Search is not available for this dataset
publication_number
large_stringlengths 6
18
| application_number
large_stringlengths 0
20
| country_code
large_stringclasses 99
values | kind_code
large_stringclasses 104
values | application_kind
large_stringclasses 18
values | publication_date
date32 | filing_date
date32 | grant_date
date32 | ipc
large_stringlengths 5
12
⌀ | inventor_name
large_stringlengths 1
100
⌀ | title_text
large_stringlengths 1
6.12k
⌀ | title_language
large_stringclasses 38
values | abstract_text
large_stringlengths 0
29.2k
⌀ | abstract_language
large_stringclasses 35
values |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
JP-H06131774-A
|
JP-1218492-A
|
JP
|
A
|
A
| null | 1992-01-27
| null |
G12B9/08
|
BOKU HEIKA
|
Cassette holder of tape recorder
|
en
|
PURPOSE: To remove rotational rocking arranging the application point of a spring pressure member to be separated at a mutually prescribed interval and pressurizing a cassette stepwise at the time of inserting the cassette. CONSTITUTION: The elasticity of the blade springs 31a and 31b of the blade springs 31a and 30b of spring pressurizing members 10a and 30b are respectively pressurized to right and left upper face parts 41a and 41b of the cassette 40 through pressurizing rollers 32a and 32b. Then the positions of the rollers 32a and 32b become the application points of the members 30a and 30b. The positions of the rollers 32a and 32b are positioned at y1 and y2 on two horizontal axis lines separated at a prescribed interval L and is arranged to form a tilting angle with respect to the horizontal axis lines y1 and y2 . At the time of inserting the cassette 40 then, the right and left upper face parts 41a and 41b are pressurized stepwise by the pressurizing rollers 32a and 32b of the members 30a and 30b. Then rotational rocking is removed in the stably fixed state of the cassette with respect to the horizontal axis lines y1 and y2 to prevent the oscillation of the tape. Thereby the quality of a sound and a picture are made satisfactory.
|
en
|
JP-H09202955-A
|
JP-1219496-A
|
JP
|
A
|
A
| null | 1996-01-26
| null |
C23C2/20
|
NAGAI MASAKUNI
|
Production of hot-dip plated steel sheet and device therefor
|
en
|
PROBLEM TO BE SOLVED: To produce a galvanized steel sheet free from unevenness in plating adhesion and surface defects caused thereby and excellent in plating appearance by controlling the pushing quantity of a support roll in a gas wiping part and the tension of a steel sheet and bringing the amplitude of the vibration of the steel sheet in the gas wiping part near to zero. SOLUTION: A computer 8 continuously receives positional information of a steel sheet 2 from a range finder 7 as a position measuring device for the steel sheet 2 on the downstream side of a gas wiping device 4 and executes vibration analysis. This computer 8 furthermore receives the information of line speed and coil size from a process computer 12, finds the optimum steel sheet tension and pushing quantity of a support roll 10 for controlling the analyzed vibration from the relations among the vibration and line speed of the steel sheet, steel sheet size, steel sheet tension and pushing quantity of the support roll and outputs the information to a controller 11. In this controller 11, a tension control device 9 and a support roll pushing quantity control device 10 are driven, and PID control is executed so as to regulate the vibration of the steel sheet to zero.
|
en
|
JP-S62170287-A
|
JP-1249786-A
|
JP
|
A
|
A
| null | 1986-01-23
| null |
D05C5/06
|
ISHIHARA TOSHIRO
|
Apparatus for forming stitch data of embroidering machine
|
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-S56110338-A
|
JP-1251580-A
|
JP
|
A
|
A
| null | 1980-02-06
| null |
H03H9/145
|
KISHIMOTO SEIJI
|
Elastic surface wave device
|
en
|
PURPOSE:To ensure an easy D/A conversion of a serial pulse train without lowering the accuracy and regardless of an increment of the number of bits of the pulse train to be converted for an elastic surface wave device that performs a D/A conversion of a serial input pulse. CONSTITUTION:The electrode having an electrode finger logarithm of normal M pairs (M>=1) is connected is common to the pairs of output electrodes 3-1 and 3-2 as the input electrode 2 of an elastic surface wave device. At the same time, several pairs of electrodes corresponding to the electrodes 3-1 and 3-2 are connected in series or parallel to each other. On the other hand, the electrodes 3-1 and 3-2 have MXN pairs (N>=2) of electrode finger pair number with an equal pitch between the electrode plates, and are turned into an weighted electrode in which the electrode finger crossin width changes with every N pairs and in the ratio of 2<i> or 2<-i>(i=0, 1...N- 1) in the order of the distance nearer the electrode 2. Then the distance between the electrodes 3-1 and 3-2 and each pair of input electrodes is made different each by MXNXlambda (lambda: wavelength of elastic surface wave).
|
en
|
JP-H06219778-A
|
JP-1254593-A
|
JP
|
A
|
A
| null | 1993-01-28
| null |
C03C8/00
|
MURASE MASARU
|
Glaze
|
en
|
PURPOSE:To provide a glaze of low expansibility developing no marks of offensive sight even if baked twice after glazing. CONSTITUTION:In the 1st invention, the alumina stock to be used for cordierite glaze is such as to be <=2mum in the particle diameter of alpha-crystal. In the 2nd invention, the alumina-silica stock to be used for the cordierite glaze is pyrophyllite. With these methods, because cordierite crystal is adequately deposited in the 1st baking, such crystal does not grow excessively in the 2nd baking, thus preventing the development of marks of offensive sight.
|
en
|
JP-H01189237-A
|
JP-1255588-A
|
JP
|
A
|
A
| null | 1988-01-25
| null |
H04B7/26
|
TAKAI TAKAYUKI
|
Call response communicating equipment
|
en
|
PURPOSE:To receive and process the response signal of each slave station without errors at a base station executing a simultaneous call by successively sending the response signal in delaying it from a reference timing for an inherent delay time by means of a sending timing delaying means provided on each slave station. CONSTITUTION:A simultaneous calling signal 5 received from the base station through a transmission/reception antenna switching device 7 and a receiver 8 is inputted to a selective reception detector 11, a loudspeaker connective/ disconnective switch 9 is made connective, and a loudspeaker 10 is connected to the receiver 8. Simultaneously, the response signal is generated from a selective call/response signal generator 13, simultaneously, the selective reception detector 11 detects a count start timing signal containing in the above-mentioned calling signal 5, it is delayed by the delay time inputted to a ROM 12 which is the sending timing delaying means, and the response signal is sent from a transmitter 14 through the transmission/reception antenna switching device 7 to the base station. In such a case, the ROM 12 is set so that the delay time of the response signal can be successively delayed in making the above- mentioned count start timing signal into a reference at every slave station.
|
en
|
JP-S58130203-A
|
JP-1259382-A
|
JP
|
A
|
A
| null | 1982-01-29
| null |
C22C1/10
|
KIUCHI MANABU
|
Production of composite material dispersed with aluminum particles
|
en
|
PURPOSE:To produce a composite material dispersed with Al particles with high quality and at a low cost by compression molding a mixed molding of Al alloy powder and ceramic powder while heating the same in a way as to melt part of the Al alloys. CONSTITUTION:The Al alloy powder produced by heating Al alloys to the temp. at which solids and liquid coexist, agitating the same mechanically and pulverizing the mixture to powder is mixed with >=1 kind particles of ceramics such as alumina, silica, silicon carbide, titanium carbide, tungsten carbide, or silicon carbide, so as to contain the same at 55-90% in volume ratio. Such mixture is packed in dies for forging, and after the mixture is prepressurized, the mixture is heated in a temp. range wherein the fraction of the solid phase in the Al alloy powder attains 0-90%, then the powder is compression molded at the conditions under which the Al alloy powder is ina half-molten state, whereby the Al alloys are solified. The composite material dispersed with the Al particles having good mutual dispersibility of the Al alloys and the ceramics and high hardness is obtained.
|
en
|
JP-S55105566-A
|
JP-1265679-A
|
JP
|
A
|
A
| null | 1979-02-06
| null |
B41J2/16
|
NAGAYAMA HARUHIKO
|
Liquid ejector and manufacturing thereof
|
en
|
PURPOSE:To obatin a liquid ejector of small outer diameter usable as a multi nozzle head of high density arrangement by fitting forcible a plural number of easily processable ring-shaped electrostrictive vibrators around an electroconductive pipe of small diameter utilized as a pressurizing chamber. CONSTITUTION:An electrostrictive vibrator column 22 such as a piezo ceramic or the like is cut into a desired thickness and the cut disc-shaped electrostrictive vibrator 23 is formed into a ring-shaped electrostrictive vibrator 11 by a micro-drill processing or a laser processing. The thickness of cutting is determined by an inner diameter and demanded accuracy. Further, the finished ring-shaped electrostrictive vibrators 11 are fitted forcibly piece by piece around an electroconductive pipe 16 secured with a stop ring 20 and an orifice member 12 of an electric insulating body is fitted forcibly therearound finally. A hydrodynamic resisting body 13 is inserted to an opposite side of the orifice 12. Further, lead wires 7 are brazed at positions 9 to the electroconductive film 15 applied around the outer peripheral surface of the electrostrictive vibrators 11 and the electroconductive pipe 16.
|
en
|
JP-S63179550-A
|
JP-1266787-A
|
JP
|
A
|
A
| null | 1987-01-21
| null |
H01L21/768
|
MUKOHARA HIROAKI
|
Manufacture of semiconductor device
|
en
|
PURPOSE:To prevent occurrence of cracks in an insulating film, by using a plurality of interlayer insulating films, and forming the insulating films, which have reverse lay-up stresses. CONSTITUTION:An insulating film 2 and a first electrode layer 3 are formed on a semiconductor substrate. Thereafter, a CVD oxide film 4, which undergoes vapor growth at a low temperature, is formed to a thickness of about 1 mum. Then tensile stress is yielded, and the semiconductor substrate becomes a recess shape. Thereafter, window is opened 4' selectively at a desired part. Then, a plasma nitride film 5 is formed to a thickness of about 1 mum. Then compressive stress is yielded in the insulating film 5, and the semiconductor substrate becomes of a protruding shape. A contact hole 5 is formed in the nitride film 5, and a second electrode layer 6 is formed. Thus the semiconductor substrate becomes an approximately flat state, and the occurrence of cracks can be reduced.
