| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Switch | US1310430D | US1310430A | 1919-07-22 | ||
| 42 | SWITCHING DEVICE | US14505360 | 2014-10-02 | US20150107971A1 | 2015-04-23 | Hironori TAKEDA; Kenji KAWANO |
| A switching device has a substrate having a fixed contact portion, a slider, a first moving member having an inclined portion and a first engagement portion and being reciprocable on a first imaginary axis line, a first biasing member, a second moving member having a contact portion and a second engagement portion and being reciprocable on a second imaginary axis line, and a second biasing member biasing the second moving member, in which the first and second moving members are supported to be reciprocable in a state of bringing the inclined portion and the contact portion into sliding contact with each other, the slider comes into contact with and is separated from the fixed contact portion according to the reciprocation of the first moving member, and the first and second moving members are connected by the first engagement portion and the second engagement portion so as to be reciprocable. | ||||||
| 43 | SWITCH | US14332535 | 2014-07-16 | US20150027865A1 | 2015-01-29 | Tetsuya Inotsuka |
| An inhibiter switch is configured to include a fixed contact point that is connected to and disconnected from a movable contact point. The movable contact point is configured to make pressure contact with the fixed contact point by the movement of a movable board by a shaft member, wherein a press-fit amount of the shaft member to a projecting portion is made smaller toward a connecting portion between the projecting portion and an inner periphery of an insert hole of the movable board. | ||||||
| 44 | Remotely configurable control lever | US11799852 | 2007-05-02 | US07723628B2 | 2010-05-25 | Tim Jarrett |
| A remotely configurable control lever is disclosed for operating an electrical switch on the control panel of an agricultural vehicle. A cam plate 22 rotatable with the control lever has a cam track 23 defining at least one notch, which is selectively engaged by a resiliently biased detent 24 to latch the control lever in a predetermined position. A solenoid 32 is provided for retracting the detent to allow the control lever 10 to return to a neutral position. A second cam track 123 is provided which is rotatable with the control lever 10 and defines at least one stop cooperating with a further retractable detent 124 to limit the range of angular displacement of the control lever 10. | ||||||
| 45 | Inhibitor switch for automatic transmission | US12230654 | 2008-09-03 | US20090065332A1 | 2009-03-12 | Hiroyuki Shimada; Tsutomu Watada |
| A movable contact board is engaged to a detent plate fixed and fastened to a manual shaft and a shaft support portion for supporting the manual shaft which is a turning center of the detent plate to the stationary contact board is formed integrally with the movable contact board. Therefore, the detent plate, the manual shaft and the movable contact board cooperate integrally, leading to an improvement on relative position accuracy of the movable contact board to the stationary contact board. | ||||||
| 46 | Inhibitor switch for automatic transmission | US12230653 | 2008-09-03 | US20090065331A1 | 2009-03-12 | Hiroyuki Shimada; Takashi Horikoshi |
| A movable contact board is engaged to a detent plate and the movable contact board is provided with a plurality of support portions, for example, four legs for supporting a stationary contact board and, on the other hand, the stationary contact board is provided with a plurality of guide grooves for reciprocally guiding the four support portions (legs) in the movable contact board along the rotational direction. Further, the plurality of the support portions (leg) are configured of the support portions, for example, four legs extending generally vertically from the movable contact board so as to straddle stationary contact points and bending portions provided in the four respective legs to penetrate through the pair of the guide grooves in the stationary contact board for supporting the stationary contact board from the backside. Thereby, an inhibitor switch preferable in view of reduction in the number of components and reduction in a plastic amount can be provided. | ||||||
| 47 | Slide switch | US10667598 | 2003-09-23 | US20040074750A1 | 2004-04-22 | Takashi Nakazawa; Tsutomu Watada |
