1 |
自动复位型开关 |
CN200710140373.9 |
2007-08-10 |
CN101123149B |
2010-06-16 |
中村隆; 中田裕和 |
本发明提供自动复位型开关,其不具有咬合机构,但在将操作旋钮操作到第二操作位置时能够给使用者带来咬合感。将操作旋钮(4)通过第一枢轴(15)支撑在开关座(3)上,并将保持可动触点(72、72)的可动触点保持件(6)通过第二枢轴(16)支撑在开关座上,在该可动触点保持件上形成横跨该第一和第二臂部(6a、6b)的滑动面(28),在该滑动面上滑动的控制柱塞(31)滑动自如地嵌合在操作旋钮中,并由复位弹簧(32)对其在与滑动面抵接的方向上施力,控制柱塞配置成:当操作旋钮向第一和第二操作位置(A、B)摆动时,控制柱塞以将第一和第二枢轴的两轴线间连接而成的平面(P)为界在该平面(P)左右两侧的滑动面上移动,并且复位弹簧的反作用力始终对操作旋钮向第一操作位置(A)侧施力。 |
2 |
变光开关 |
CN200810133654.6 |
2008-07-18 |
CN101354974A |
2009-01-28 |
吴云; A·J·隆巴迪; 周正隆; A·伊尔克哈诺夫 |
一种开关设备,其包括板致动器,所述板致动器被偏压到休止位置,并且配置成可相对于外壳枢轴转动到压下位置以接合设置在外壳内的气隙式开关。所述气隙式开关被配置成在与板致动器接合时改变与开关设备相连的负载的第一状态。板致动器由一对相对的长边和一对相对的短边所界定,并且在其中限定有至少一个槽,所述至少一个槽与板致动器的所述一对相对的短边平行并且居中地设置在板致动器的所述一对相对的长边之间。摇杆致动器被设置在限定于板致动器中的所述至少一个槽内,并且被配置成相对于其进行枢轴转动以接合至少一个开关。所述至少一个开关被配置成在与摇杆致动器接合时改变与所述开关设备相连的负载的第二状态。 |
3 |
开关设备 |
CN200810133654.6 |
2008-07-18 |
CN101354974B |
2012-11-28 |
吴云; A·J·隆巴迪; 周正隆; A·伊尔克哈诺夫 |
一种开关设备,其包括板致动器,所述板致动器被偏压到休止位置,并且配置成可相对于外壳枢轴转动到压下位置以接合设置在外壳内的气隙式开关。所述气隙式开关被配置成在与板致动器接合时改变与开关设备相连的负载的第一状态。板致动器由一对相对的长边和一对相对的短边所界定,并且在其中限定有至少一个槽,所述至少一个槽与板致动器的所述一对相对的短边平行并且居中地设置在板致动器的所述一对相对的长边之间。摇杆致动器被设置在限定于板致动器中的所述至少一个槽内,并且被配置成相对于其进行枢轴转动以接合至少一个开关。所述至少一个开关被配置成在与摇杆致动器接合时改变与所述开关设备相连的负载的第二状态。 |
4 |
自动复位型开关 |
CN200710140373.9 |
2007-08-10 |
CN101123149A |
2008-02-13 |
中村隆; 中田裕和 |
本发明提供自动复位型开关,其不具有咬合机构,但在将操作旋钮操作到第二操作位置时能够给使用者带来咬合感。将操作旋钮(4)通过第一枢轴(15)支撑在开关座(3)上,并将保持可动触点(72、72)的可动触点保持件(6)通过第二枢轴(16)支撑在开关座上,在该可动触点保持件上形成横跨该第一和第二臂部(6a、6b)的滑动面(28),在该滑动面上滑动的控制柱塞(31)滑动自如地嵌合在操作旋钮中,并由复位弹簧(32)对其在与滑动面抵接的方向上施力,控制柱塞配置成:当操作旋钮向第一和第二操作位置(A、B)摆动时,控制柱塞以将第一和第二枢轴的两轴线间连接而成的平面(P)为界在其左右两侧的滑动面上移动,并且复位弹簧的反作用力始终对操作旋钮向第一操作位置(A)侧施力。 |
5 |
Automatic return type switch |
JP2006218366 |
2006-08-10 |
JP4717747B2 |
2011-07-06 |
隆 中村; 裕和 中田 |
|
6 |
Automatically reset switch |
US11889199 |
2007-08-09 |
US07812275B2 |
2010-10-12 |
Takashi Nakamura; Hirokazu Nakata |
A control knob is supported on a switch base via a first pivotal shaft. A movable contact holder holds a movable contact and is supported on the switch base via a second pivotal shaft substantially parallel with the first pivotal shaft. The movable contact holder is formed with first and second arms between which a sliding surface is formed. A control plunger sliding on the sliding surface is slidably fitted to the control knob. A return spring urges the control plunger in a direction to abut on the sliding surface. The control plunger is arranged such that, when the control knob tilts to the first and second operating positions, the tip end of the control plunger moves on the sliding surface to left and right sides with respect to a plane extending between axes of the first and second pivotal shafts, and such that the repulsive force of the return spring constantly urges the control knob toward the first operating position. |
7 |
SWITCHING DEVICE |
US12637425 |
2009-12-14 |
US20100101924A1 |
2010-04-29 |
Yun Wu; Alfred J. Lombardi; Cheng-Lung Chou; Azer Ilkhanov |
A switching device includes a housing and a paddle actuator operably coupled to a front face of the housing and adapted to control a state of a load. The paddle actuator has a pair of opposing long sides and short sides and is configured to pivot about a hinge disposed proximate to one of the short sides of the paddle actuator. At least one component is disposed adjacent to the short side of the paddle actuator that is disposed proximate to the hinge and is configured to sense at least one condition. A control element is configured to control at least one of a sensing range and a sensitivity of the at least one component. The paddle actuator occupies at least 50% of the front face of the housing and the at least one component substantially occupies the remainder of the front face. |
8 |
DIMMER SWITCH |
US12169233 |
2008-07-08 |
US20090189542A1 |
2009-07-30 |
Yun Wu; Alfred J. Lombardi; Cheng-Lung Chou; Azer Likhanov |
