| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | Inhibitor switch | JP37548598 | 1998-12-16 | JP2000182478A | 2000-06-30 | TOMORI TETSUYA |
| PROBLEM TO BE SOLVED: To provide an inexpensive, high-accuracy inhibitor switch having magnetism sensors. SOLUTION: This inhibitor switch comprises a movable board 1 which turns according to the shift operation position of an automatic transmission and has permanent magnets 4, magnetometric sensors 9 for detecting the magnetic forces of the permanent magnets 4, a pole board 3 having the magnetism sensors 9, with the movable board 1 freely turnably journaled to the pole board 3, and a lid body 2 to which the movable board 1 is freely turnably journaled. The movable board 1 has its movable arm 1b pressed by a spring 13. The movable board 1 comprises a shaft tube part 1a and the movable arm 1b formed integrally with each other, the movable arm 1b having the permanent magnets 4 placed therein. The movable arm 1b has projecting parts 1f, 1g formed on one pole board 3 side surface thereof and pressed into contact with the permanent magnets 4 and the pole board 3, and has a blind hole 1j bored in the other lid body 2 side surface thereof, into which a pressure contact element 14 is inserted via the spring 13. COPYRIGHT: (C)2000,JPO | ||||||
| 222 | Inhibitor switch | JP37548598 | 1998-12-16 | JP3038656B1 | 2000-05-08 | 哲也 友利 |
| 【要約】 【課題】磁気センサを備え安価で高精度なインヒビタスイッチを提供すること。 【解決手段】インヒビタスイッチは、自動変速機の変速操作位置に応じて回動し、永久磁石4を備えた可動盤1
と、前記永久磁石4の磁力を検出する磁気センサ9と、 該磁気センサ9を備え、かつ前記可動盤1を回動自在に軸支した極盤3と、前記可動盤1を回動自在に軸支した蓋体2と、を具備してなる。 前記可動盤1は、可動腕1 bをばね13で押圧される。 可動盤1は、軸筒部1aと前記永久磁石4を配設した可動腕1bとを一体形成してなる。 可動腕1bは、一方の前記極盤3側の表面に前記永久磁石4と極盤3に圧接する凸部1f,1gを形成し、他方の前記蓋体2側の表面に前記ばね13を介して圧接子14を挿設する盲孔1jを穿設している。 |
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| 223 | Inhibitor switch | JP26091398 | 1998-08-31 | JP2000076969A | 2000-03-14 | SATO SHUNICHI; NAKAMURA SHINYA; TOMORI TETSUYA |
| PROBLEM TO BE SOLVED: To provide an inexpensive, high accuracy inhibitor switch which has a magnetic sensor. SOLUTION: An inhibitor switch has a movable board which rotates according to the shift position of an automatic transmission and is freely rotationally journalled by a lid body 2 and a pole board 3 having a magnetic sensor 9. The movable board 1 has a yoke 5 formed by insert molding. The yoke 5 has bent parts exposed to the surface of the movable board 1 and bottom pieces 5b on which permanent magnets 4 are placed. The yoke 5 has the plurality of bottom pieces 5b provided in succession and has the bent parts formed at the ends of the bottom pieces 5b. COPYRIGHT: (C)2000,JPO | ||||||
| 224 | Switch device | JP185897 | 1997-01-09 | JPH10199372A | 1998-07-31 | ITO HIROYASU; NARITA HISASHI |
| PROBLEM TO BE SOLVED: To accomplish the increasing of contacts when it is made possible to increase the numbers of common fixed contacts and fixed contacts connected to the common contacts gradually, without using a diode. SOLUTION: The first fixed contact group 22 having the first common fixed contact B1, and the first and the third fixed contacts E1 and E3, is provided to the first base plate 20. The second fixed contact group 23 having the second fixed contact B2, and the second and the fourth fixed contacts E2 and E4, is provided to the second base plate 21. The first common fixed contact B1 and the second common fixed contact B2 are connected. Depending on the operation of a lever, the first and the second movable contact elements 26 and 28 are moved in the directions of the arrow C and the arrow D synchronizing each other. Every time when the movable contact elements 26 and 28 move in the direction of the arrow C and the arrow D, the number of the common fixed contacts B1 and B2, and the fixed contacts E1 to E4 is increased gradually. COPYRIGHT: (C)1998,JPO | ||||||
| 225 | Shift lever device | JP10351489 | 1989-04-25 | JP2763581B2 | 1998-06-11 | 浩 左近; 正春 石附 |
| 226 | Position detecting switch | JP27616796 | 1996-10-18 | JPH10125178A | 1998-05-15 | MIKI NOBUAKI; KANO TAKEMASU; SHIMIZU TAKUO; AKIYAMA TAKUJI; TORII MUNETAKA |
| PROBLEM TO BE SOLVED: To make sure contact between movable and fixed contacts to realize sufficient electric continuity between both contacts without being affected by either of the thermal expansion or thermal contraction of a sliding body, the deviation of the load center to the movable contacts of the spring load, or a pitch between fixed contacts. SOLUTION: The movement of a first movable contact 19 to the upper part of first and second fixed contacts 6 and 7 positively pushes the fixed contact points 6 and 7 to the movable contact 19 because the fixed contacts 6 and 7 are energized in the direction of the movable contact 19 by the loads of the fourth and fifth springs 25 and 26. This prevents the generation of rotation moment generated in the movable contact 19 before, resultantly it surely contacts the fixed contacts 6 and 7. Consequently, electric conductivity can be sufficiently realized between the movable contact 19 and the fixed contacts 6 and 7. COPYRIGHT: (C)1998,JPO | ||||||
