| 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 | Printed circuit board with onnoff switch | JP6970080 | 1980-05-27 | JPS561427A | 1981-01-09 | BARII EFU HAESURII; HOORU II JIYAAMAN |
| 42 | Apparatus for setting electric switch trip device | JP1133579 | 1979-02-02 | JPS54113876A | 1979-09-05 | UERUNAA TOROOBERU |
| 43 | JPS5395170U - | JP6001577 | 1977-05-11 | JPS5395170U | 1978-08-03 | |
| 44 | ROTARY ACTUATOR | US15537230 | 2015-11-26 | US20180267568A1 | 2018-09-20 | JEAN JACQUES FAURIE |
| A rotary actuator includes a cylindrical main body, an actuating handle placed on the cylindrical main body and having a display area, a crown, and an inserted base which is arranged in the cylindrical main body and has contours which engage in contours of the crown. The rotary actuator further includes a guide element for guiding the inserted base and the crown. | ||||||
| 45 | OPERATION APPARATUS | US13642016 | 2011-02-22 | US20130032463A1 | 2013-02-07 | Hirokatsu Nakajima; Satoru Chaen |
| An operation apparatus inhibits separation of a holding member for holding an operation knob from a circuit board. A holding member holding a rotation operation knob so as to be rotatable includes a latched portion capable of insertion through a through-hole formed on a circuit board and also capable of flexure deformation in a specified line parallel to the circuit board. On a rear end of the latched portion, a latched projection is provided projecting to a first direction of the specified line. Accompanying flexure deformation of the latched portion in a second direction opposite to the first direction, the latched projection is able to pass through the through-hole by displacing a predetermined amount in the second direction. The rear cover includes a deformation regulator contacting the latched projection from the second direction and regulates displacement of the latched projection in the second direction to less than the pre-determined amount. | ||||||
| 46 | STRUCTURE FOR PREVENTING ENCODER BUTTON FROM COMING OUT OF PLACE | US13377208 | 2010-06-11 | US20120087721A1 | 2012-04-12 | Masahiro Nishijima; Noriko Ina |
| Inner claws of a fitting part 210 of a dial 105 are engaged with engaging grooves in a rotary encoder 320. A plurality of retaining projections are formed in the dial 105. The retaining projections project radially outward from the fitting part 210 at circumferential intervals from one another. A through hole 500 through which the fitting part 210 can pass and a plurality of recesses through which the plurality of retaining projections can pass are formed in a door frame 120. The plurality of retaining projections are allowed to pass through the recesses only when the retaining projections are coincident in circumferential phase with the recesses. The retaining projections are positioned on one side of the recess portions opposite to an operation part 200 side so as to be freely turnable in synchronism with turning of the operation part 200. | ||||||
| 47 | Rotary combined switch structure with multistage switch function | US12379884 | 2009-03-04 | US07982153B2 | 2011-07-19 | Chia-Wei Lin; Chi-Meng Phang; Chen-Hong Huang |
| A rotary combined switch structure with multistage switch function includes a casing unit, a switch unit and a rotary unit. The casing unit has a casing, a first opening formed on a top side of the casing and a second opening formed on a bottom side of the casing. The switch unit is disposed under the casing. The rotary unit has a rotary body. The rotary body has a top portion passing through the first opening and exposed above the casing, and the rotary body has a bottom portion passing through the second opening and exposed under the casing in order to selectably turn on or turn off the switch unit. | ||||||
| 48 | Thermal overload relay | US12318467 | 2008-12-30 | US07868731B2 | 2011-01-11 | Yukinari Furuhata; Fumihiro Morishita; Takeo Kamosaki |
| A thermal overload relay is provided with an external case, and an adjustment dial with a cam inserted into an adjustment dial insertion hole provided in the external case for adjusting a settling current. A press-fitting section is provided at one of the adjustment dial and the adjustment dial insertion hole, and a locking section is provided at the other of the adjustment dial and the adjustment dial insertion hole. The press-fitting section is press-fit and retained in the locking section. | ||||||
| 49 | Rotary combined switch structure with multistage switch function | US12379884 | 2009-03-04 | US20100147669A1 | 2010-06-17 | Chia-Wei Lin; Chi-Meng Phang; Chen-Hong Huang |
| A rotary combined switch structure with multistage switch function includes a casing unit, a switch unit and a rotary unit. The casing unit has a casing, a first opening formed on a top side of the casing and a second opening formed on a bottom side of the casing. The switch unit is disposed under the casing. The rotary unit has a rotary body. The rotary body has a top portion passing through the first opening and exposed above the casing, and the rotary body has a bottom portion passing through the second opening and exposed under the casing in order to selectably turn on or turn off the switch unit. | ||||||
| 50 | Thermal overload relay | US12318467 | 2008-12-30 | US20090206977A1 | 2009-08-20 | Yukinari Furuhata; Fumihiro Morishita; Takeo Kamosaki |