|
en
|
JP-H08197557-A
|
JP-1270195-A
|
JP
|
A
|
A
| null | 1995-01-30
| null |
B29C43/18
|
SAWADA KOJI
|
Manufacture of frp molding with decorating part
|
en
|
PURPOSE: To provide a method of manufacturing an FRP molding which has an excellent surface luster as a finished product and a beautiful decorating part having an sharply defined border line in an efficient production manner. CONSTITUTION: A decorating sheet 30 is deposited on the molding face of a bottom force 10A of a molding die consisting of a top force and the bottom force, and gel coat resins 20A, 20B are applied to the surface of the decorating sheet 30. In addition, an FRP molding material which becomes cured at a molding temperature of 90 to 11 deg. C and a molding pressure of 5 to 15kgf/cm<2> is sandwiched between the top force 10B and the bottom force 10A of the molding die. Then the FRP molding material is molded at the molding temperature and pressure. The decorating sheet is composed of 50 to 80wt.% of pulp and 50 to 20wt.% of titanium oxide and an inorganic material.
|
en
|
JP-H11214510-A
|
JP-1280498-A
|
JP
|
A
|
A
| null | 1998-01-26
| null |
H01L21/768
|
ASANO MASASHI
|
Method for self alignment pattern formation
|
en
|
PROBLEM TO BE SOLVED: To prevent miss alignment with a base pattern. SOLUTION: A second film consisting of substance 6 deactivating acid is formed on a first film consisting of an interlayer insulating film 4 on a base substrate 1 where a gate electrode 3 is made and substance 5 not deactivating acid accumulated on the interlayer insulating film 4, and the second film is patterned, using a first mask in line form along the gate electrode 3. Furthermore, a chemical width increasing positive resist 21 is applied on the second film in line form being made, and it is exposed to light, using a second line-form mask being made to cross the first mask, and resist 21 in exposure region excluding the periphery of the second film is converted into a soluble layer, and a contact hole is made by etching them from above the resist pattern made by the exposure to the first film and the interlayer insulating film 4.
|
en
|
JP-H03217992-A
|
JP-1281290-A
|
JP
|
A
|
A
| null | 1990-01-23
| null |
G06T1/00
|
NIIZAKI TAKU
|
Fingerprint reader
|
en
|
PURPOSE:To evade the fetch of a remaining fingerprint image and at the same time to secure the safety with a fingerprint reader by inhibiting the collation of fingerprints when the irradiation of the disturbance light is detected. CONSTITUTION:A position on a light leading plate 11a containing a remaining fingerprint where a forefinger 8a is pressed is irradiated with the disturbance light having the luminous intensity higher than a prescribed level. This disturbance light is detected by a disturbance light sensor 9a and this detection signal is sent to a control part 7b. Then the part 7b sends the action commands to a read inhibiting part 15 and a reporting part 16. Thus the part 15 inhibits a photodetecting sensor 2a in regard of its photodetection. As a result, the sensor 2 never receives the reflects light of the remaining fingerprint on the plate 11a even if the reflected light reaches the sensor 2. The part 16 actuates a buzzer 41 to report the detection of the disturbance light. Thus it is possible to prevent the collation of remaining fingerprints.
|
en
|
JP-S61173433-A
|
JP-1287185-A
|
JP
|
A
|
A
| null | 1985-01-26
| null |
C10M107/22
|
OOTAKE SUGAKO
|
Switch
|
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-2000004152-A
|
JP-1299299-A
|
JP
|
A
|
A
| null | 1999-01-21
| null |
H03L7/085
|
SHIMURA TAKASHI
|
Time frequency reference signal generator and reference time frequency generating device, and reference time generating device using the same
|
en
|
PROBLEM TO BE SOLVED: To provide a time frequency reference signal generator which corrects the timing of a periodic pulse signal. SOLUTION: This time frequency reference signal generator measures the deviation in generation timing between the synchronous reference pulse signal outputted from a GPS receiver and the frequency-divided pulse signal, generated by dividing the frequency of the output pulse signal of a high-stability internal pulse signal generator 24, in terms of the number of output pulses of the high- stability internal pulse signal oscillator 24 and increases or decreases the frequency division value based on the measured value.
|
en
|
JP-H06217972-A
|
JP-1302993-A
|
JP
|
A
|
A
| null | 1993-01-29
| null |
A61B6/04
|
SATO HIROAKI
|
Examinee-fixing band
|
en
|
PURPOSE:To surely hold an examinee of any physique in place by providing a first band to be wound and secured to a top board, a second band sewed to the first band to hold the examinee from, the right and left, and a third band for fixing the examinee to the top board. CONSTITUTION:This band set for fixing an examinee to the top board 10 of an X-ray diagnostic device comprises a first band l made of a cloth and second 2a, 3a and third 2b, 3b right and left bands each made of a cloth and having one end sewed to the band 1. The first band 1 is wound onto the top board 10 and fixed to the top board 10 by securing its end in place by means of a magic fastener (Velcro(R)). The second bands 3a, 3a are so formed to be capable of holding the chest of an examinee of good physique, and have their respective ends secured in place by means of a magic fastener. The third bands 2b, 3b are provided to be capable of holding both the top board and the examinee and have their respective ends secured in place by means of a magic fastener (velcro(R)).
|
en
|
JP-H04249162-A
|
JP-1327491-A
|
JP
|
A
|
A
| null | 1991-02-04
| null |
B41J29/00
|
YAGETA KOICHI
|
Impact printer
|
en
|
PURPOSE:To detect temperature of hammer coils precisely at a low cost by a hammer drive control method. CONSTITUTION:A plurality of heat sensitive elements provided correspondingly to hammer coils 2 for driving a printing hammer 1 are connected in series or in parallel. Combined resistance value of these heat sensitive elements is monitored by a detecting circuit 5. When a change of the resistance value is above a predetermined quantity, driving of the printing hammer 1 is stopped for a predetermined time through a hammer drive control circuit 6 so as to prevent the hammer coils 2 from burning.
|
en
|
JP-S62170216-A
|
JP-1331186-A
|
JP
|
A
|
A
| null | 1986-01-23
| null |
A47J27/212
|
KAWASAKI NOBUHIKO
|
Electric pot
|
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-S4883540-A
|
JP-1331773-A
|
JP
|
A
|
A
| 5339-04-03
| 1973-02-01
| null |
B60B1/02
| null | null | null | null | null |
JP-H0570443-A
|
JP-1349892-A
|
JP
|
A
|
A
| null | 1992-01-29
| null |
C07D251/22
|
KURUTO BURUDESUKA
|
Process for producing 2-(2',4'-dihydroxyphenyl)-4,6- diaryl-s-triazine
|
en
|
A process is described for the preparation of 2-(2',4'-dihydroxyphenyl)-4,6-diaryl-s-triazines of the formula
<IMAGE>
which is characterised in that 2-hydroxy-4,6-diaryl-s-triazines of the formula
<IMAGE>
are reacted with thionyl chloride at a temperature of between 100 and 150 DEG C in the presence of catalytic amounts of a non-polar solvent and subsequently with 1,3-dihydroxybenzene using a Lewis acid in the presence of an inert organic solvent, it being possible for the rings A in the formulae (1) and (2) to be substituted further by halogen, hydroxyl, lower alkyl, lower alkoxy or lower alkoxycarbonyl.
<??>The present process allows 2-(2',4'-dihydroxyphenyl)-4,6-diaryl-s-triazines which are used as UV absorbers or which represent starting compounds for UV absorbers to be prepared in a simple manner and in good yields.
|
en
|
JP-H03219264-A
|
JP-1351590-A
|
JP
|
A
|
A
| null | 1990-01-25
| null |
B41J2/44
|
BABA ATSUSHI
|
Image forming device
|
en
|
PURPOSE:To know the service life of consumable such as an image carrier and a developing means in advance by counting and displaying the number of times of image formation after the image carrier, developing means, or fixing means are set. CONSTITUTION:A CPU 350 operates according to a program for control which is stored in a ROM 351. A RAM 352 is used as the working buffer of the CPU 350 and an E<2>PROM 353 is stored with the total number of prints and the numbers of prints, etc., from replacement as the number of times of using states of a photosensitive drum, a developing device, and a fixing device. Further, the numbers of prints which are stored are counted up according to the detection signals from paper discharging switches 49a and 49b and cleared according to a detection signal from a detector which detects whether the photosensitive drum, developing device, etc., are new or old. Then the numbers of prints as the number of times of using states of the consumables such as the photosensitive drum and developing device are displayed actively in response to an instruction from a console panel. Consequently, the service life of the consumables such as the photosensitive drum and developing device can be known in advance and they can smoothly be replaced.
|
en
|
JP-S59139009-A
|
JP-1356483-A
|
JP
|
A
|
A
| null | 1983-01-28
| null |
G11B7/09
|
HANAWAKA MASUO
|
Automatic focusing device
|
en
|
PURPOSE:To simplify the constitution of an optical system by constituting a photodetector of quadrisected photodiodes, and deviating slightly the central axis of the photodiodes from the optical axis so that the electrical signal outputs of the one photodiode receiving the center of the spot of the reflected light and the sum of the other three diodes are made equal. CONSTITUTION:A photodetector 6a is disposed with the central axis O-O' of quadrisected photodiodes deviated slightly from the optical axis of the device. The device is so disposed that the central axis passes the part of the photodiode 62 and the center of the reflected light spot is on the photodiode 62. The quadrisected photodiodes 6a are disposed with a slight deviation of the central axis thereof from the optical axis of the device so that the sum of the electrical signal outputs S61, S63, S64 of the photodiodes 61, 63, 64 is made equal to the electrical signal output S62 of the photodiode 62 by the reflected light spot in a focusing state in which the focus is adjusted on the surface of object 4 by an objective 3.