A switching device includes a paddle actuator biased to a rest position and configured to pivot relative to a housing to a depressed position to engage an air-gap switch disposed within the housing. The air-gap switch is configured to change a first state of a load connected to the switching device upon engagement by the paddle actuator. The paddle actuator is defined by a pair of opposing long sides and a pair of opposing short sides and has at least one slot defined therein parallel to the pair of opposing short sides thereof and centrally disposed between the pair of opposing long sides thereof. A rocker actuator is disposed in the at least one slot defined in the paddle actuator and is configured to pivot relative thereto to engage at least one switch. The at least one switch is configured to change a second state of the load connected to the switching device upon engagement by the rocker actuator. |
9 |
Automatically reset switch |
US11889199 |
2007-08-09 |
US20080035457A1 |
2008-02-14 |
Takashi Nakamura; Hirokazu Nakata |
A control knob is supported on a switch base via a first pivotal shaft. A movable contact holder holds a movable contact and is supported on the switch base via a second pivotal shaft substantially parallel with the first pivotal shaft. The movable contact holder is formed with first and second arms between which a sliding surface is formed. A control plunger sliding on the sliding surface is slidably fitted to the control knob. A return spring urges the control plunger in a direction to abut on the sliding surface. The control plunger is arranged such that, when the control knob tilts to the first and second operating positions, the tip end of the control plunger moves on the sliding surface to left and right sides with respect to a plane extending between axes of the first and second pivotal shafts, and such that the repulsive force of the return spring constantly urges the control knob toward the first operating position. |
10 |
|
US46639074 |
1974-05-02 |
USB466390I5 |
1976-02-24 |
|
|
11 |
CONTROL PANEL |
US11568526 |
2005-05-11 |
US20070217180A1 |
2007-09-20 |
Jorg Schwarzbich |
An operating panel includes a blind (10) which supports a number of actuating elements (12, 14, 16), and a circuit substrate (18) arranged behind the blind and having switching elements (46; 48) adapted to be actuated mechanically by the operating elements, and the switching elements are located on the back side of the circuit substrate (18) facing away from the blind (10) and the operating elements (12, 14, 16) are adapted to act upon the switching elements from the back side. |
12 |
Multi-function electrical switch assembly |
US666746 |
1976-03-15 |
US4081633A |
1978-03-28 |
David W. Bull |
A multi-function electrical switch assembly has body sections defining therebetween a chamber containing spaced fixed electrical contacts and spaced moveable electrical contacts carried by a plunger member which is resiliently restrained from moving the moveable contacts toward the fixed electrical contacts; a second set of electrical terminals are defined by a fixed terminal connected to a moveable deflectable arm carrying a first contact which, upon such arm being sufficiently deflected by the plunger, engages a cooperating second fixed contact. |
13 |
Return mechanism for an automatically returning switch |
US3673363D |
1970-06-01 |
US3673363A |
1972-06-27 |
NAKAMURA TADAHISA; FUJIMOTO HIROZI; YAMAMOTO MAKOTO; SHINTOMI YUKITO |
Return mechanism for an automatically returning switch comprises a return spring of particular shape and means for mounting this return spring on the switch box. The return spring is made of a spring wire and includes a mounting portion in one plane and an arm, or bridging, portion in another plane, preferably normal thereto, for exerting a spring action on the switch actuator rod. The mounting means for the mounting portion of the spring includes at least one groove in the wall of the switch box which permits one arm portion to move independently of the other arm portion.