| To enable to restrain a portion only of a resin at a pole board made of the resin to restrain warp or a sink mark, in a slide switch including a pole board 3 made of a resin insert-molded with fixed contacts 9, 11, 13, 15 and 17 and a movable board supporting a movable contact and capable of sliding the movable contact relative to the fixed contacts 9, 11, 13, 15 and 17 by predetermined contact pressure by moving along the pole board 3, a metal plate 21 is insert-molded to a portion of the pole board 1 at which the fixed contacts 9, 11, 13, 15 and 17 are not present. | ||||||
| 48 | Rotary switch | US10236112 | 2002-09-06 | US06596950B2 | 2003-07-22 | Daniel J. Danek |
| A rotary switch suitable for use as a transmission gear selection switch. The switch includes a housing and a rotor rotationally connected to the housing, the rotor being rotational about a first axis. A cam follower connected to the rotor has a cam surface substantially centered about a radial axis, the radial axis being normal to the first axis. An electrical contact carried by the rotor has a contact surface spaced from the cam surface along the radial axis. | ||||||
| 49 | Inhibitor switch | US10123430 | 2002-04-17 | US20020153235A1 | 2002-10-24 | Tsutomu Watada; Takashi Nakazawa |
| To enable correctly performing detection of speed change positions. In an inhibitor switch having a terminal block with fixed contacts and a moving block which is mounted and fitted onto a manual shaft of an automatic transmission, has a signaling contact and large capacity current-carrying contacts, and is rotatable relative to the terminal block, and for electrically detecting a speed change position of the automatic transmission on the basis of a relative rotating positional relationship of the fixed contacts and the signaling contact in accordance with rotation of the manual shaft, the moving block having a boss portion formed of a resin and being mounted on the manual shaft and a contact support portion mounting thereon the signaling contact and large capacity current-carrying contacts, the contact support portion being formed of metal and the signaling contact being joined to the contact support portion by caulking. | ||||||
| 50 | Switch apparatus | US09793568 | 2001-02-27 | US20010023817A1 | 2001-09-27 | Takao Ohgimoto; Noriyasu Sakai |
| Auxiliary fixed contacts electrically connected to a fixed contact of other lane are provided in blank areas which resides in shift positions to which a moving contact member moved along with a shift lever is positioned and in which the fixed contact corresponding to the lane of first to fifth lanes is absent. Since the auxiliary fixed contacts are provided in the portions of the blank areas in which the contact parts have passed over conventionally, contact parts will also make contact with the auxiliary fixed contacts. As a result of this, for example, in a nullPnull position, in case that chattering occurs between a second fixed contact and the contact part, a predetermined signal can be obtained as long as the auxiliary fixed contact makes contact with the contact part. | ||||||
| 51 | Inhibitor switch having magnetic contact portion | US386194 | 1999-08-30 | US6144273A | 2000-11-07 | Shunichi Satoh; Shinya Nakamura; Tetsuya Tomotoshi |
| An inhibitor switch is provided with a movable base 1 having permanent magnets 4, which is adapted to be rotatable in accordance with the transmission operating position of an automatic transmission device. The inhibitor switch also has magnetic sensors 9 for detecting the magnetic flux from the permanent magnets 4, a pole base 3, and a cover body 2 for rotatably supporting the movable base 1 in cooperation with the pole base 3. The pole base 3 has an approximate arc shape with a radius of curvature centered about the center of a shaft hole 3a. A base surface 3d is provided for forming a space for receiving a substrate 6 connected to the connecting sections 7a, on which the magnetic sensors 9 and electronic elements 10 are installed. The connecting sections 7a are used to electrically connect a conductive body 7 to the substrate 6. The shaft hole 3a is coupled with a cylindrical shaft section 1a of the movable base 1 at an end of the base surface 3d. This construction provides an inhibitor switch having permanent magnets with high operating precision and low manufacturing cost. | ||||||
| 52 | Inhibitor switch having contact sections formed with magnetic sensors and permanent magnets | US386193 | 1999-08-30 | US6144272A | 2000-11-07 | Shunichi Satoh; Shinya Nakamura; Tetsuya Tomotoshi |
