| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Hybrid junction box and jumper clip | US478012 | 1995-06-07 | US5655927A | 1997-08-12 | H. Winston Maue; George A. Wooldridge |
| The present invention hybrid junction box 11 joins two or more external electric current carrying members within a vehicle electrical system 14 and is comprised of a protective cover 31 and a protective housing 39 which define a casing having a cavity therewithin where a plurality of internal electric current carrying circuits are juxtaposed. The internal electric current carrying circuits may include at least one conducive deposited metal trace directly on the casing. Furthermore, a junction box 11 of the present invention has a plurality of internal electric current carrying circuits which may additionally include a flexible printed circuit board 37. Moreover, a junction box of the present invention provides for use of a rigid printed circuit board 33 and/or a busbar and insulator assembly 35 in combination with either or both the conductive deposited metal traces 67 and the flexible printed circuit board 37. The present invention is also comprised of various methods for electrically connecting together the various combinations of the preceding internal electric current carrying circuits. The present invention further uses a jumper box interconnect 193 to provide a programmed function within the busbar and insulator assembly 35. | ||||||
| 162 | Switch assembly having a switch contact section installed between a substrate and a lower case | US575098 | 1995-12-19 | US5647478A | 1997-07-15 | Hideo Hirai |
| A switch assembly having a switch contact section positioned with high precision by forming positioning portions for the switch contact section on a lower case 28. The lower case 28 is coupled with an upper case 2. Knobs 3, 4, 5, 6, 7 and 8 are pivotally supported on the upper case 2, respectively, and have operation rods 3b, 4c, 5c, 6c, 7c, 8a projected downwardly. The switch contact sections 11, 16, 19, 22, 25 and 26 have operation shafts 11a, 16a, 19a, 22a, 25a and 26a to be contacted with operation rods 3b, 4c, 6c, 7c and 8a, respectively. The lower case 28 is provided with positioning portions 28b, 28c, 28d, 28e, 28f, 28g and 28i for positioning the switch contact sections 11, 16, 19, 22, 25 and 26 at predetermined positions, respectively. | ||||||
| 163 | Two-pole make-before-break switch | US792966 | 1991-11-15 | US5601183A | 1997-02-11 | M. Douglas Boyd; Tom J. Oshgan; Robert Krawczyk |
| A two-pole make-before-break switch includes a base housing, a cover member secured to the base housing, an actuating member disposed above the cover member, and first and second contact assemblies mounted on an interior portion of the base housing. The first contact assembly includes a normally-open common contact blade member that is closed prior to the closing of another set of normally-open contacts with a snap action in a second contact assembly so as to complete an electrical connection. The switch is operable by depressing the actuator member either in a first direction to effect a manual-up mode of operation or in a second direction to effect down modes of operation. | ||||||
| 164 | Control module containing logic controls for electric window operation in motor vehicles | US464651 | 1995-06-21 | US5578803A | 1996-11-26 | Siv Andersson; Helen Bogren |
| A control module (1) for servo assisted window operation in motor vehicles comprises a number of individual controls (2a-2d) for the respective side windows and also other controls (3, 4, 5) for actuating the locking out of rear seat controls for rear side windows, the release of jamming protection and the roof hatch servo. The control module (1) is preferably intended for placing on a central console (16) between the vehicle's front seats for easy access by the driver. Each individual control (2a-2d) for the respective side windows not only has an asymmetry of shape pointing towards the respective window but is also designed with first and second operating surfaces (12 and 13 respectively) which made it possible to press the control downwards towards and lift it upwards away from a horizontal baseplate (6) of the control module (1) so as to permit logical actuation of the controls (2a-2d) with respect to the movement of the windows. This makes it easy for the driver to identify the right control and operate it in the right direction without taking his eyes off the roadway. | ||||||
| 165 | Assembly for sequential switching | US210868 | 1994-03-18 | US5510583A | 1996-04-23 | James R. Pescetto |
| A switch assembly having a rocker type actuator user moveable for actuating plural switches in a housing. The rocker type actuator includes first and second rocker members journalled together for rotation about a common axis. The first member has a paddle extending out of the housing and a first cam portion for actuating a first switch upon initial rotation in one direction. Upon continued rotation in the same direction, overtravel of the first switch is absorbed by a torsion spring which permits resiliently biased lost motion of the first cam with respect to a second cam for subsequent actuation of a second switch. The torsion spring provides a significant increase in the force required to move the actuator between the first and second switch actuation to provide tactiley discernable feedback to the user of the state of switch actuations. | ||||||
