURPOSE:To prevent invasion of contaminations from the circumferential edge of the electrode part and to prevent deterioration of characteristic of a semiconductor device by a method wherein the device is constituted as to make a passivation film to bury the interval between the inside circumferential face of a window for contact of electrode and the outside circumferential face of the electrode. CONSTITUTION:The interval between the outside circumferential lower edge of the emitter electrode 6 and the inside circumferential lower edge of the window 10 for contact of electrode is made to about 0.5mum, and the inside circumferential face of the window 10 for contact of electrode and the outside circumferential face of the emitter electrode 6 facing thereto are made to have structure extending toward the upper part. As a result, the passivation film 7 can be formed continuously without generating disconnection at a step part, the film reaches surely the interval between the inside circumferential face of the window 10 for contact of electrode and the outside circumferential face of the emitter electrode 6, the exposed emitter region is covered completely. Accordingly contamination from the outside can be prevented.
|
en
|
JP-S61164358-A
|
JP-640385-A
|
JP
|
A
|
A
| null | 1985-01-17
| null |
H04M1/00
|
SHIBUYA HIROTO
|
Power supply circuit of telephone set talking circuit
|
en
|
PURPOSE:To set freely the VL-IL characteristic by connecting a current bypass circuit between a constant current circuit and a common terminal and providing a comparison control circuit and a bias circuit between an input terminal and the common terminal. CONSTITUTION:A constant current circuit and a discharge preventing circuit are connected in series between an input terminal and a constant voltage output terminal and an electronic switch is connected between a discharge preventing circuit connecting point of the constant current circuit and the common terminal. The current bypass circuit is connected between the constant current circuit and the common terminal and the bias circuit and the comparison control circuit are connected in series between the input terminal and the common terminal. The bias circuit controls the DC voltage applied to the constant current circuit and the comparison control circuit generating a current signal to control the switching of th electronic switch and the discharge preventing circuit. The signal driving the comparison control circuit is supplied from the constant current circuit and the constant voltage output terminal.
|
en
|
JP-S5289341-A
|
JP-643676-A
|
JP
|
A
|
A
| null | 1976-01-20
| null |
G02F1/157
|
YANO KOUZOU
|
Indication device
|
en
|
PURPOSE: To provide an indication device, in which white (or colored) background is given by providing intermediate porous white layer (or colored layer) such as filter paper or glass filter on the entire surface of the part for indication in a cell of electrochromic device.
COPYRIGHT: (C)1977,JPO&Japio
|
en
|
JP-S50106627-A
|
JP-646174-A
|
JP
|
A
|
A
| null | 1974-01-11
| null |
G11B11/00
| null | null | null | null | null |
JP-H05193218-A
|
JP-652192-A
|
JP
|
A
|
A
| null | 1992-01-17
| null |
G06Q40/02
|
HAMADA YASUYOSHI
|
Braille printer for books, automatic teller machine with braille printing function, and operation method thereof
|
en
|
PURPOSE:To enable a visually handicapped person to identify the braille printed content of a passbook by oneself by a method wherein a braille printer for books is constructed by providing means for moving a book, a means for turning over a page of the book, and a means for conducting braille printing on each page. CONSTITUTION:Simultaneously with the input of items required for each transaction from an operation part, a request for braille printing is inputted from the operation part. Based on the inputted information, each mechanism of a device conducts processing on an instruction of a control part. Under the control of a passbook handling mechanism control part, a passbook 504 of a customer inserted from a passbook port 514 is received onto a feed path 515 through feed rollers 505, 506 and fed to a predetermined position of a character printing head 501 through feed rollers 507, 508. Here, character printing is conducted on a specified position of the passbook 504 by the character printing head 501. Upon completion of braille printing, the passbook 504 is fed by driving the feed rollers 505, 506, 507, 508 until a page 504a separates from an elastic plate 513. Thereafter, the aforesaid feed rollers are reversely rotated for discharging the passbook 504 out of the passbook port 514.