|
en
|
JP-S58132278-A
|
JP-1361583-A
|
JP
|
A
|
A
| null | 1983-01-27
| null |
G10D1/04
|
DEIDEIE BIYUDAN
|
Harp with voice pitch adjusting mechanism
|
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-S5188586-A
|
JP-1364275-A
|
JP
|
A
|
A
| null | 1975-01-31
| null |
A47B55/00
| null |
Goseijushiusuitaseiwakutaino hokyokozo
|
ja
| null | null |
JP-H08202847-A
|
JP-1369395-A
|
JP
|
A
|
A
| null | 1995-01-31
| null |
G06T7/20
|
TSUZUKI KENGO
|
Moving object counting device
|
en
|
PURPOSE: To count a moving object with high precision even if the plural moving objects pass by following the same locus and even if the moving objects continuously pass. CONSTITUTION: This device is constituted of a background picture generation part 103 generating the background picture of the moving object from the input picture of the moving object which is taken in from an image pickup means 101, a moving object area detection part 104 detecting the area of the moving object from the input picture and the background picture, a feature extraction part 105 extracting the feature of the area of the moving object from the detected result, a feature accumulation part 106 accumulating the feature as time sequential information and a counting data estimation part 107 estimating the passing number of the moving objects and the direction of the movement from accumulated time sequential information.
|
en
|
JP-H06223912-A
|
JP-1389493-A
|
JP
|
A
|
A
| null | 1993-01-29
| null |
H02G3/18
|
TSUDA KAORU
|
Floor plug socket
|
en
|
PURPOSE:To provide a floor plug socket in which the stability of a rotary part is not lost. CONSTITUTION:A mounting base 5 is provided with a plate member 1 having an opening part 2 and arranged in the surface of a floor and a fitting part 8 which is rotatably mounted in the plate member 1 and at the same time is elastically deformable. Further, the main body 14 of a plug socket which is projected on the surface of a floor from the opening part 2 of the plate member 1 mounted on the mounting base 5 and accommodated under the surface of a floor and a plug socket cover 16 having a fitted part 19 fitted into the fitting part 8 of the mounting base 5 for holding the main body 14 of a plug socket between the fitting part 8 and the mounting base 5 are provided.
|
en
|
JP-S53100588-A
|
JP-1396677-A
|
JP
|
A
|
A
| null | 1977-02-10
| null |
E02B3/18
|
USHIJIMA TOSHIYUKI
|
Ship capable of dropping pebbles down into the sea and thereafter levelling them on the bottom of the sea
|
en
|
PURPOSE: To provide a ship capable of dropping pebbles down into the sea and thereafter levelling them on the bottom of the sea, in which a pebble levelling means is provided at the lower end of a pebble discharging pipe, so as to enable to carry out dripping and levelling of pebbles efficiently at the same time.
COPYRIGHT: (C)1978,JPO&Japio
|
en
|
JP-H10213455-A
|
JP-1404097-A
|
JP
|
A
|
A
| null | 1997-01-28
| null |
G01D5/30
|
TAN GAKUDEN
|
Optical linear encoder
|
en
|
PROBLEM TO BE SOLVED: To provide an optical encoder, which is compact and has the high measuring accuracy. SOLUTION: An optical linear encoder has a scale 20 and a detecting head 30. The scale 20 comprises, e.g. a glass plate and has an optically detectable pattern. The detecting head 30 has the pattern detecting sensor for detecting movement of the pattern of the scale 20. The pattern detecting sensor has a light source part 32 for projecting the light toward the scale 20 and a light detector 34 for detecting the reflected light from the scale 20. The light source part 32 and the light detecting part 34 are bonded to a heat radiating and wiring substrate 36. The heat radiating substrate 36 is bonded to the slant part of a supporting stage 38. A holding member 40 is bonded to the supporting stage 38. The scale 20 is supported by a guiding groove 42 provided in the holding member 40 so that the scale can be moved in the longitudinal direction. At the upper surface of the guiding groove 42, a plate spring, which pushes the scale 20 to the lower surface of the guiding groove 42 in tight contact, is provided.
|
en
|
JP-S49111252-A
|
JP-1405074-A
|
JP
|
A
|
A
| null | 1974-02-02
| null |
F28F13/18
| null | null | null | null | null |
JP-S5188487-A
|
JP-1408075-A
|
JP
|
A
|
A
| 1185-11-16
| 1975-02-03
| null |
C09K3/00
| null |
Kyushitsuseino ookiigansekino hyomenshorihoho oyobi sonosochi
|
en
| null | null |
JP-H0546020-A
|
JP-1412592-A
|
JP
|
A
|
A
| null | 1992-01-29
| null |
G03G15/09
|
KOGA YOSHIRO
|
Developing device
|
en
|
PURPOSE:To provide a developing device which has high resolution and in which the fluctuation of density is little as a developing device in which soft press-contact developing is stably executed and whose cost is reduced. CONSTITUTION:This developing device 7 is provided with a toner carrier 9 for supplying toner in a state where it press-contacts with a latent image carrier 1 where an electrostatic latent image pattern is formed. The toner carrier is formed of foaming member 13 having a foam part 11 and a solid surface layer part 12, and the foam part 11 and the solid surface layer part 12 are constituted of the continuous phase of the same material and a boundary does not exist substantially between them, and the foaming member 13 has density gradient in a thickness direction.
|
en
|
JP-S54115306-A
|
JP-1414879-A
|
JP
|
A
|
A
| null | 1979-02-09
| null |
B01J23/96
|
PAASHII HAIDEN
|
Manufacture of olefin oxide
|
en
| null | null |
JP-H01262246-A
|
JP-1422089-A
|
JP
|
A
|
A
| null | 1989-01-25
| null |
B60T8/175
|
MANFUREETO BURUKURARUTO
|
Drive slip regulator
|
en
|
PURPOSE: To provide sufficient sensitive responsive move characteristic by controlling the modulation valve of a wheel brake to be on the cut off position when drive slip of a driving wheel reaches a fixed limited value between the target value and the responsive move limit value of drive slip modulation. CONSTITUTION: A hydraulic pressure two circuit control system for vehicle 1 is provided with an anti-lock device (ABS) 2, and a drive slip modulation device (ASR) 3. Its electronic control circuit 46 outputs an output signal energizing an ASR control valve 69 and an output signal energizing the return pump 28 of the brake circuit of driving wheel brakes 7, 8. When drive slip of at least one driving wheel reaches a fixed limit value between the target value and the responsive move limit value of drive slip modulation, an output signal cutting off the modulation valves 41, 42 of the wheel brakes 7, 8 of the driving wheels are generated. In this way, even when the return pump realized in ordinary construction of ABS combined with ASR is used as an auxiliary pressure source, the sufficient sensitive responsive move characteristic can be obtained.
|
en
|
JP-S5399579-A
|
JP-1424977-A
|
JP
|
A
|
A
| null | 1977-02-14
| null |
G06F1/00
|
AIDA MASAAKI
|
Apparatus for cutting and removing covered wire
|
en
|
PURPOSE: To make the apparatus for cutting the covered wire and removing the end thereof small and light in the construction through reciprocation of a device with a cutter and stripping blade fixed thereon, thereby allowing the apparatus to be carried on an automatic small winder.
COPYRIGHT: (C)1978,JPO&Japio
|
en
|
JP-S54108063-A
|
JP-1426778-A
|
JP
|
A
|
A
| null | 1978-02-10
| null |
B01F5/06
|
MATSUI MASAO
|
Static fluid mixer
|
en
|
PURPOSE:For reducing the size of a 3-dimensional fluid passage network and ensuring high efficiency fluid mixation, to interconnect in order the outflow and inflow ports of the fluid passage network units on the upper and lower planes in which groups of said fluid passage units made of the closed fluid passage having branches. CONSTITUTION:Four units U1, U3, U5 and U7 are arranged on a plane P1; and U2, U4, U6 and U8 on a plane P2. Fluid is supplied through the inflow port I2 of said unit U1 from A, is divided and is joined at said unit U1, flows out of the outflow port O1 thereof, flows to the inflow port I2 of said unit U2 through a connected fluid passage C1, is divided and joined at said unit U2, and flows to the inflow port I3 from the outflow port O2 through a connected fluid passage C2. Thus, said fluid flows to B after repeatedly divided and joined while passing each of said units. Such orderly interconnection of said units ensures the reduction in size and the high efficiency fluid mixation of 3-dimensional fluid passage network.
|
en
|
JP-S55106532-A
|
JP-1435379-A
|
JP
|
A
|
A
| null | 1979-02-13
| null |
B01F27/93
|
KATSUTA YASUTSUNE
|
Contacting device for gas and liquid
|
en
|
PURPOSE:To improve contact efficiency between gas and liquid by a device wherein projecting bodies are provided to an outer wall of a rotary bell type gas vessel for introducing the gas in a device for contacting the gas with the liquid by installing a gas vessel in a liquid vessel. CONSTITUTION:A bell-like, cylindrical gas vessel 30 is fixed a the center of a top blockade portion to an upper end of a shaft 20 installed to a liquid vessel 10, and a plurality of ring plate 50 (the upper the plate the larger the outside diameter) with through holes 50a and plate like projection 50b projected upward in circumferential portions are mounted at the outside of the vessel 30 in the fitting hole 50c. When gas 1 is introduced into the vessel 10 contg. a liquid in the arrow direction through a gas feed pipe 40, the gas rising along the shaft 20 is led reversely and downwardly at the top portion of the vessel 30 and falls, is discharged into the liquid at a lower end of the vessel 30 and is atomized by means of the ring plate 50 rotating at the lowermost stage. The gas further rises while being dispersed by the through holes 50a, and is atomized farther successively by means of the ring plates 50 installed to portions upper than the plate, and the gas and the liquid are effectively contacted.
|
en
|
JP-H07222568-A
|
JP-1437394-A
|
JP
|
A
|
A
| null | 1994-02-08
| null |
A23L11/00
|
TAKAHASHI SUSUMU
|
Production of new soybean curd with silk-strained bean curd as parent body and unit therefor
|
en
|
PURPOSE:To provide a method for producing the subject soybean curd and a unit therefor, improved in heating process to effect shortening the unit. CONSTITUTION:In the first process to heat silk-strained bean curd, it is heated, without using hot water, by passing it through the heating atmosphere of a heating device 12 during its conveyance from a bean curd cutting water tank 10 to a chilling water tank 14; therefore, there is no need for any huge heating water tank in case of being scaled up into a production line, compared to the case with conventional heating process with hot water, and the silk-strained bean curd can be heated during its conveyance to the following chilling water tank; thus the production line can be shortened and the amount of effluent treatment can be reduced.