| 227 | Structure of inhibitor switch | JP14112096 | 1996-05-13 | JPH09306292A | 1997-11-28 | IKEJIMA MASAHIRO; IIJIMA AKIRA |
| PROBLEM TO BE SOLVED: To prevent resin flow in and out of a pole plate and improve abrasion resistance of a shaft part and water resistance of a case by engaging a circular protrusion of a case with a circular groove of the pole plate and welding a protrusion of a movable board with the shaft part. SOLUTION: A fixed contact plate 2 pressed at a specified shape is inserted into a pole plate 1. On the other hand, a movable board 3 into which a movable contact 4 and a contact spring 5 are inserted is inserted into a recess 1a, a shaft 3b is axially fitted to a shaft hole 1b, and protrusion 3c is axially fitted to a through hole 7a of a case 7. At the same time, a circular protrusion 7b is engaged with a circular groove 1e via a O-ring 11, the pole plate 1 and the periphery of the case 7 are welded, then the protrusion 3c and the shaft part 8a are welded. At this time, a resin to be molten is snapped in the circular groove 1e, and at the same time flow in and out of the pole plate 1 and generation of a contact failure of the fixed contact 2b or the movable contact 4 is prevented. During welding, since the shaft, 3b is not mounted on a movable arm 8, welding is easily made possible. Thus, abrasion resistance of the shaft part and water resistance of the case are improved. | ||||||
| 228 | Control switch and manufactur thereof | JP1083895 | 1995-01-26 | JPH08227637A | 1996-09-03 | IDA TOKUHIRO; MIHARA HARUHIKO; ARASHIKI KAZUHIKO; KATSUYA KIYOHIDE; TAKASHI HIDEYUKI; HIRATANI MASAHIRO |
| PURPOSE: To eliminate the process for filling a mark of a presser pin after insert molding a conductive plate, and to improve both insulating property and water resistant characteristic. CONSTITUTION: A presser pin 3 for fixing position of a conductive plate 14, which is to be housed in a mold 1, is provided in the mold 1. A gate 2 for filling resin into the mold 1 and a pin insertion part 4, into which the presser pin 3 is inserted, are formed in the mold 1. The presser pin 3 can be moved forward and backward inside of the pin insertion part 4 in the direction for coming close and separating from the primary molding A. In the condition that the primary molding A inside of the mold 1 is pressed by the presser pin 3, resin is filled from the gate 2, and the presser pin 3 is drawn into the pin insertion part 4 before concluding injection of the resin, and a mark of the presser pin 3 is filled with the resin. | ||||||
| 229 | Switch having connector section | JP31494092 | 1992-11-25 | JPH06162870A | 1994-06-10 | KAWADA YASUYOSHI; KAWAI YOSHITAKA; UCHIDA TOMOHIRO |
| PURPOSE: To prevent a wire harness from becoming additionally longer by constituting the connecting direction of a connector section at an angle with the axial center of a switch body. CONSTITUTION: Regarding a connector switch where a switch body 1 is screwed into and fastened to a vehicle body, and a connector section 11 is fitted to the body 1 as integral part thereof, the connecting direction of the section 11 is constituted at an angle with the axial center of the switch body 1, for example, at right angles. In addition, the section 1 or a rotor 7 is fitted to the body 1 in such a way as capable of turning about the axial center thereof. COPYRIGHT: (C)1994,JPO&Japio | ||||||
| 230 | Position sensing switch for automatic transmission | JP32678687 | 1987-12-25 | JPH01169825A | 1989-07-05 | ICHIKO KOICHI |
| PURPOSE:To have fail-safe control by arranging a stationary contact piece for monitoring in combination with stationary contact pieces in correspondence to different position, and by emitting a specified combination signal. CONSTITUTION:A stationary contact piece PA for monitoring is arranged in combination with stationary contact pieces A-C in correspondence to different positions, and a specified combination signal is emitted. For each position, the number of ON contacts of four contacts including the PA contact shall be even at normal time. This is monitored on the control device side with the for inputs through utilization of the regulation that the number of ON contacts of the four contacts is even, and the contents of sensing are checked, and thus fail-safe control function can be supplemented. | ||||||
| 231 | Four-wheel-drive switch mechanism | JP19736482 | 1982-11-09 | JPS5989233A | 1984-05-23 | MIZUTANI HIROYUKI; OCHI KUNIHIKO |