|
en
|
JP-H10207447-A
|
JP-658997-A
|
JP
|
A
|
A
| null | 1997-01-17
| null |
H04N1/21
|
OBARA TAKASHI
|
Image processor
|
en
|
PROBLEM TO BE SOLVED: To provide an image processor used for the purpose of handling images different in expression forms and capable of executing high-speed plotting by an image memory by using an inexpensive general CPU. SOLUTION: An image memory 103 has a plurality of unit areas. An image generating means 101 generates image data regarding pixels constituting an image. In the image generating means 101, writing of the image data in the unit area of the image memory 103 corresponding to these pixels is determined by a recognizing means 104, if non-writing is determined, image data corresponding to the unit area is synthesized by the generated image data regarding the pixels and clear data, and if writing of the image data is finished already, image data corresponding to the unit area is synthesized by the generated image data regarding the pixels and data existing in the unit area, and then it is written in the unit area by the recognizing means 104 and a memory control means 102.
|
en
|
JP-H06210729-A
|
JP-668293-A
|
JP
|
A
|
A
| null | 1993-01-19
| null |
B29C47/08
|
SONAKA TAKANORI
|
Production of thermoplastic resin embossed sheet
|
en
|
PURPOSE:To obtain a thermoplastic resin embossed sheet having embossed patterns almost same in roughness formed to both surfaces thereof without increasing the thickness irregularity or heat shrinkage factor due to the strain of the sheet. CONSTITUTION:A thermoplastic resin sheet 20 is passed through the nip of a pair of embossing rollers 40, 41 to produce an embossed sheet 21 having embossed patterns formed to both surfaces thereof. At this time, the surface roughness of the upper embossing roller 40 is set to 1.2-1.6Rz with respect to the surface roughness Rz of the lower embossing roller 41 and the embossed sheet 21 is peeled from the upper embossing roller 40 at the outlet of the embossing rollers and subsequently peeled from the lower embossing roller 41 to be transferred. By this method, the objective thermoplastic resin embossed sheet is obtained.
|
en
|
JP-H08193407-A
|
JP-675395-A
|
JP
|
A
|
A
| null | 1995-01-19
| null |
E04B1/80
|
BABA NORIHISA
|
Water disposing structure for insulating panel
|
en
|
PURPOSE: To dispense with management of panels of different types so as to enhance workability by unifying the specification for all the insulating panels including the insulating panel lying at the lowest layer, thereby eliminating the panel of different type. CONSTITUTION: At the lower end of a panel main body, a connective, recessed part 5, whose central part in the direction of thickness is inserted therein, is formed. At the upper end of the panel main body, a connective, projected part, whose central part in the direction of thickness is projected so as to be inserted into the connective, recessed part 5, is formed. At the both front and rear surface sides of the bottom of the connective, recessed part 5, elastic seal members 7a, 7b are attached to the panel main body, ranging over its entire length. An insulating material 7c is arranged between these front (rear) elastic seal members 7a, 7b so as to constitute an insulating panel (P). A horizontal seal plate part 8, which is shorter than the length (a) in the direction of thickness of the insulating panel at the connective, recessed part 5 of the panel (P) but longer than the length (e) in the direction of thickness of the insulating member 7c, and a water-stopping piece 9, which erects at the rear side of metal plates 1, 2 attached to the insulation panel (p) are prepared so as to constitute a water stopper (W).
|
en
|
JP-S63175547-A
|
JP-681587-A
|
JP
|
A
|
A
| null | 1987-01-14
| null |
H03K5/00
|
TAKANO KENICHI
|
Clock selection circuit
|
en
|
PURPOSE:To attain high circuit integration and low power consumption by using an up-down counter so as to constitute a circuit comparing the magnitudes of the pulse number of 2 sets of data strings with each other. CONSTITUTION:The up-down counter 201 is provided to pulse number comparison deciding circuits 21-23 receiving respectively two data strings having a different combination obtained by extracting two data strings among three data strings D1-D3. The magnitude of the pulse number between two sets of data strings is discriminated and a maximum or minimum pulse number is decided among all data strings D1-Dn in a pulse number maximum/minimum detection circuit 4. A clock phii corresponding to the maximum or minimum data string Di is selected by an n-phase clock selection circuit 5 accordingly.