|
en
|
JP-H06232103-A
|
JP-1445793-A
|
JP
|
A
|
A
| null | 1993-02-01
| null |
B08B3/10
|
KISHII SADAHIRO
|
Method of washing
|
en
|
PURPOSE:To make it possible to sufficiently remove particles without damaging parts of semiconductor devices such as wiring made of Al. CONSTITUTION:A semiconductor wafer 8 to be washed is arranged between a electrode 3 and an electrode 4 both facing to each other in a solute 7, and alternating current is applied between the electrode 3 and the electrode 4 from a power supply 6 to apply alternating electric field to the semiconductor wafer 8 so as to remove the static electricity of particles. At the same time, an oscillating circuit and a piezoelectric transducer within a vibration container 2 operated to conduct ultrasonic washing.
|
en
|
JP-H08212253-A
|
JP-1445895-A
|
JP
|
A
|
A
| null | 1995-01-31
| null |
G06Q50/00
|
SUENOBE TOSHIAKI
|
Urgent work support device
|
en
|
PURPOSE: To provide an urgent work support device by which the trouble of customer can be reduced and an accident processing can be dealt with. CONSTITUTION: The urgent support device 1 consists of a computer 11 executing necessary control, an input part 12 giving a support instruction, a patrol schedule data generation device 13 generating work time and the like at every circuit building when respective maintenance workers input their patrol orders on that day and a display part 14 executing various display. Data from the patrol schedule data generation device 13 is stored in the storage part 114 of the computer 11. When the support instruction is inputted, the control part 111 of the computer 11 searches the maintenance worker who is moving nearby from the storage part 114 based on an inputted area code and the time of a time generation part 115. When no one exists, the maintenance worker executing work which does not stop an equipment unit is searched and he is displayed on the display part 14.
|
en
|
JP-S5298008-A
|
JP-1446576-A
|
JP
|
A
|
A
| null | 1976-02-13
| null |
B32B5/18
|
YOKO TAKEJI
|
Foamed ceramic supports and manufacture
|
en
| null | null |
JP-H01191421-A
|
JP-1452888-A
|
JP
|
A
|
A
| null | 1988-01-27
| null |
G03G9/00
|
YAMADA YUICHI
|
Mark position detector
|
en
|
PURPOSE:To suppress the deterioration in the accuracy of detecting a bar-like mark position and to detect the mark position in excellent accuracies in both directions X and Y by disposing the mark so that the longitudinal direction of the mark may coincide with the main scanning direction of two-dimensional imaging means. CONSTITUTION:Reflected lights from a reticle 1 and a wafer 3 are incident to a member 13 as designated by an arrow 101. A rectangular region 102A designated by a broken line is of a region including bar-like marks 19RX, 20RX long in its longitudinal direction, and a rectangular region 102B is similarly of a region including marks 19RY, 20RY. The thus incident lights are reflected by several mirrors and projected to a CCD camera as designated by an arrow 111. As a result that the light of the region 102A is reflected by the mirror, the light is radiated to a rectangular region 110A. On the other hand, the region 102B is not rotated, and the light is projected as an image of the region 110B. Thus, the images of a reticle side mark 19 and a wafer side mark 20 are imaged by the CCD camera 12. As a consequence, the longitudinal direction of the bar-like mark coincides with the main scanning direction of the camera, and the deteriorations in the accuracies of the position detections in both the directions X and Y are suppressed.
|
en
|
JP-H01193418-A
|
JP-1455388-A
|
JP
|
A
|
A
| null | 1988-01-27
| null |
F16D65/78
|
ITO YUZURU
|
Cooling circuit for brake
|
en
|
PURPOSE:To intend to reduce a pressure loss of a pump and to prevent overheat of a brake, by communicating the discharge passage of a pump to a tank through a cooling oil passage for a brake, and by providing a flow control valve on the inlet side of the cooling oil passage so as not to actuate it in case of higher brake temperature than the prescribed in use of a retarder. CONSTITUTION:The discharge passage 2 of a pump 1 is connected to the first passage 3 and the second passage 4, so as to communicate the first passage 3 to a tank 7 through a cooling oil passage 5a for a brake 5 and an oil cooler 6, and the second passage 4 to the tank 7 through a flow control valve 8. This flow control valve 8 comprises a low and a high pressure relief valves 9, 10, and an electromagnetic valve 11. The solenoid 11a of the electromagnetic valve 11 operates by the first relay switch 20 actuated with an oil pressure sensor 23, and by the second relay switch 21 actuated with a retarder switch 24. Consequently with the brake released and brake temperature lower than the prescribed, the discharge oil from the pump 1 is released to the tank 7 so as to reduce the pressure loss of the pump 1. Thus, overheat of the brake can be prevented.
|
en
|
JP-S57131666-A
|
JP-1455781-A
|
JP
|
A
|
A
| null | 1981-02-02
| null |
B65H29/66
|
YAMADA MASATOSHI
|
Signature supply device
|
en
|
PURPOSE:To automatically supply signatures in a loosened condition by a method wherein a device for supplying signatures to a gathering machine for forming a book is provided with a moving device for feeding stacked signatures upward, a conveyor leading from the moving device to a pocket of the gathering machine, and a loop formed belt for loosening the signatures. CONSTITUTION:A predetermined amount of a bound form of papers or sheets such as signatures A previously stacked on a support plate 14 of the moving device 1 by manual operation is moved upward by the function of the device 1. Then, the right end of the signature thus moved up is engaged with a loop formed belt 32 constituting the front part of the loop formed belt 3 being moved, and said end is turned up and bent to be separated from the succeeding signature A. In this bent condition, the right end of the signature A is engaged with a rear-part loop formed belt 33, is separated completely from the succeeding signature A and is transferred onto the conveyor 2 being moved. thereafter, each of the signatures thus separated and loosened is transferred to the pocket 7 by the conveyor 2, is supplied into the pocket 7 through a roller 26 in the loosened condition and a predetermined amount of the signatures is stored in the pocket 7.
|
en
|
JP-S50110259-A
|
JP-1456974-A
|
JP
|
A
|
A
| null | 1974-02-06
| null |
H03G5/02
| null | null | null | null | null |
JP-H02195444-A
|
JP-1471289-A
|
JP
|
A
|
A
| null | 1989-01-24
| null |
G06F11/22
|
SENBA KENICHI
|
Method for designing printed board mounted on microcomputer
|
en
|
PURPOSE:To easily retrieve a fault and to shorten the debugging time of hardware by separating respective circuits in each block and retrieving the fault. CONSTITUTION:When a fault is generated in a monitor command e.g., a processor block is electrically disconnected from a monitoring circuit 600 by turning off a 1st switch element 800 and the cause of the fault is retrieved in the processor block consisting of a processor 100, a storage circuit 200, a serial conversion circuit 400, and a timing pulse generating circuit 500. When the cause of the fault is not detected in the processor block, the switch element 800 is turned on and a 2nd switch element 900 is turned on to retrieve the cause of the fault in the circuit 600. When the cause of the fault is not detected in the block of the circuit 600, both the switch elements 800, 900 are turned on and an interface circuit 700 is retrieved.
|
en
|
JP-H01190511-A
|
JP-1494088-A
|
JP
|
A
|
A
| null | 1988-01-26
| null |
B60G7/00
|
WATANABE KENICHI
|
Vehicle suspension device
|
en
|
PURPOSE:To prevent the camber angle and the toe-in angle from varying, by providing a first wheel support member having a knuckle arm and a second wheel support arm coupled to the first wheel support member so as to be soft in the longitudinal direction but is hard in the transverse direction and having a steering wheel attaching part. CONSTITUTION:A knuckle 1 as a vehicle support member is divided in two upper and lower split knuckles 1A, 1B. A spindle 9 is projected from the lower end part of the lower split knuckle 1B, and is attached thereto with a rotatable steering wheel 10. A knuckle arm is projected from the lower end part of the upper knuckle 1A, and is connected thereto with a tie-rod 13 through the intermediary of a ball joint 7. The vehicle-widthwise outer end part of an upper suspension arm 2 is coupled to the upper end part of the upper knuckle 1A through the intermediary of a ball joint 7 while the vehicle-widthwise outer end part of a lower suspension arm 3 is connected to the lower end part of the lower knuckle 1B through a ball joint 8. In this arrangement, the upper knuckle 1A is set so as to be soft in the longitudinal direction but hard in the transverse direction.
|
en
|
JP-H06277519-A
|
JP-1498194-A
|
JP
|
A
|
A
| null | 1994-01-14
| null |
B01J29/08
|
RICHIYAADO FURANKURIN UOOMUZUB
|
Method of reducing sulfur in fcc gasoline
|
en
|
PURPOSE: To obtain a catalytic cracking catalyst composition of a cracking product having low sulfur content by constituting the composition of a Lewis acid supported upon aluminum and molecular sieve distributed in an inorganic oxide matrix as a different material. CONSTITUTION: This catalytic cracking catalyst composition is constituted of a Lewis acid supported upon molecular sieve and aluminum distributed in an inorganic oxide matrix as a different material. A mechanism to remove a sulfur component in a hydrocarbon product produced by cracking with alumina containing the Lewis acid is thought as interactions of a sulfur seed of Lewis base produced by cracking of hydrocarbon containing sulfur with the Lewis acid on alumina by adsorption or chemical reaction. One of the interactions is adsorption of the Lewis base seed of sulfur by alumina containing the Lewis acid at a riser/reactor side of FCC. Consequently the sulfur seed adsorbed is oxidized and more sulfur seeds are adsorbed at the reactor side.