| 166 | Switch device | US233783 | 1994-04-26 | US5468926A | 1995-11-21 | Hiroshi Sato |
| A switch device includes a conductive plate which is embedded in a housing of a synthetic resin and has one end projecting from the housing. A substantially V-shaped movable contact is supported at the one end of the conductive plate. An urging pin is carried on an operating member swingable about an axis parallel to an axis of swinging movement of the movable contact and is resiliently brought into abutment against the movable contact. In such switch device, support sections are integrally provided on one of inclined portions of the movable contact for receiving one end of the conductive plate which is formed into a non-bent flat plate-like configuration. Thus, it is unnecessary to conduct the bending of the conductive plate, and the movable contact can be swingably supported at the one end of the conductive plate, leading to an enhanced assembling efficiency. | ||||||
| 167 | Switch actuator assembly | US230671 | 1994-04-21 | US5446253A | 1995-08-29 | Thomas J. Oshgan |
| A rocker type switch actuator for sequentially actuating plural switches upon rotation in either of opposite directions from a neutral position. The actuator has a springloaded plunger which engages a recess in the housing. The recess has a central depression for neutral position detention and steep ramps disposed spaced on either side of the neutral recess. The steep ramps provide first actuation position detent action against the plunger upon user movement of the rocker from the neutral position. The steep ramp requires a substantially/increased user applied actuation force to move the plunger beyond the initial actuation position; and, upon the plunger cresting the top of the steep ramp a sudden decrease in user applied force is tactilely discernible to provide an indication that the second switching position has been reached. | ||||||
| 168 | Unit panel structure for a door trim | US112 | 1993-01-04 | US5434757A | 1995-07-18 | Naoki Kashiwagi |
| To allow smooth access to such elements as operating knobs for power window switches and a door lock switch provided in a unit panel in the night time lighting condition, the entire surface of an escutcheon panel mounted on the unit panel is defined as a switch operating part for an illuminating lamp which illuminates the elements to be accessed. The illuminating lamp may be lighted up for a prescribed time period to illuminate the escutcheon panel when the switch operating part is touched so that unnecessary consumption of electric power may be avoided. The escutcheon panel may be made of at lease semi-transparent plastic so that light from an illuminating lamp placed behind the escutcheon panel may be transmitted through the escutcheon panel. Alternatively, the element to be accessed such as a switch knob mounted on the escutcheon panel may be made of at lease semi-transparent plastic so that illuminating light may be transmitted therethrough. | ||||||
| 169 | Dual action switch assembly with sequentially actuated membrane switches including a reciprocating circuit board | US161008 | 1993-12-03 | US5412164A | 1995-05-02 | Michael E. Conway; Samuel E. Penn |
| A two-way dual action electric switch assembly has an actuator that slides in housing from a neutral position to a first position to a second position and back to the neutral position in each direction. Travelling circuit boards are slideably disposed in the housing on either side of the actuator and a single elastomeric dome switch is disposed between the actuator and each travelling circuit board. A fixed circuit board is outboard of each travelling circuit board and a pair of second elastomeric dome switches are disposed between each travelling circuit board and its associated fixed outboard circuit board. The single elastomeric dome switches close electric circuitry of the travelling circuit boards in the first positions and the pairs of second elastomeric dome switches close electric circuitry of the fixed outboard circuit boards in the second positions. | ||||||
| 170 | Auto-switch for power window | US809203 | 1991-12-12 | US5329163A | 1994-07-12 | Hiroshi Satoh; Noboru Kamiya; Toru Tanaka; Sadayoshi Oshima; Minoru Mohri |
| The present invention relates to an auto-switch which is used for a control circuit of a power window for moving automobile window glass up and down using an electric window motor, and has a manual/automatic contact, wherein the auto-switch is operably by a single operating knob. In the auto-state, the auto-switch can mechanically retain the manual/automatic contact at a closed state, and can always reset the operating knob to the neutral position. | ||||||
| 171 | Apparatus for controlling power window regulator | US384990 | 1989-07-25 | US5138182A | 1992-08-11 | Sadao Kokubu |