| An inhibiter switch is provided with a movable body 1 rotatable in accordance with an operating position of an automatic transmission device. The movable body 1 is supported rotatably by a cover 2 and a pole base 3 having magnetic sensors 9 disposed therein. A conductive body having a terminal 7b projected into a connector section 3c at one side thereof and a body section 7a electrically connected to the magnetic sensors 9 and exposed from a bottom surface 3d, is insert molded into the pole base 3. The pole base 3 forms an offset surface 3e exposing the body section 7a as a connection location with the conductive body 7 from the bottom surface 3d. The pole base 3 has notches 3f, 3g, 3h in which the magnetic sensors 9 are disposed, and a notch 3i in which a substrate 6 is disposed. The notches 3f, 3g, 3h, 3i are formed at the periphery of the offset surface 3e. The pole base 3 also forms a guide 3j for disposing the magnetic sensors 9 within the offset surface 3e. The inhibitor switch with this construction has contact sections formed with magnetic sensors, resulting in a low manufacturing cost and a high operating precision. | ||||||
| 53 | Inhibitor switch having magnetic contact portion | US386002 | 1999-08-30 | US6140898A | 2000-10-31 | Shunichi Satoh; Shinya Nakamura; Tetsuya Tomotoshi |
| An inhibitor switch is constructed such that a movable base 1 adapted to be rotatable in accordance with the transmission operating position of an automatic transmission device is supported rotatably by a cover body 2 and a pole base 3 having magnetic sensors 9. The movable base 1 is integrally formed with a yoke 5 through an injection molding method. The yoke 5 has folded sections 5c exposed to the upper surface of the movable base 1 and bottom pieces 5b for receiving the permanent magnets 4. Moreover, the yoke 5 is composed of a plurality of bottom pieces 5b connected with each other, and the folded sections 5c formed at each end of the bottom pieces 5c. With this construction, an inhibitor switch is provided with a low manufacturing cost. | ||||||
| 54 | Transmission electronic control unit including neutral start switch | US980063 | 1997-11-26 | US6057519A | 2000-05-02 | Takao Taniguchi; Nobuaki Miki; Ken Kiyama; Naotaka Murakami; Naoto Ogasawara; Toshiya Morishita; Takenori Kano |
| A control unit has an electronic control device that includes a base board on which a plurality of elements, including a microcomputer containing an automatic transmission program, are disposed. The electronic control device includes an integral neutral start switch connected to the microcomputer. The neutral start switch also includes a rotor and contact-type switches operated by rotation-of the rotor. The base board and the rotor are disposed in a case and are substantially parallel to each other at opposite sides of an intermediate wall formed in the case. The base board is separated from the contact-type switches by the intermediate wall to prevent communication of oil or metal dust from the contact-type switches to the base board. | ||||||
| 55 | Inhibitor switch having an improved bearing portion | US853880 | 1997-05-09 | US5969313A | 1999-10-19 | Masahiro Ikeshima; Akira Iijima |
| An inhibitor switch having a construction that facilitates fabrication by disposing a bearing surface made of a metal plate so as to be exposed at a bottom surface of a shaft hole to which a shaft of a movable plate is pivotably fitted, and having fixed contact plates formed in a pole plate by insertion molding. The movable plate has movable contacts, which are brought into contact with the fixed contact plates. A movable arm is secured to the movable plate. A case supports pivotably the movable plate together with the pole plate. The bearing surface made of a metal plate is disposed so as to be exposed at the bottom surface of the shaft hole to which the shaft of the movable plate is pivotably fitted. The bearing surface can be integral with one of the fixed contact plates. | ||||||
| 56 | Internal transmission range switch system | US995306 | 1997-12-22 | US5902975A | 1999-05-11 | Ethan J. Coulson; Edward F. O'Brien; Charles M. Anastasia; Alan M. Sadler; Dale R. Sogge |
| An internal vehicular transmission range switch (10) has a movable contact support (20) which slides along a straight path in a recess formed between a housing having a base member (12) and cover (14) between first and second extremities in dependence upon the movement of the manual valve (4) to which it is coupled by an arm (18) extending from the support through a slot (16) formed in the housing. An elongated slider having a lower (20e) and upper (20d) blade portions received in respective channels (12a, 14a) formed in the housing integrally attached to the movable contact support blocks ingress of contaminant particles into the recess while permitting fluid flow into and out of the recess. A second embodiment (10') has a generally U-shaped member (18') having one leg (18a') attached to the movable contact support and extending through an O-ring (24) in an end wall of the housing and a manual valve coupling arm (18c') formed at the distal end of a second leg (18b'). A third embodiment has an endless track (26) in which an elongated, flexible band (28) having opposite ends attached to the movable contact support (20) on opposite sides of manual valve coupling arm (18) blocks entry of contaminant particles through slot (16") in the housing through which arm (18) extends. | ||||||