|
en
|
JP-H06231547-A
|
JP-1500093-A
|
JP
|
A
|
A
| null | 1993-02-01
| null |
G11B20/10
|
HAYASHI HIDEKI
|
Digital signal reproducer
|
en
|
PURPOSE:To correct a sampling clock by detecting a section in which a sampled value obtained by sampling a read signal is continuously increased or decreased for a predetermined time. CONSTITUTION:A pattern detector 33 supplies, when a data row pattern of a sampled value (q) varying by continuously increasing or decreasing from a sampled value (q) to be supplied is detected, a detection flag (r) of a logic [1] to a level detector 34. Further, the detector 33 supplies a decision flag (s) of a logic [0], when a data row pattern of a sampled value (q) varying by continuously increasing is detected, and a decision flag (s) of a logic [1], when a data row pattern of a sampled value (q) varying by continuously decreasing is detected, to a polarity switching circuit 35. For example, it detects a section in which 3 clocks of sampled clocks are continuously increased or decreased, and corrects a phase of the sampled clock based on the sampled value obtained at an intermediate point of the section.
|
en
|
JP-H01190473-A
|
JP-1510588-A
|
JP
|
A
|
A
| null | 1988-01-25
| null |
B41J5/30
|
KITA KAZUNORI
|
Printing device
|
en
|
PURPOSE:To save printing sheets by providing a printing mode setting section for forcibly altering a page-feed instruction to a line-feed instruction and a forcible line-feed pattern generating section for printing a note to the effect that a forcible line-feed has been performed. CONSTITUTION:When a debugging mode is set, a printing control circuit 4 forcibly alters a 'page-feed instruction' out of printing control signals 6 from a data processing device to a 'line-feed instruction' by means of a printing mode signal 9 and generates a control signal 8 so as to control the printing section 2. A printing pattern for informing the operator that a forcible line-feed has been performed by means of a printing mode signal 9 is generated in a forcible line-feed pattern generating section 11 and is sent to a memory circuit 1 as the forcible line-feed pattern information 10. That is, although the printing section 2 is supposed to originally feed pages so as to start printing, instead the printing section 2 first feeds lines and continues printing after printing a note to the effect that a forcible line-feed has been performed.
|
en
|
JP-S62175464-A
|
JP-1523786-A
|
JP
|
A
|
A
| null | 1986-01-27
| null |
C09K19/34
|
SHIONOZAKI YOSHITAKE
|
2-phenylpyridine derivative
|
en
|
NEW MATERIAL:A 2-phenylpyridine derivative expressed by formula I (R<1> is 2-12C straight-chain alkyl; n is an integer of 1-3; * is optically active carbon atom). EXAMPLE:(R)2-[4-(4-Methyldecyloxy)phenyl]-5-octylpyridine. USE:Useful as a ferroelectric liquid crystal composition, used as a high-speed optical switching element or electrooptical liquid crystal cell and having good chemical stability, light resistance, stability, etc., to influences of electric fields, etc. The temperature range is within an ideal region including about room temperature (about 27-52 deg.C). Low viscosity. PREPARATION:4-Methoxybromobenzene expressed by formula II is lithiated with n-butyllithium and the resultant product is reacted with dry pyridine and hydrolyzed. The resultant compound expressed by formula III, together with hydrobromic acid, is heated and etherified with an optically active alkyl bromide, etc., to afford the aimed compound expressed by formula I.
|
en
|
JP-S55108092-A
|
JP-1524779-A
|
JP
|
A
|
A
| null | 1979-02-13
| null |
G07G1/00
|
SUGIURA IKUZOU
|
Electronic cash register
|
en
| null | null |
JP-S63184095-A
|
JP-1525687-A
|
JP
|
A
|
A
| null | 1987-01-27
| null |
G21C7/22
|
IKEDA TATSUMI
|
Nuclear-reactor stop device
|
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-H07312429-A
|
JP-1538795-A
|
JP
|
A
|
A
| null | 1995-02-01
| null |
H01L21/331
|
YAMAMOTO MUNEYOSHI
|
Semiconductor device
|
en
|
PURPOSE:To provide a semiconductor device which can precisely set a withstand voltage value. CONSTITUTION:An N<--> epitaxial layer 12 is formed on the surface of an Nf silicon substrate 11. An N<+> emitter region 14 whose periphery is enclosed with a P<+> base region 13 is formed on the surface of the epitaxial layer 12. An N<-> field region 15 is formed so as to include the outermost peripheral bonding bent part of the base region 13 and enclose the base region 13. The N<-> field region 15 is so formed that the diffusion depth is greater than that of the base region 13 and the impurity concentration is higher than that of the epitaxial layer 12. An EQR 16 composed of N<+> is formed in the outer peripheral part on the N<-> field region 15.
|
en
|
JP-S4884265-A
|
JP-1539572-A
|
JP
|
A
|
A
| null | 1972-02-14
| null |
F16H7/02
| null | null | null | null | null |
JP-S53101489-A
|
JP-1554477-A
|
JP
|
A
|
A
| null | 1977-02-17
| null |
G01N33/20
|
OOTANI RIYOUICHI
|
Hydrogen meter for liquid metal
|
en
|
PURPOSE: To make possible the miniaturization of a meter and the improvement in the reliability of its responsiveness by using a Schottky diode as a hydrogen detecting element which has good coexistence characteristic with liquid metal and has a metal protection film on the surface, on the surface of electrodes.
COPYRIGHT: (C)1978,JPO&Japio
|
en
|
JP-S49112051-A
|
JP-1555774-A
|
JP
|
A
|
A
| null | 1974-02-08
| null |
F16H55/17
| null | null | null | null | null |
JP-S58136814-A
|
JP-1556482-A
|
JP
|
A
|
A
| null | 1982-02-04
| null |
A42B3/00
|
NAKAGAWA SHIYUUICHI
|
Helmet
|
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-H10214267-A
|
JP-1559697-A
|
JP
|
A
|
A
| null | 1997-01-29
| null |
G06K9/62
|
AITANI YASUHIRO
|
Handwritten character and symbol processor and medium recording control program for the processor
|
en
|
PROBLEM TO BE SOLVED: To quickly and easily retrieve an input handwritten character and symbol. SOLUTION: The approximate shaping processing of stroke data inputted from a stroke data inputting part 5 by handwriting input is performed, single stroke processing is operated for preparing one stroke data, the complex Fourier transformation processing of the data is performed for obtaining Fourier coefficients, and the number of strokes is obtained. At the time of registration, dictionary Fourier coefficients 21 and a dictionary stroke number 20 and a dictionary stroke data 19 are made correspond to each other, and stored in a dictionary storage part 17. At the time of retrieval, retrieval Fourier coefficients 24 and a retrieval stroke number 23 are temporarily stored in a temporary storage part 18, the dictionary stroke data 19 are narrowed down according to the compared result of the stroke numbers 20 and 23, and the dictionary stroke data 19 are decided according to the compared result of the Fourier coefficients 21 and 24.
|
en
|
JP-S63184466-A
|
JP-1559787-A
|
JP
|
A
|
A
| null | 1987-01-26
| null |
G09G1/06
|
OTSUKI MITSUHIRO
|
Document producing and outputting device
|
en
|
PURPOSE:To simplify the print output of a document by applying discrete print output of a document in a document RAM on an original according to the 2-dimensional arrangement in the RAM. CONSTITUTION:The document read by an image scanner 5 before the document input is started is displayed on a CRT 3 and the part without document is displayed by a blank. The character interval and the line interval are set and the writing of the document to the space is finished, the same original is set to a printer 4 to command the start of print output to a CPU 11 from a keyboard 2. The CPU 11 identifies the size of print paper from the size of the original preserved in the work RAM 13 and the document produced in the document RAM 15 is transferred to the printer 4, and is printed out.
|
en
|
JP-H11206255-A
|
JP-1559798-A
|
JP
|
A
|
A
| null | 1998-01-28
| null |
A01G27/00
|
SAITO AKIHIRO
|
Plant cultivating unit
|
en
|
PROBLEM TO BE SOLVED: To provide a plant cultivating unit, simply supplied with water and easily handled. SOLUTION: This plant cultivating unit comprises a cultivating section 1 which is a container holding soil or the like; water storing section 2 composed of a water tank, water guide which sends water from the water tank to the cultivating section 1 and pump which pumps water from the water tank to water sprinkling holes 23 provided in the water guide; and power source 3 composed of a solar cell unit 31, battery and controller, wherein the pump is driven only by power supplied form the built-in power source 3 without using indoor plug receptacle to automatically supply water from the water tank to the cultivating section 1 without needing manpower, to keep the plant even when it is left unattended because of traveling or the like.
|
en
|
JP-2000214493-A
|
JP-1566899-A
|
JP
|
A
|
A
| null | 1999-01-25
| null |
G02F1/161
|
INOUE TOSHIKI
|
Electrochromic device and its production
|
en
|
PROBLEM TO BE SOLVED: To provide an electrochromic(EC) device in which a sealing agent is hardly peeled and the leaking of an electrolyte can be prevented, and to provide a method for the production of the device. SOLUTION: In this device, an electrolyte layer 5 and an electrochromic(EC) layer 4 are sealed with a sealing agent applied between a first transparent substrate 1 or a first transparent electrode layer 2 and a second transparent substrate 7 or a second transparent electrode 6. Thereby, the end face of the EC layer 4 is not exposed to air so that the water content in the air does not intrude into the EC layer through the end face of the EC layer 4. Thereby, the adhesion property of the sealing agent is well maintained.
|
en
|
JP-H05207996-A
|
JP-1568992-A
|
JP
|
A
|
A
| null | 1992-01-31
| null |
A61B6/00
|
AOKI KUNIO
|
X-ray diagnostic device
|
en
|
PURPOSE:To provide the X-ray diagnostic device which can control the stop of X-ray exposure by the concn. of a contrast medium in an X-ray diagnosis using the contrast medium. CONSTITUTION:The X-ray diagnostic device for obtaining the X-ray image of a testee body with lapse of time by using the contrast medium is provided with a characteristic value computing device 9, a peak detector and a concn. comparing device 11 so that the stop of the X-ray exposure is controlled in accordance with the prescribed characteristic value of an image signal, for example, a change in the concn. of the contrast medium with lapse of time. As a result, the collection of such an image which does not contribute to the diagnosis by thinning of the contrast medium is obviated. The stop of the image collection and the making of the diagnosis again before the contrast medium arrives at a diagnostic section are averted.
|
en
|
JP-H07205019-A
|
JP-1571894-A
|
JP
|
A
|
A
| null | 1994-01-17
| null |
B24B37/30
|
EGUCHI TOSHIMASU
|
Pressure plate in polishing machine
|
en
|
PURPOSE:To absorb roughness on a non-polished surface by a soft plate and to highly accurately polish a surface to be polished by sticking a soft plate to a base plate, sticking the non-polished surface of a workpiece thereto by liquid and circumferentially laying a control ring along the outer periphery of the workpiece. CONSTITUTION:A polishing machine is provided with a polishing plate 2 pivotally supported on one side rotary shaft 2a with polishing cloth 1 spread and a base plate 3 pivotally supported on the other side rotary shaft 3a by holding a workpiece W. The workpiece W is held between both plates 2 and 3 and polished. In such constitution, a soft plate 4 formed of a soft member is stuck to the base plate 3. The non-polished surface Wa of the workpiece W is stuck by liquid to the soft plate 4. A control ring 5 is circumferentially laid on the outer periphery of the workpiece W slightly lower than a surface Wa to be polished thereof. Thus, roughness on the non-polished surface Wa is absorbed by the soft plate 4 and the surface Wb to be polished is highly accurately polished.
|
en
|
JP-S54108579-A
|
JP-1577178-A
|
JP
|
A
|
A
| null | 1978-02-14
| null |
B01J3/00
|
KUDOU DAIJIROU
|
Method and device for plasma etching
|
en
|
PURPOSE: To fulfill high-speed and high-precision etching by increasing etching power while cooling heat at the time of the generation of plasma.