| A thermal overload relay is provided with an external case, and an adjustment dial with a cam inserted into an adjustment dial insertion hole provided in the external case for adjusting a settling current. A press-fitting section is provided at one of the adjustment dial and the adjustment dial insertion hole, and a locking section is provided at the other of the adjustment dial and the adjustment dial insertion hole. The press-fitting section is press-fit and retained in the locking section. | ||||||
| 51 | Architecture effectively connecting a rotary switch and a casing | US11406313 | 2006-04-19 | US07550687B2 | 2009-06-23 | Tsui-Jung Su |
| An architecture effectively connecting a rotary switch and a casing comprises: a rotary switch and a casing that is engaged with the rotary switch via a rotary disc of the rotary switch. The casing has multiple snap-fit parts corresponding to snap-fit slots of the rotary disc to form a snap-fit interconnection therebetween. When the casing is rotated, the casing will drive the rotary switch to rotate via the interconnection between the snap-fit parts and the snap-fit slots, and a signal module will output instructions corresponding to the rotation track of the rotary disc. The interconnection between the casing and the rotary disc is implemented with a snap-fit method, and the rotated casing drives the rotary disc to rotate synchronically and create signals. As the casing is engaged with the rotary disc via a snap-fit method, the casing is hard to deviate or loosen. Thus, correct instructions will be exactly output. | ||||||
| 52 | Multi-function button with mode selection | US10885331 | 2004-07-06 | US07054551B2 | 2006-05-30 | Chi-Yu Liao; Jih-Yung Lu |
| A mode selection device and a multi-function button containing such a device are provided. The mode selection device includes a case, a chassis and a dial. The case has a hole; the chassis, lying under the case, includes a latch and a set of slots. The latch is between the slots. The dial, installed in the hole, includes a recess and a set of protuberances corresponding to the slots. The recess is located in the center of the dial. The protuberances are located under the dial and engage with the slots. When the latch engages with an edge of the dial, the latch, the slots and the protuberances together keep the relative position between the dial and the chassis unchanged. | ||||||
| 53 | Mode switch of video cassette recorder | US10620590 | 2003-07-17 | US06864440B2 | 2005-03-08 | Ji-Bum Kim |
| An improved switch for an electronic device is provided which includes a main printed circuit board having a contact point mode pattern at an upper surface thereof, and a rotor rotatably installed on the main printed circuit board. One or more brushes are provided with either the rotor or the main printed circuit board so as to be connected to the contact point mode pattern. The rotor may be engaged to a moving member of the electronic device so that the rotor is rotated to different orientations depending on the operational mode of the electronic device. Because the rotor is directly installed on the main printed circuit board, the number of construction components is reduced, and the product can be more compact. | ||||||
| 54 | Mode switch of video cassette recorder | US10620590 | 2003-07-17 | US20040141715A1 | 2004-07-22 | Ji-Bum Kim |
| A switch for an electronic device includes a main printed circuit board having a contact point mode pattern at an upper surface thereof; and a rotor rotatively installed on the main printed circuit board with one or more brushes mounted therein so as to be connected to the contact point mode pattern. The rotor may be engaged to a moving member of the electronic device so that the rotor is rotated to different orientations depending on the operational mode of the electronic device. Because the rotor is directly installed on the main printed circuit board, the number of construction components is reduced, and the product can be more compact. | ||||||
| 55 | Rotary electrical switch | US923880 | 1986-10-28 | US4739138A | 1988-04-19 | Jurgen Wolf |
| The rotary electrical switch 1 which is mounted on a circuit plate 7 furnished with a printed circuit comprises a switch wheel 4 which is rotatably supported on the circuit plate 7 and whereat a contact bridge 48 is inserted into a pocket 46. On rotation of the rotary switch 1, said contact bridge 48 connects and/or disconnects at least two conducting paths of the printed circuit. Shaped at the switch wheel 4 is a pivot pin 17 which penetrates the circuit plate 7 and which is secured by a base member 5 to the circuit plate 7 on the said's bottom side opposite to the printed circuit. The switch wheel 4 includes catch-type recesses 42, with a resilient switching element 32 engaging into each one recess depending on the position of rotation of the switch wheel 4. The base member 5 urges via the switch wheel 4 the contact lugs 48 resiliently against the circuit plate 7, additionally forms the catch-type element 40 and simultaneously couples the switch wheel 4 and the circuit plate 7. | ||||||
| 56 | Rotary switch | US178455 | 1980-08-15 | US4348569A | 1982-09-07 | Bernard J. Golbeck; Raymond F. Lewandowski; Donald A. Rentzsch; Lonnie J. Richardson |