| PURPOSE:To enable reliable detection of four-wheel-drive state through single switch mechanism by improving two fork shaft mechanisms for two wheel and four wheel driving is power flow path. CONSTITUTION:When first fork shaft 40 is displaced to four-wheel-drive position D4 while a power distributor is brought to high speed power row four-wheel- drive state, a ball 17 is pushed up from second step section 42 to first step section 41 to pressure deform a pin 18. Consequently a ball 62 will press in a push rod 61 to bring a switch device 60 to ON state. Then second fork shaft 50 is displaced to neutral position thus to bring the power distributor to neutral, and the pin 18 is removed from between the balls 17, 62 to make the ball 62 movable to the left untill contacting against the face of second notch 52 thereby a push rod 61 will project to bring the switch device 60 into OFF state. | ||||||
| 232 | Four-wheel drive transfer | JP17498782 | 1982-10-05 | JPS5967123A | 1984-04-16 | MIZUTANI HIROYUKI; OCHI KUNIHIKO |
| PURPOSE:To obtain a clear indication of the driving condition of four wheels on the basis of single switching operation by providing a switching mechanism to be pushed via an interlocked member between fork shafts for switching two- wheel/four-wheel drive and range. CONSTITUTION:At the time of a high range with two-wheel drive, both fork shafts 11 and 12 are positioned as illustrated, and as a ball 13 between both shafts 11 and 12 is in a notch 9 of the shaft 11 and a movable contact of a switch mechanism 31 is in the non-operational position, an indication lamp is off. When the fork shaft 11 is positioned at four-wheel drive and the ball 13 is pushed out from the notch 29, the ball 13 is moved upward to push up the movable contact 32 and the switch mechanism 31 is on to light the indication lamp. At this stage, when the shaft 12 is moved to the neutral position, the ball 13 enters into a notch 30 of the shaft 12, and consequently, the switch mechanism 31 is off to put off the indication lamp. | ||||||
| 233 | Switching device for automotive user interface | EP14189190.3 | 2014-10-16 | EP2866241B1 | 2018-12-05 | Takeda, Hironori; Kawano, Kenji |
| A switching device (100) has a substrate (1) having a fixed contact portion (1a), a slider (2), a first moving member (3) having an inclined portion (3a) and capable of reciprocating on a first imaginary axis line (VL1), a first biasing member (4), a second moving member (5) having a contact portion (5a) coming into sliding contact with the inclined portion (3a), and capable of reciprocating on a second imaginary axis line (VL2) intersecting the first imaginary axis line (VL1), and a second biasing member (6) biasing the second moving member (5), in which the first moving member (3) and the second moving member (5) are respectively supported so as to be reciprocable in a state of bringing the inclined portion (3a) and the contact portion (5a) into sliding contact with each other, the slider (2) comes into contact with and is separated from the fixed contact portion (1a) according to a reciprocating movement of the first moving member (3), the first moving member (3) has a first engagement portion (3b), the second moving member (5) has a second engagement portion (5b), and the first moving member (3) and the second moving member (5) are connected by the first engagement portion (3b) and the second engagement portion (5b) so as to be reciprocable. | ||||||
| 234 | Switch | EP14166737.8 | 2014-04-30 | EP2808881B1 | 2016-04-13 | Shimada, Hiroyuki |
| 235 | Sealed switch and method for reducing an internal pressure in sealed switch | EP13002502.6 | 2013-05-13 | EP2665075B1 | 2015-05-27 | Inotsuka, Tetsuya |
| 236 | Switch | EP14177336.6 | 2014-07-16 | EP2833386A3 | 2015-03-18 | Inotsuka, Tetsuya |
An inhibiter switch is configured such that a width portion of across flat 92 provided in a rotary shaft 9 of a manual shaft that rotates a movable board 5 provided with movable contact points 7 is jointed to the movable board by being press-fitted between joint portions projecting from an inner periphery of an insert hole 55 in the insert hole provided in the movable board, wherein the movable contact points 7 making pressure contact with fixed contact points are moved in the circumferential direction around the rotary shaft of the movable board with rotation of the movable board by the rotary shaft of the manual shaft, thus connecting/disconnecting the movable contact point 7 and the fixed contact point 8 in response to an angular position of the movable board 5 around the rotary shaft 9. A press-fit amount of the width portion of across flat 92 in the manual shaft 9 side to the press-fit portions of the joint portions is made smaller toward a connecting portion to the inner periphery of the insert hole 55.