CONSTITUTION: Electrode plate 21 with a wafer mounted is equipped to holder 20 and put into reactor tube 18 and high-frequency power 15 is supplied while etching gas is flowed with the internal pressure held at approximate 0.5 Torr., so that plasma will be generated among electrodes 21. At this time liquid freon, etc., is supplied to cooling part 19 of tube 18 by pump 13 to stop the temperature inside of the tube to rise. The temperature and flow of the refrigerant are varied corresponding to the high-frequency power applied and the temperature is held at a temperature of below 50°C when the resist mask on the wafer will not change in quality. Consequently, faster and more accurate etching can be done without causing the etching mask to change in quality and to deform.
COPYRIGHT: (C)1979,JPO&Japio
|
en
|
JP-S57130412-A
|
JP-1582381-A
|
JP
|
A
|
A
| null | 1981-02-06
| null |
H01F27/36
|
SAITOU TATSU
|
Stationary induction electric apparatus
|
en
|
PURPOSE:To absorb leaked magnetic flux, by setting ferromagnetic materal extending over the upper and lower magnetic clamps at the position opposite to the lead drawing part of the magnetic clamp on the tank side in a stationary induction apparatus which is contained in a tank. CONSTITUTION:Iron core clamping fixtures 4, 5 are applied on the both side surfaces of iron core yokes 2, 3, and coaxially wound-up inside and outside windings 6, 7 are strongly pressed from above and below to be securely fixed on the iron leg 1. On the side of a tank 8 opposite to the high voltage lead wire 11 drawing opening 12 formed in the ring-shaped magnetic clamp 9 loaded between the yoke 2 and winding 6, 7, ferromagnetic material 13 extending in vertical direction over the upper and lower clamps 9, 10 is installed via non-magnetic insulator. The material 13 is constituted by laminating band iron plates consisting of a plurality of silicon steel plates, etc. parallel to the side of the tank 8, having the width with approximately the same dimension as the opening 12. Thus, the majority of the leaked magnetic flux from windings can be absorbed by the material 13.
|
en
|
JP-H09177290-A
|
JP-1591497-A
|
JP
|
A
|
A
| null | 1997-01-13
| null |
E04F15/18
|
YAMANAKA MASANAO
|
Floor structure
|
en
|
PROBLEM TO BE SOLVED: To prevent moisture from stagnating under the floor and preclude corrosion of floor panels by laying a panel body fitted with an elastic supporting leg, attaching a baseboard to the wall through furring strips, and putting the under-the-floor air in communication with the intra-room air. SOLUTION: A panel body 4 equipped at the bottom with a supporting leg 2 having an elastic piece 3 with level adjustability is laid on a floor foundation 1 such as concrete slab, and a waste lining 5 and finish material 6 are affixed to the panel body 4. Then a baseboard 8 is installed on the wall 9 through a furring strip 7, which is furnished with grooves over and below at a certain spacing so as to serve as gaps on the back of the baseboard 8, and the air under the floor is circulated onto the floor at all times. This prevents the moisture from stagnating under the floor which may result in warping of the floor surface or decay of the floor panel, and allows enhancement of the isolating performance for floor impact sounds.
|
en
|
JP-S55108846-A
|
JP-1591979-A
|
JP
|
A
|
A
| null | 1979-02-14
| null |
C07C233/65
|
MATSUNARI KENJI
|
N-substituted benzanilide derivative and fungicide comprising it
|
en
|
NEW MATERIAL:An N-substituted benzanilide derivative of formula I (R is 1W 4C alkyl group; X is alkyl, alkoxy, CN, etc.; however, R is 3W4C alkyl group when X is alkyl or alkoxy group).
EXAMPLE: 4-(tert-Butyl)-N-(n-propyl)-N'-isopropoxybenzanilide.
USE: A fungicide having a great activity against Piricularia oryzae, without phytotoxicity to plants.
PROCESS: An amide compound of formula II is reacted with a halide of formula III in a solvent, e.g. benzene, in the presence of a sodium alcoholate or NaH, to give the title compound of formula I.
COPYRIGHT: (C)1980,JPO&Japio
|
en
|
JP-H06199059-A
|
JP-1593593-A
|
JP
|
A
|
A
| null | 1993-01-05
| null |
B41M5/42
|
NAKANO HIROSHI
|
Heat-sensitive transfer recording sheet
|
en
|
PURPOSE:To provide a heat-sensitive transfer recording sheet which produces a high-luminance and high-density print image without being influenced by a recording medium to be transferred. CONSTITUTION:In a heat-sensitive substrate, a peel layer consisting mainly of resin and/or wax, a thermoplastic ink layer, and a thermoplastic ink shield layer are applied, in the order, on a heat resistant substrate.
|
en
|
JP-S58136857-A
|
JP-1598482-A
|
JP
|
A
|
A
| null | 1982-02-03
| null |
D03D27/12
|
SUMIYA HIDEAKI
|
Seal withdrawal prevented seal fabric, production thereof and comb used therein
|
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-S63294973-A
|
JP-1613387-A
|
JP
|
A
|
A
| null | 1987-01-28
| null |
F16L55/16
|
SATO YUKIO
|
Method for lining underground pipe and water absorptive resin composition for lining pretreatment
|
en
|
PURPOSE:To repair the defective part of an underground pipe at a damp ground zone by spouting a water absorptive resin into the earth from the defective part, etc., of the underground pipe, and then lining the inner surface of the underground pipe. CONSTITUTION:The water absorptive resin composition A is forced into the underground pipe 1 having a corrosion hole or a defective part 1c from its one end, and spouted into the earth from the corrosion hole or the defective part 1c. Infiltration of water into the underground pipe 1 is prevented by the water stopping action of the spouted water absorptive resin composition A, and then the inner surface of the underground pipe 1 is lined. The water absorptive resin composition is prepared by incorporating 0-50pts.wt. inorg. filler into 100pts.wt. mixture contg. 10-99.9pts.wt. hydrophilic solvent and 0.1-90pts. wt. water absorptive resin. Polyacrylate resin, etc., are exemplified as the water absorptive resin.
|
en
|
JP-S53102459-A
|
JP-1616777-A
|
JP
|
A
|
A
| null | 1977-02-18
| null |
F16H3/74
|
ENDOU TOSHINAGA
|
Automatic speed change gear
|
en
| null | null |
JP-H11212535-A
|
JP-1616798-A
|
JP
|
A
|
A
| null | 1998-01-28
| null |
H04N5/45
|
KAMISE SHIGEAKI
|
Screen display device
|
en
|
PROBLEM TO BE SOLVED: To prevent drop-out of display information of a screen in an overlapping part in the case that plural overlapping screens are composited and displayed. SOLUTION: A video signal second synthesizing circuit 18 converts display range data of two screens based on display control data from a display control data selection circuit 20 with respect to a composite video signal g1 from a video signal first compositing circuit 17 so that these display range data do not overlap, and two screens of two video signals are inserted to these converted display range data of two screens to generate composite video data p1, and this data is displayed on a monitor 19 of a video display means.
|
en
|
JP-H07223634-A
|
JP-1620194-A
|
JP
|
A
|
A
| null | 1994-02-10
| null |
B65D5/74
|
KITAYAMA KOICHI
|
Assembled box with outlet port
|
en
|
PURPOSE:To provide an assembled box with an outlet port which makes opening/closing of the outlet port smooth and can be fixed and held at an opened position and a closed position. CONSTITUTION:An assembled box with an outlet port is substantially parallelepiped. An outlet piece 16 having an outlet port 12 is formed between two cut lines 11, 11 on a first side, while guide faces 17 are formed on both sides of the piece 16. A lid piece 31 is provided on a third side opposite to the first side 1. The lid piece 31 comprises an end face part 32 which can be overlapped with a first end face 5 and an outlet port closing piece 33 which are connected via a second fold line 55, while side cuts 36, 36 are formed respectively on both sides of the vicinity of the tip of the outlet port closing piece 33. Locking parts 22 are formed on the first end face 5, and a cut groove 50 which can be engaged with the tip of the outlet piece 16 is formed between the parts 22. In a closed state, a deep end of the cut line holds the tip of the outlet port closing piece 33, while in an opened state the side cut and the locking part are engaged with each other.
|
en
|
JP-H09206506-A
|
JP-1629496-A
|
JP
|
A
|
A
| null | 1996-02-01
| null |
B01D19/00
|
MIYAMOTO HITOSHI
|
Gas and liquid separator
|
en
|
PROBLEM TO BE SOLVED: To provide a gas and liquid separator enabling to prevent involving of gas and also enhance the separation performance. SOLUTION: This separator is provided with an annular horizontal baffle plate 5 on the inside wall 4 of the cylindrical part of the gas and liquid separator 1, and besides radially with plural rectangular vertical baffle plates 6 on the inside wall 4 of the cylindrical part at the lower place than the horizontal baffle plate 5. The generation of a circular vortex in a liquid phase due to a rotational centrifugal force caused by two gaseous and liquid phase streams flowing into the cylindrical part 3 is suppressed with the horizontal baffle plate 5 and besides the generation of a sucking vortex generated by sucking of the drain is suppressed by the above vertical baffle plates 6 and the involving of gas into a water outlet pipe 7 is suppressed.