| 57 | Position sensor for transmission gear selector switch | US676827 | 1996-07-08 | US5847344A | 1998-12-08 | Gary Joseph Denyer; Joseph B. Dierker, Jr.; Mark Joseph Kane; Vern Edward Welch |
| In an automatic transmission system, a position sensor provides digital and analog output indications of the sensed position of a manually operated transmission gear shift lever. Electrical contacts within the sensor are configured to minimize wear and corrosion by eliminating electrical continuity in the switching elements when the gear shift lever is in the Drive position. | ||||||
| 58 | Inhibitor switch device having an operating lever with a strength adjusting portion | US826123 | 1997-03-27 | US5828022A | 1998-10-27 | Takashi Nakazawa; Tsutom Watada |
| An inhibitor switch device having an operating lever 9 equipped with a strength adjusting portion 96 near the rotating axle. The strength adjusting portion 96 has a mass which can be adjusted by using a nested-type metal molding. The strength adjusting portion 96 allows the operating lever 9 to be set to a suitable strength so that the operating lever 9 breaks when an abnormal external force is applied. Also, when an abnormal external force is applied, the strength adjusting portion 96 prevents the spread of breakage to the rotating axle, and allows easy detection of defective products by an external check of the strength adjusting portion. In addition, the strength adjusting portion allows fine adjustment of the operating lever 9 to a suitable strength during formation thereof, thereby preventing the strength adjusting portion from being broken under regular external forces. | ||||||
| 59 | Electrical switch apparatus responsive to gear selection of vehicular transmission and method of assembly thereof | US648781 | 1996-05-16 | US5736701A | 1998-04-07 | Edward F. O'Brien; Gary A. Baker; Carleton M. Cobb, III |
| An electric switch system (10) for use with a motor vehicle transmission has a movable contact assembly (22) mounted on the detent lever (12) linked to the manual valve assembly and a stationary contact assembly (18) mounted in an open housing (16) disposed over one face surface of the detent lever and in facing relation therewith. The housing has a plurality of L-shaped attachment projections (24a, 24b, 24c) each with a leg (24d, 24e, 24f) which, when the switch system is assembled, extends over the opposite face surface (12c) of the detent lever. A locking projection (24g) of the housing is received in a cut-out (12g) of the detent lever when the attachment projections are out of alignment with the detent lever and has a leg (24h) which extends over the opposite face surface (12c) of the detent lever when the housing (16) is rotated relative to the detent lever so that the attachment projections are in alignment with the detent lever. The housing has a pair of prongs (16d) which receive the roller (26) of the roller/spring assembly (28) to maintain the housing in a fixed angular position. An optional removable lock member (34) is shown to maintain the switch system components in a fixed position prior to installation in a transmission. A modified high current embodiment has a stationary contact assembly (18') with pairs of rails (18c') which lift respective movable contact elements (22a') to break a respective electric circuit at selected angular positions of the detent lever. | ||||||
| 60 | Rotary switch for use in hydraulic fluid | US587047 | 1996-01-16 | US5692600A | 1997-12-02 | Cyril Bradshaw |
| A rotary position detector switch suitable for use in hydraulic fluid and having at least three stationary parallel conductive strips of tin plated low carbon steel intermittently over molded with intermediate portions exposed. An insulated rotor has a bus with spaced hardened steel pins with hemispherical ends slidably mounted thereon and bias springs connecting the pins to the bus. One stationary strip is completely exposed and is electrically common and in continuous contact with one pin. For each selected different rotor position combinations of two other pins contact different exposed portion of the remaining strips to give a discrete electrical indication, for each rotor position. | ||||||
QQ群二维码
意见反馈
意见反馈