|
en
|
JP-S5289986-A
|
JP-681876-A
|
JP
|
A
|
A
| null | 1976-01-23
| null |
G01N1/22
|
TSUJI SHIYOUGO
|
Sampling apparatus
|
en
|
PURPOSE: This invention relates to an apparatus of drawing and exhausting sample gas to the detecting part of an analyzer for exhaust combustion gas of boiler, etc., wherein construction is simplified and cost a reduced by drawing and exhausting the fluid to be measuered having undergone detection with an ejector.
COPYRIGHT: (C)1977,JPO&Japio
|
en
|
JP-S57120849-A
|
JP-682981-A
|
JP
|
A
|
A
| null | 1981-01-19
| null |
G01N27/12
|
MURAKAMI NOBUAKI
|
Waste gas sensor
|
en
|
PURPOSE:To improve a temperature dependence and heat resistance and to improve the mechanical strength at the same time, by incorporating a bonding agent selected from silica, germanium or zirconia in a metallic oxide semiconductor. CONSTITUTION:An SnCl4 aqueous solution is neutralized by aqueous ammonia and stannic hydroxide is formed by hydrolysis and thereafter, an SnO2 is obtained by drying in air and calcining at 800 deg.C for two hours. 0.05-6wt% silicic acid hydrosol expressed in terms of SiO2 which is obtained by hydrolysis of ethyl silicate, is added as a bonding agent to said SnO2 ground by a ball mill in a wet process and a sensor is obtained by calcining it after drying. Hydrosol of zirconia or germanium is used as the bonding agent other than silicic acid hydrosol in the same way. By continuously using the sensor obtained in such a manner in 850 deg.C waste gas, irregular fluctuations are shown at every measuring day but an irreversible rise is not shown in an oxidizing or reducing atmosphere as shown by a curve 1.
|
en
|
JP-H07212749-A
|
JP-686094-A
|
JP
|
A
|
A
| null | 1994-01-26
| null |
H04N5/232
|
SAKAIDA SHINYA
|
Control system for tv camera
|
en
|
PURPOSE:To change the control state of a TV camera such as iris or AGC by the control of a monitor TV without need for the special control signal line for the change. CONSTITUTION:A control state signal 15 of a TV camera is superimposed on a video signal outputted from a TV camera for a vertical blanking period and the superimposed signal is sent to a monitor TV. The monitor TV superimposes a control revision command signal on the video signal as a level change of a horizontal synchronizing signal by changing a load resistance of a video output in matching with the timing of the horizontal synchronizing signal within a vertical blanking period. The TV camera side detects a level change by a comparator 20 and gives it as a control revision command signal 21 to a control circuit 17, which adjusts the control state of a video signal processing circuit 4 in response to the control revision command signal 21.
|
en
|
JP-H03211902-A
|
JP-690590-A
|
JP
|
A
|
A
| null | 1990-01-16
| null |
H03D9/06
|
SATO KEN
|
Mixer circuit for microwave
|
en
|
PURPOSE:To facilitate the design of the constant for the input matching circuit with an extremely simple constitution while avoiding effect to a non-linear element and thereafter of an input matching circuit, by placing a filter for eliminating an intermediate frequency signal in a pre-stage of the non-linear element. CONSTITUTION:A filter 20 constituted as a distribution coupling circuit for passing a high frequency input signal 1 and a local oscillating signal 5 and eliminating an intermediate frequency signal to these signals is provided on a prestage of a non-linear element 4 for a fixer, so that an input side circuit can be regarded as a short circuit or almost a short-circuited load against the intermediate frequency signal, when looked from this non-linear element 4. In such a way, the filter 20 becomes a short circuit or a low impedance load against the intermediate frequency signal, the intermediate frequency signal is not transferred to an input matching circuit 12, and the design of the for constant the input matching circuit 12 and the filter 20 is facilitated extremely.