|
en
|
JP-S5192014-A
|
JP-1643175-A
|
JP
|
A
|
A
| null | 1975-02-07
| null |
H02J7/14
| null | null | null | null | null |
JP-H01191893-A
|
JP-1643388-A
|
JP
|
A
|
A
| null | 1988-01-27
| null |
G09G5/30
|
TOMINAGA HITOSHI
|
Enlarged character display system
|
en
|
PURPOSE:To enlarge and display an input character and to make input data easily visible by providing a screen defining body, an enlarged character discriminating part and an enlargement processing part. CONSTITUTION:As for a screen defining body 1, attribute information of a size of a display of an input character, etc., is brought to loading to a storage area of a CPU from a disk device, whenever a screen is switched. Therefore, a work program 6 can input and output the screen without being conscious of a position of an item and an enlarged display, etc. A format editing part 2 consists of an enlarged character discriminating part 2-1 and an enlargement processing part 2-2, and executes an input and an output between a screen 4 and a keyboard 5, while referring to the screen defining body 1, by using a control program 3 by an instruction of the work program 6. The format editing part 2 refers to the screen defining body 1 and discriminates by the discriminating part 2-1 whether an enlarged display is necessary or not, and in case when it is necessary, the processing part 2-2 converts the input character to an enlarged character. According to this constitution, since a classification of a character to be enlarged, etc., are defined in advance as an attribute of an item of the screen defining body 1, the character concerned is enlarged and displayed automatically, and input information can be confirmed easily.
|
en
|
JP-H09210489-A
|
JP-1647696-A
|
JP
|
A
|
A
| null | 1996-02-01
| null |
F25B9/14
|
NAIKI KIYOO
|
Stirling refrigerator
|
en
|
PROBLEM TO BE SOLVED: To provide a Stirling refrigerator having a compressor which does not transmit the vibration of the compressor main body to the outside by sufficiently attenuating the vibration of the compressor main body. SOLUTION: In the case of central fixation, the vicinity of the center of gravity of the cylinder outer periphery of a compressor main body, is fixed by press-fitting in a flange 84 of a casing 62, and the vicinities of the centers of gravity 86, 87 on both sides of the fixed part of the compressor main body, the vicinities of maximum moment generation positions 88, 89, and both end parts 90, 92-94 in the axial direction, are positively supported by elastic supporting bodies. Thus, the vibration of the compressor main body is sufficiently attenuated, and the vibration is prevented from being transmitted to the casing 62. Also, a rubber packing is pinched between a cylinder attaching screw 101 and a cylinder attaching member 73, a connecting member 104 and a cylinder 63. By this method, the vibration in the axial direction, which is generated on the cylinder 63, is absorbed, and is prevented from being transmitted to the cylinder attaching member 73.
|
en
|
JP-S5191643-A
|
JP-1655075-A
|
JP
|
A
|
A
| null | 1975-02-08
| null |
H02M1/12
| null | null | null | null | null |
JP-S50110736-A
|
JP-1658474-A
|
JP
|
A
|
A
| 1192-03-15
| 1974-02-09
| null |
H04N5/222
| null | null | null | null | null |
JP-S53102531-A
|
JP-1658977-A
|
JP
|
A
|
A
| null | 1977-02-17
| null |
B60G17/015
|
SEKIGUCHI TOMOYOSHI
|
Device for selecting ground height of vehicle for hydraulic suspension system
|
en
|
PURPOSE: To prevent the excessive unbalance of the ground hights of the respective wheels of a vehicle from occurring by the hydraulic suspension devices for the respective wheels by adjusting the ground height immediately in response to the operation of a ground height adjusting lever by interlocking a movable plate, piston and poppet valve.
COPYRIGHT: (C)1978,JPO&Japio
|
en
|
JP-S61176543-A
|
JP-1666985-A
|
JP
|
A
|
A
| null | 1985-02-01
| null |
B01J23/00
|
MATSUMOTO MASAKATSU
|
Production of fluorophenol
|
en
|
PURPOSE:To produce the titled compound useful as an intermediate for pharmaceuticals such as remedy for diabetes, analgesic, etc., easily, by using extremely easily available raw materials consisting of m- or p-fluorobenzoic acid, oxygen and water, and reacting the raw materials with each other in the presence of a copper catalyst. CONSTITUTION:p- and o-fluorophenol and m-fluorophenol can be produced from m-fluorobenzoic acid and p-fluorobenzoic acid, respectively, by reacting m- or p-fluorobenzoic acid with oxygen and water at preferably 200-260 deg.C, in the presence of a copper catalyst such as powdery copper porous copper, copper(I) or (II) halide, m- or p-fluorobenzoic acid copper salt, copper oxide, etc. USE:A synthetic intermediate for a functional material such as liquid crystal.
|
en
|
JP-S5554857-A
|
JP-1671579-A
|
JP
|
A
|
A
| null | 1979-02-15
| null |
A23L27/28
|
HIYUU DEROSU BURAIAN
|
Edible coloring and taste imparting agent obtained from defatted germ
|
en
| null | null |
JP-S59146912-A
|
JP-1675983-A
|
JP
|
A
|
A
| null | 1983-02-03
| null |
C09K15/32
|
KUZE SATORU
|
Stabilizing method of peroxide-containing liquid
|
en
|
PURPOSE:To obtain a stable peroxide-contg. liquid over a long period of storage without causing precipitation even under the coexistence of calcium and sodium ions by incorporating a specified compd. in the peroxide-contg. liquid. CONSTITUTION:Compounds shown in the formula I (where A is carboxyl group, phosphoric acid group and their salts, X is hydroxyl group and its salt; (r), (l) are 1, 2; (n) is 1-4; (m) is 0-3; B is H, halogen atom, lower alkyl, hydroxyl group, carboxyl group, phosphoric acid group and their salts) are incorporated in a peroxide-contg. liquid. As the preferable compds. to be used shown in the formula I , the compds. shown in the formulae II, III, IV are exemplified. The above-mentioned peroxide-contg. liquid is preferably used in combination with a chelating agent according to necessity in addition to the compds. shown in the formula I . And the generation of precipitate can be minimized considerably in this case.
|
en
|
JP-H02196641-A
|
JP-1678489-A
|
JP
|
A
|
A
| null | 1989-01-25
| null |
B29L17/00
|
KANEKO SHIRO
|
Manufacture of stamper for optical disk
|
en
|
PURPOSE:To prevent a glass matrix surface from becoming polluted with dust or the like, form a photoresist layer of superior bonding properties and manufacturing a tamper for manufacturing an optical disk at high yield by forming a protective layer on the surface after washing a glass matrix surface and applying coating liquid on the matrix surface after stripping off the protective layer when the coating fluid for forming the photoresist layer. CONSTITUTION:Alkali cleaning, acid cleaning and organic solvent cleaning or proper combination of them is carried out for washing a glass matrix and drying is carried out by isopropyl alcohol, Freon vapor or the like. A protective layer 13 is formed on the glass matrix 11 just after being cleaned by, for example, applying coating fluid containing synthetic resin and drying. Also, for example, a photoresist layer 14 of positive type is formed on the surface of matrix 10 in the activated state of stripping the projective layer 13 as a substrate. The bonding properties between the photoresist layer and the matrix surface of the resist matrix 10 is superior, and stripping resist film is scarcely generated at the time of developing for forming specified recessed and projected patterns. The recessed and projected patterns, therefore, the formed precisely.
|
en
|
JP-S62178153-A
|
JP-1680786-A
|
JP
|
A
|
A
| null | 1986-01-30
| null |
H02K44/06
|
KATSUKI KENJI
|
Electromagnetic pump
|
en
|
PURPOSE:To improve efficiency, by forming the insulation of a coil with inorganic material, and by filling up a frame with inert gas. CONSTITUTION:An electromagnetic pump is organized by forming a duct 2 for a passage for circulating sodium liquid, with the internal pipe 1a and the external pipe 1b of a concentric double cylinder pipe 1, and by providing the external side of the external pipe 1b with a radial stator core 3. On the outer peripheral side of the stator core 3, a frame 5 is fitted, and into a pectinated- form slot 6 on the inner peripheral side, a ring-formed coil 7 is fitted. In this case, for the ring-formed coil 7, a copper system wire 10 expanded by inserting the heat-proof conductor 8 of the silver-containing copper or the like of a circular cross section into a seamless pipe 9 is used, and is organized with an insulation wire 12 forming a wire insulation 11 by winding up the outer periphery of the wire 10 with ceramic fiber or the like. Besides, fixed rings are butted to the both ends in the axial direction of the stator core 3, and the both ends are closed, and the frame 5 is filled up with the inert gas of argon gas or the like. Then, the whole unit can be used by dipping it in the sodium liquid of high temperature.
|
en
|
JP-H06199835-A
|
JP-1685993-A
|
JP
|
A
|
A
| null | 1993-01-08
| null |
A61P31/04
|
ITO YASUO
|
8-difluromethoxyquinoline-3-carboxylic acid derivative
|
en
|
PURPOSE:To provide a new 8-difluoromethoxyquinoline-3-carboxylic acid derivative and its pharmacologically permissible salt having excellent antibacterial action, antitumor action and anti-AIDS virus action and useful as an antibacterial agent, antitumor agent and treating agent for AIDS. CONSTITUTION:The 8-difluoromethoxyquinoline-3-carboxylic acid derivative of formula I [R<1> is H or lower alkyl; R<2> is group of formula II (R<3> is H, alkyl, alkanoyl, halogenoalkanoyl or ester-type protecting group; R<4> is H or alkyl; R<5> and R<6> are alkyl) or formula III ((n) is 0-3)] and its pharmacologically permissible salt, e.g. 7-(3-amino-4,4-dimethyl-1-pyrrolidinyl)-1-cyclopropyl-6-fluoro-8- difluoromethoxy-1,4-dihydro-4-oxoquinoline-3-carboxylic acid. The compound of formula I can be produced e.g. by reacting a 8-difluoromethoxyquinoline-3 carboxylic acid derivative of formula IV (X is halogen) with a pyrrolidine derivative of the formula R<2>-H.