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| 237 | Switch | EP14177336.6 | 2014-07-16 | EP2833386A2 | 2015-02-04 | Inotsuka, Tetsuya |
An inhibiter switch is configured such that a width portion of across flat 92 provided in a rotary shaft 9 of a manual shaft that rotates a movable board 5 provided with movable contact points 7 is jointed to the movable board by being press-fitted between joint portions projecting from an inner periphery of an insert hole 55 in the insert hole provided in the movable board, wherein the movable contact points 7 making pressure contact with fixed contact points are moved in the circumferential direction around the rotary shaft of the movable board with rotation of the movable board by the rotary shaft of the manual shaft, thus connecting/disconnecting the movable contact point 7 and the fixed contact point 8 in response to an angular position of the movable board 5 around the rotary shaft 9. A press-fit amount of the width portion of across flat 92 in the manual shaft 9 side to the press-fit portions of the joint portions is made smaller toward a connecting portion to the inner periphery of the insert hole 55.
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| 238 | Switch | EP14166737.8 | 2014-04-30 | EP2808881A1 | 2014-12-03 | Shimada, Hiroyuki |
There is provided an inhibiter switch in which a movable board 5 provided with movable contact points 7 is rotatably provided around an axis line X inside a body case 4 formed by coupling a cover 3 to a pole board 2 provided with fixed contact points 8a to 8d on which grease is applied, and the movable contact point 7 making pressure-contact with the fixed contact point 8a to 8d by an urging force of a spring is moved in the circumferential direction around the axis line with rotation of the movable board 5 to connect/disconnect the movable contact point 7 and the fixed contact point 8a to 8d in accordance with the angular position of the movable contact point 7 around the axis line. A contact portion 723 of the movable contact point 7 with the fixed contact point 8a to 8d is provided with a plurality of grooves 74 formed along the movement direction of the movable contact point, and the grooves 74 have sharp tip-shaped projecting portions 741 and sharp tip-shaped concave portions 742 that are formed to line up alternately in a radial direction of the axis line, so that the grease applied on the fixed contact point 8a to 8d flows into the groove 74 at the moving time of the movable contact point 7.
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| 239 | TASTERANORDNUNG ZUR ERFASSUNG DER SCHALTSTELLUNG EINES GETRIEBES SOWIE GETRIEBE MIT DER TASTERANORDNUNG | EP08718113.7 | 2008-03-20 | EP2134989B1 | 2014-06-18 | OBERPERTINGER, Gerhard |
| 240 | Sealed switch and method for reducing an internal pressure in sealed switch | EP13002502.6 | 2013-05-13 | EP2665075A1 | 2013-11-20 | Inotsuka, Tetsuya |
A movable board provided with movable contact points 54 is arranged inside a switch case 3 formed by overlap of a substrate 10 provided with fixed contact points 20 and a lid body 35. A top end surface of the substrate 10 is provided with a concave streak portion 47e and a ring groove 30 for accommodating a seal ring 31, wherein a projecting streak portion 40 provided on a lower surface of a flange portion 38 in the lid body 35 is fitted in the concave streak portion 47e for welding. A seal bearing 47 mounted to shaft holes 15 provided on an opposing portion between the substrate 10 and the lid body 35 comprises a cylindrical body portion 47a fitted in at least one of the shaft holes 15, and a lip-shaped seal portion 47b extending to a side of a rotary surface of a shaft portion from an inner peripheral surface of the body portion 47a to make flexible contact with the rotary surface. An air in the switch case 3 is discharged to an outside (atmosphere) by the seal portion 47b flexibly deflected by a negative pressure through the shaft hole.
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