|
14 |
Compression spring actuating mechanism for toggle-operated momentary electrical switches |
US22953162 |
1962-10-10 |
US3165603A |
1965-01-12 |
SORENSON WESLEY T |
|
15 |
Switch |
JP20255692 |
1992-07-29 |
JPH06290681A |
1994-10-18 |
HERUMAN RANDAA |
PURPOSE: To provide a one-shot switch having a swingable operation member, which is a simple means to give a return effect.
CONSTITUTION: In a one-shot swing switch, elastic elements 12, 13 are installed between a swing member 8 and a switch cover 4 to turn back the swing member 8 to an initial position every time after the operation of the swinging member 8. The elastic elements 12, 13 are pushed and elastically deformed when the swing member 8 is operated. When the operation of the swing member 8 is turned off, the elastic elements 12, 13 push back the swing member 8 to the initial position. Consequently, swing movement is softly carried out in the one- shot swing switch and the return mechanism is constituted of the simplest means.
COPYRIGHT: (C)1994,JPO |
16 |
JPS5618635U - |
JP10120979 |
1979-07-20 |
JPS5618635U |
1981-02-18 |
|
|
17 |
MOMENTARY STRUCTURE FOR MINI TOGGLE SWITCH |
US15343654 |
2016-11-04 |
US20180130615A1 |
2018-05-10 |
Sean Zhu; Jack Zhu; Wilson Qin; Dongmei Deng; Xusheng Chen |
Embodiments relate generally to methods and systems for providing a bias mechanism for a momentary toggle switch. A toggle switch may comprise a housing; a plurality of contacts disposed within the housing; an actuating lever coupled to a pivot pin, wherein the actuating lever extends into the housing; an actuator assembly coupled to the actuating lever, configured to actuate a movable contact of the plurality of contacts between a first position and a second position; and a biasing mechanism configured to bias the actuator assembly into the first position, wherein the biasing mechanism comprises a torque spring. |
18 |
Zero moment switch mechanism |
US15223682 |
2016-07-29 |
US09721740B1 |
2017-08-01 |
Scott Carpenter |
A magnetically-triggered proximity switch includes an actuator assembly disposed within a switch body, and the actuator assembly includes an actuator body extending along an actuator axis. A primary contact and a secondary contact is each coupled to the actuator body and may be separated from a center contact along the actuator axis. The actuator assembly is pivotable between a first switch position and a second switch position about a pivot axis. In the first switch position, the center contact is in contact with a common contact and the first contact is in contact with a primary contact, thereby completing a circuit between a common arm and a primary arm. In the second switch position, the center contact is in contact with the common contact and the second contact is in contact with a secondary contact, thereby completing a circuit between the common arm and a secondary arm. |
19 |
Dimmer switch |
US12169233 |
2008-07-08 |
US07985937B2 |
2011-07-26 |
Yun Wu; Alfred J. Lombardi; Cheng-Lung Chou; Azer Ilkhanov |
A switching device includes a paddle actuator biased to a rest position and configured to pivot relative to a housing to a depressed position to engage an air-gap switch disposed within the housing. The air-gap switch is configured to change a first state of a load connected to the switching device upon engagement by the paddle actuator. The paddle actuator is defined by a pair of opposing long sides and a pair of opposing short sides and has at least one slot defined therein parallel to the pair of opposing short sides thereof and centrally disposed between the pair of opposing long sides thereof. A rocker actuator is disposed in the at least one slot defined in the paddle actuator and is configured to pivot relative thereto to engage at least one switch. The at least one switch is configured to change a second state of the load connected to the switching device upon engagement by the rocker actuator. |
20 |
Overload protection switch |
US12189961 |
2008-08-12 |
US07688174B2 |
2010-03-30 |
Tang-Yueh Hung |
An overload protection switch includes a main body and a press button. Several terminals, a conductive plate and other components are arranged in the main body. By means of switching the press button, the switch is switchable between an on state and an off state. In case of overload, the conductive plate will separate from one of the terminals to switch off the switch. The components arranged in the main body will not hinder the conductive plate from separating from the terminal. When switching on the switch, the conductive plate resiliently contacts the terminal. In case of overload, the conductive plate separates from the terminal to switch off the switch so as to provide overload protection effect. |