|
en
|
JP-S54109292-A
|
JP-1692778-A
|
JP
|
A
|
A
| null | 1978-02-16
| null |
A61M5/165
|
ISHIKAWA SOUJI
|
Medical instillator set
|
en
| null | null |
JP-S52101007-A
|
JP-1694676-A
|
JP
|
A
|
A
| null | 1976-02-20
| null |
G11B15/18
|
TAKAGI SATOSHI
|
Mechanism for releasing fast forward feed and rewind of tape for tape player
|
en
| null | null |
JP-H03222841-A
|
JP-1702290-A
|
JP
|
A
|
A
| null | 1990-01-27
| null |
F02D41/14
|
KUSUNOKI HIDEKI
|
Air-fuel ratio controller of engine
|
en
|
PURPOSE:To surely prevent mistake of learning of a learning compensation quantity by forbidding calculation of the learning compensation during supplying vapor fuel and calculation of the learning compensation quantity until a feedback compensation quantity becomes stable after supply of the vapor fuel is stopped. CONSTITUTION:An air-fuel ratio of mixed air is detected by a means A, and a feedback compensation quantity of the air-fuel ratio is calculated by a means B based on the detected result. A learning compensation quantity of the air-fuel ratio is calculated by a means C based on the calculated result. A means D which adjusts the air-fuel ratio is controlled by a means E according to the calculated result. Vapor fuel inside a fuel tank is supplied to an intake system by a means F, and the means F is controlled by a means G according to an operation condition. At the supplying time of the vapor fuel, the calculation of the learning compensation quantity is inhibited by a means H. After the lapse of a specified time after supply of the vapor fuel is stopped, the means H is released by a means I.
|
en
|
JP-S508819-A
|
JP-1705474-A
|
JP
|
A
|
A
| null | 1974-02-12
| null |
F27D9/00
| null | null | null | null | null |
JP-H03222170-A
|
JP-1709190-A
|
JP
|
A
|
A
| null | 1990-01-25
| null |
G11B21/08
|
YAMADA TOMONORI
|
Positioning circuit for magnetic head
|
en
|
PURPOSE:To position a magnetic head at high speed and in addition, precisely by changing summing amplifier gain by detecting that the stationary error of a speed control system is inadequate when said state occurred. CONSTITUTION:A speed error amplifier 5 is provided with a speed error detector 15 to output a summing amplifier gain adjusting signal 16 corresponding to the stationary error between a speed reference signal 2 and a speed signal 4, and an adjustment circuit 14 to adjust the summing amplifier gain according to the signal 16. Then, by moving the magnetic head, the signals 2 and 4 at the time of deceleration are compared with each other by the detector 15, and the stationary error is detected, and the signal 16 is outputted, and the adjustment circuit 14 adjusts the gain so that the stationary error between the signals 2 and 4 becomes an adequate value. Accordingly, even in the case the force constant of a voice coil motor or the weight of a movable part varies, the adequate speed loop gain of the speed control system can be obtained.
|
en
|
JP-H01194638-A
|
JP-1712688-A
|
JP
|
A
|
A
| null | 1988-01-29
| null |
H04M1/274
|
SHOJI KAZUHIKO
|
Telephone card
|
en
|
PURPOSE:To effectively utilize the storage capacity of a memory part by providing a telephone number memory part to store the telephone number of an opposite party to be called and a usable residual quantity memory part to store a usable residual quantity as the memory part of the title telephone card. CONSTITUTION:When a telephone card 10 is inserted to the prescribed inserting port of a telephone set 20, a residual reading/writing part 201 reads data to indicate the usable residual quantity from a usable residual quantity memory part 101 in the telephone card 10, and sends them to a control part 203. When the usable residual quantity exists, the control part 203 instructs a number reading part 202 to read the telephone number of the opposite party to be called. As a result, the number reading part 202 reads the telephone number of the opposite party by a telephone number memory part 102 in the telephone card 10, and notifies the control part 203. The control part 203 gives the telephone number of the opposite party received from the number reading part 202 to a speaking function part 204. The speaking function part 204 automatically carries out dialing by the given telephone number, and as the result, a callable condition is obtained.
|
en
|
JP-S62176244-A
|
JP-1720486-A
|
JP
|
A
|
A
| null | 1986-01-29
| null |
H04M1/00
|
OKA TSUNEAKI
|
Telephone set
|
en
|
PURPOSE:To reset the display state of a telephone set simply without operating a power switch by operating a display state reset means when the operation of a hook switch is detected. CONSTITUTION:When e.g., a handset is lifted to turn on a hook switch 24 at the standby, the rising of the voltage of the hook signal is detected by a set circuit 60 and a reset signal is generated. The reset signal is fed to a display drive section 42 via an OR circuit 61, the content of the display drive section 42 is reset initially and the display state of a liquid crystal display device 41 is initialized. Then present time information, for example, fed from a control circuit 10 is displayed correctly on the display device 41. Thus, even if a noise due to static electricity takes place at standby and an error is caused in the display state of the display device 41, the state is restored simply into the state without any error.
|
en
|
JP-S59153172-A
|
JP-1724784-A
|
JP
|
A
|
A
| 2384-12-10
| 1984-02-03
| null |
G01N33/548
|
JIYOZEFU AARU KIOFUSUKI
|
Quantitative device for nucleic acid
|
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-S49107035-A
|
JP-1726873-A
|
JP
|
A
|
A
| null | 1973-02-12
| null |
H01F1/18
| null | null | null | null | null |
JP-S5297709-A
|
JP-1729877-A
|
JP
|
A
|
A
| null | 1977-02-18
| null |
G11B5/708
|
MIZUSHIMA KUNIO
|
Magnetic recording material
|
en
| null | null |
JP-H0852508-A
|
JP-1733495-A
|
JP
|
A
|
A
| null | 1995-02-03
| null |
B23K9/025
|
KAGA YUJI
|
Continuous cold rolling line
|
en
|
PURPOSE:To simplify a device by providing a dry spatter removing device between a steel strip welder and a notch punching device. CONSTITUTION:In a continuous cold rolling line 1, a steel strip W is sent out with a feed reel 2 and the rear end of a preceding steel strip and front end of the succeeding steel strip are joined with the steel strip welder 3. Both ends of the weld zone are notched with the notch punching device 5 and also position detecting holes are made in the vicinity of the weld zone. The dry spatter removing device NO is provided between the steel strip welder 3 and the notch punching device. This spatter removing device 10 is attached to a housing 11 so that upper and lower brush rolls 12, 14 are freely elevated and lowered with jacks 13, 15. The steel strip W which is passed through the notch punching device 5 is rolled with a col drolling mill 7 through a looper 6 and coiled with a tension reel 8. In this way, a hot-water generating heater, or hot-water supply piping and drain piping, and dewatering rolls are eliminated.
|
en
|
JP-S57148001-A
|
JP-1738982-A
|
JP
|
A
|
A
| null | 1982-02-05
| null |
F01C1/08
|
OOKE ASUTOBERUGU
|
Screw rotor machine
|
en
| null | null |
JP-S58137550-A
|
JP-1741582-A
|
JP
|
A
|
A
| null | 1982-02-08
| null |
B24B5/16
|
NAKAJIMA FUSAO
|
Method of grinding stepped shaft
|
en
|
PURPOSE:To easily make a large and a small diameter portions concentric to each other and perform sure finishment to set an angle between the peripheral surface of the large diameter portion and its end face, by using a stepped grindstone to simultaneously grind the peripheral surfaces of the large and small diameter portions. CONSTITUTION:A stepped grindstone 2 has a level difference equal to that between the large diameter portion 1a and small diameter portion 1b of a stepped shaft 1. The corners of the end face 2a between the large and small diameter portions of the grindstone 2 are rounded. The end face 1c and relief groove 1d of the stepped shaft 1 are first ground by a grindstone 3. After that, the stepped grindstone 2 is set on the stepped shaft 1 so that the end face 2a of the grindstone is out of contact with that 1c of the shaft and the rounded corners of the end face 2a are also out of contact with the corner between the large diameter portion 1a and end face 1c of the shaft. The peripheral surfaces of the large diameter portion 1a and the small diameter portion 1b are then simultaneously ground by the grindstone 2.
|
en
|
JP-S4885981-A
|
JP-1741872-A
|
JP
|
A
|
A
| null | 1972-02-19
| null |
H02P5/00
| null | null | null | null | null |
JP-H09212115-A
|
JP-1749196-A
|
JP
|
A
|
A
| null | 1996-02-02
| null |
C09J175/04
|
NAGAOKA YOSHIYUKI
|
Retroreflection sheet and article having retroreflection performance
|
en
|
PROBLEM TO BE SOLVED: To eliminate the need for thermal activation and to prevent the degradation of adhesive power and reflection brightness with lapse of time by using a polyurethane prepared by polymerization of a component contg. a polyol having alkyl side chains within the molecule as an adhesive and specifying the storage modulus of elasticity and softening point of the adhesive to respectively specific ranges. SOLUTION: The retroreflection sheet R has a lens element 1, a retroreflection element 10, a supporting element 3, an adhesive layer 4 and a surface protective layer 5. This protective layer 5 is supported by a sealing wall 31, by which the hermetic space enclosed by the surface protective layer 5, the supporting element 3 and the retroreflection element 10 is formed. The adhesive layer 4 is arranged under the supporting element 3 and consists of an adhesive contg. the polyurethane cross-linked by an isocyanate compd. This polyurethane is polymerized from the component contg. the polyol having the alkyl side chains within the molecule. The storage modulus of elasticity of the adhesive 4 is in the range of 10<7> to 8×10<7> dyen/cm<2> and the softening point is >=80 to <=200 deg.C when the storage moludus of elasticity is measured with tensile mode, frequency of 35Hg at 25 deg.C.
|
en
|