| An apparatus for controlling a power window capable of maintaining an energized state of the motor to move a window glass, detecting a locked-rotor current flowing through the motor when the window glass reaches a limit position, and de-energizing the motor to stop the movement of the window glass when the locked-rotor current becomes larger than a predetermined value. The period of time for energization of the motor is longer than a period of time from a moment at which the "ON" operation of the automatic mode switch is cancelled to a moment at which the window glass reaches the limit position. It is thereby possible to automatically de-energize the motor when the window glass reaches the limit position, even if the locked-rotor current does not become larger than the predetermined value at this time due to the influence of temperatures or other causes. | ||||||
| 172 | Low current switching apparatus having detent structure providing tactile feedback | US700237 | 1991-05-15 | US5130506A | 1992-07-14 | Joseph C. Zuercher; Edward G. Lewis; Michael G. Taranowski; Constance L. Williams |
| Pivotal movement of a switch actuator drives a finger projecting from the actuator against a convexly bowed leaf spring, depressing an intermediate portion of the leaf spring to an unstable concave condition. The leaf spring resists the actuator movement, initially with an increasing force but changing to a decreasing force at a predictable point in actuator movement to provide tactile feedback at an operator affixed to the actuator. The leaf spring is a flat beam. The spring force and point of changeover can be readily and predictably varied during manufacture by selecting springs having different widths, thicknesses or other variable parameters. A modular block holds the spring in the bowed condition and is positioned relative to the actuator finger by a support plate. The actuator finger drives the spring against a conductive rubber block, compressing the block against spaced conductors on a printed circuit to complete the circuit. A plurality of such switches are made in a common package by layering a printed circuit, insulator sheet, conductive rubber sheet with raised bosses, detent support plate and a plurality of detent blocks with bowed springs, between a base and a cover. Back lit illumination is provided by a light pipe trapped against the cover as an additional layer. A microprocessor board, connected to the internal printed circuit, is attached to the switch housing exteriorly of the base. | ||||||
| 173 | Multiposition switch device for controlling a driving means | US510680 | 1990-04-18 | US5089715A | 1992-02-18 | Sadao Kokubu |
| A switch device for making a motor or the like alternate between forward reverse rotation, having a pair of switches and a control circuit. When either one of the switches is activated, the control circuit activates the motor in one or the other direction depending upon which switch is activated. When both switches are activated, the control circuit activates the motor until a desired action or task is completed. Therefore, when the present invention is used in a window glass lifting apparatus of an automobile, three kinds of operations of the window glass can be performed by using a pair of switches: partial upward and partial downward movement and continuous movement down to the fully open state of the window glass. | ||||||
| 174 | Reversing switch | US080763 | 1987-08-03 | US4808775A | 1989-02-28 | Hiroshi Satoh; Minoru Mohri |
| In a reversing switch comprising a substantially V-shaped swinging contact plate provided with a normally open movable contact and a normally closed movable contact, a pair of fixed contacts provided in opposed relationship to the normally open movable contact and the normally closed movable contact, an intermediate supporting member for supporting a normally open contact side of a central bent portion of the swinging contact plate, and a knob adapted to be swung and slid on the swinging contact plate; the improvement is characterized in that the swinging contact plate is formed of an elastic material, and that the knob is provided at its end portion with a pressing member adapted to elastically deform the swinging contact plate. With this arrangement, the swinging contact plate is elastically deformed by the pressing member in association with the swinging motion of the knob, thereby wiping off a bad conductor present between the movable contact and the fixed contact. | ||||||
| 175 | Switch construction | US542865 | 1983-10-17 | US4533803A | 1985-08-06 | Wilbert E. Beller; George D. Georgacakis; George Obermann |
| A momentary contact rocker switch utilizes a pair of torsion springs as movable switch contacts, with fixed terminal posts being used as fixed contacts. The terminal posts are grooved in the region of contact with the torsion spring to provide a wiping action. This wiping action, along with the high electrical contact forces provided by the torsion spring, eliminates the need for silver contacts. | ||||||
| 176 | Electric switch having pivoting structure on fixed contact | US41299864 | 1964-11-23 | US3320389A | 1967-05-16 | ALFONSAS ARLAUSKAS |
| 177 | Window actuator control system | US37339064 | 1964-06-08 | US3243680A | 1966-03-29 | BURNS CHARLES L |
| 178 | Sliding contact switch | US33439263 | 1963-12-30 | US3219784A | 1965-11-23 | NICHOLAS TORUK; OLSON JEROME B |
| 179 | Window control switch | US51146655 | 1955-05-27 | US2791647A | 1957-05-07 | NEWCOMB HARLEY M |
| 180 | Electric switch | US442030D | US442030A | 1890-12-02 | ||
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