| A rotary switch construction wherein a stator has a pocket for receiving a rotor. The rotor has a flexible rim which permits it to snap-fit into the pocket of the stator. A plurality of angled surfaces on the stator compress the rotor rim as it is inserted into the pocket of the stator. Retainer means are provided to hold the rotor in the stator. The rotor further includes a plurality of stop pairs. The stator has a single, fixed stop which is disposed between the stops of one of the pairs on the rotor. The rotor stops have variable arcuate spacing so that, depending on which pair of stops spans the fixed stop, the degree of rotational freedom of the rotor can be selected. In another aspect, the rotary switch includes means on the rotor for fastening the rotor blade in place. | ||||||
| 57 | Rotatable electrical contact component with detent | US944527 | 1978-09-21 | US4206334A | 1980-06-03 | Donald W. LaRock |
| A three piece rotatable electrical contact component for printed circuit board applications, wherein a rotatable contact of the component engages electrical circuitry on a printed circuit board, is disclosed. The component consists of a generally circular contact element, a contact carrying rotor which is mounted to be rotatable in the printed circuit board, and to which said circular contact element is secured, and a ring-shaped stop member which snaps over the contact carrying rotor and is secured to the printed circuit board so as to be non-rotatable. The rotor, in addition, has a number of arcuate detent grooves formed around its periphery to provide a plurality of detent locations. The stop member has a flexible post that is located in a hole in the printed circuit board which is shaped so that rotational movement of the stop member is prevented, but so that the stop member is free to transversely flex and thereby cooperate with the detent grooves of the rotor to provide the desired detent action. | ||||||
| 58 | エンコーダボタンの抜け防止構造 | JP2011518579 | 2010-06-11 | JPWO2010143703A1 | 2012-11-29 | 正浩 西島; 典子 伊奈 |
| ロータリーエンコーダ(320)の係合溝にダイヤル(105)の嵌合部(210)の内爪を係合する。ダイヤル(105)に嵌合部(210)から径方向の外方に周方向に互いに間隔をおいて突出する複数の抜け止め突出部を形成する。ドアフレーム(120)に嵌合部(210が通過可能な貫通穴(500)と、複数の抜け止め突出部が通過可能の複数の凹部とを形成する。複数の抜け止め突出部を、複数の凹部と周方向の位相が一致したときのみ複数の凹部を通過可能にする。複数の抜け止め突出部を、凹部の操作部(200)側とは反対側に位置させて、操作部(200)の回動と同期して自在に回動するようにする。 | ||||||
| 59 | Operating device | JP2010120111 | 2010-05-26 | JP2011249097A | 2011-12-08 | NAKAJIMA HIROKATSU; CHAZONO SATORU |
| PROBLEM TO BE SOLVED: To provide an operating device capable of inhibiting a holding member for holding a rotary operation knob from being removed from a circuit board with a simple configuration.SOLUTION: A holding member 60 for holding a rotary operation knob 140 rotatably is provided with a locked part 67 which can be inserted into a through hole 22 formed in the circuit board 20 and can be distortedly deformed in a particular direction parallel in the circuit board 20, and a locked projection 67b which can pass through the through hole 22 by projecting to one side in the particular direction to be displaced to the other side by a predetermined amount in accordance with the matter that the locked part 67 is distortedly deformed to the other side and is brought into contact with a rear side surface of the circuit board 20 from a rear side in accordance with the elastic return of the locked part 67 after passing through of the through hole 22, and a rear cover 10 is provided with a deformation regulating part 14 which is brought into contact with the locked projection 67b from the other side to regulate the displacement of the locked projection 67b to the other side less than the predetermined amount. | ||||||
| 60 | Operating mechanism of rotary type electric component | JP31217397 | 1997-11-13 | JPH11144564A | 1999-05-28 | KOYAKATA MITSURU; YOKOYAMA TATSUYA; KASHIWABARA FUMIHIKO |
| PROBLEM TO BE SOLVED: To prevent deterioration in operation feeling of an operating knob even if a rotary type electric component previously mounted on a printed circuit board is fixed to a housing in an operating mechanism for operating the rotary type electric component by the rotation of the operating knob rotatably positioned in the housing. SOLUTION: A cylinder part 11 rotatably fixed to the opening of a housing, four flexible pieces 12 extending toward the center from the inner circumferential surface of the cylinder part 11, a connecting axis 13 extending just under in the vertical direction from the crossing point of flexible pieces 12 are integrally formed in a first operating body 9 made of synthetic resin, a second operating body 14 made of synthetic resin is forced to insert into and fixed to the cylinder body 11 to constitute an operating knob with the first operating body 9 and the second operating body 14. A rotary switch 2 is mounted on a printed circuit board, the printed circuit board is fixed to the housing, an engaging part 13a formed at the lower end of the connecting axis 13 is inserted into an engaging hole 3a formed in a rotating axis 3 of the rotary switch 2, and off centering of the rotating axis 3 and the connecting axis 13 caused by fixing error is absorbed by the rocking due to the deformation of the flexible pieces 12 of the connecting axis 13. | ||||||
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