|
en
|
JP-H07205376-A
|
JP-703094-A
|
JP
|
A
|
A
| null | 1994-01-26
| null |
B32B27/18
|
KOTANI KOZO
|
Packaging bag
|
en
|
PURPOSE:To provide a packaging bag having high-level air cut-off properties and high content protecting capacity. CONSTITUTION:A packaging bag has at least one layer composed of a resin compsn. consisting of an inorg. laminar compd. with a particle size of 5mum or less and an aspect ratio of 50-5000 and a resin and at least one innermost heat-sealable resin layer.
|
en
|
JP-S5182806-A
|
JP-703875-A
|
JP
|
A
|
A
| null | 1975-01-17
| null |
F01D25/32
|
SUNAGA TOMIO
|
Taabinyokunoeroojonboshikiko
|
ja
| null | null |
JP-S61168404-A
|
JP-708885-A
|
JP
|
A
|
A
| null | 1985-01-18
| null |
B23Q15/00
|
OIDA KAZUO
|
Main spindle control device for lathe tuning machine
|
en
|
PURPOSE:To prevent a decrease of accuracy due to a gear clutch and save energy, by switching a D/A converted output of an S code and a normal and a reverse instruction signal at normal time with speed instruction voltage and a position feedback pulse signal at code machining time. CONSTITUTION:A control device, instructing a normal main spindle function by a central processing unit 3 and inverting speed instruction voltage by a reversible switch 5 to the polarity of positive or negative voltage to be input to a main spindle servoamplifier 6, controls a motor 2 to a fixed speed. Here the speed of a main spindle 1 used for every rotation feed, thread cutting, etc. is input to a pulse distribution controller 9. While the device, when it is con trolled as a C shaft, transmits a pulse to a deviation counter and D/A converter part 10 to be input to the amplifier 6 and detects by an encoder 11 a position of the main spindle 1 to be fed back to the deviation counter and D/A converter part 10. Here switches (a), (b) are switched by an M code programmed for switching a Z mode, but an auxiliary function switching part 12, decoding also the normal and reverse M code of the main spindle 1, gives an instruction to the reversible switch 5 to switch it.
|
en
|
JP-H04248289-A
|
JP-714591-A
|
JP
|
A
|
A
| null | 1991-01-24
| null |
H05B6/12
|
YOSHIDA YUICHI
|
Induction heating cooker and its exclusive load device
|
en
|
PURPOSE:To provide an induction heating cooker and its exclusive load device of a high safety which heat all the parts to be heated, and stop the heating to the parts not to be heated, even though the pot load is varied or the input currents is changed then. CONSTITUTION:An inverter circuit 2 to feed the current to a heating coil 3, and a control device 5 to start and stop the operation of the inverter circuit 2 are provided, and the control device 5 has been composed to output a search signal adequately after a starting signal is output, and to continue the drive of the inverter circuit 2 when an adequate load signal of a load device 4 of a pot and the like is detected at a specific timing after the search signal is output. Furthermore, an exclusive load device furnishing a work coil, a DC power forming means, an adequate load signal generating circuit, and a search signal detecting circuit is provided at the position opposite to the heating coil 3, and the energy of the heating coil 3 is utilized for the power source of the exclusive load device.
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en
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JP-S57121679-A
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JP-728181-A
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JP
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A
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A
| null | 1981-01-22
| null |
D06P5/13
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SHIRASAKI YASUO
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Alkali resist and discharge style of hydrophobic fiber material
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en
| null | null |