| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 印刷电路部件控制设备及包括该设备的脱扣系统 | CN200810081468.2 | 2008-02-22 | CN101256920B | 2013-01-16 | 亨利·贝洛托 |
| 本发明涉及组装印刷电路板(12)调节部件(14)促动装置(20)的方法和由此形成的组件(10),以及该组件的控制部分。所述促动装置(20)包括杆部(22)和上部(28),所述上部设置有槽(26),该槽夹入所述机盖(16)的适当开口(18)中。这样,由所述机盖(16)抵消了所述促动装置(22、28)上的垂直应力,并且保护了所述板(12)。进一步可以在所述促动装置的上部(28)和所述孔(18)之间留出间隙,该间隙包括在所述槽(26)的高度处。 | ||||||
| 2 | 录像机的方式开关 | CN03153007.9 | 2003-08-04 | CN1260757C | 2006-06-21 | 金知范 |
| 一种用于电子装置的开关包括一主印刷电路板,它具有在其上表面的触点方式图案;以及一转动体,它安装在主印刷电路板上,并具有安装在其上的一个或多个电刷,从而与触点方式图案接触。转动体可与电子装置的移动件啮合,从而使转动体根据电子装置的操作方式转动至不同的方位。由于转动体直接安装在主印刷电路板上,因此,结构零件的数量减少,产品可更紧凑。 | ||||||
| 3 | 操作装置 | CN201180025045.9 | 2011-02-22 | CN102906844B | 2016-05-11 | 中岛浩胜; 茶园悟 |
| 提供了一种操作装置,该操作装置能够通过简单结构抑制用于保持旋转操作钮的保持构件从电路板的分离。能够插入形成在电路板(20)中的通孔(22)且能够在与电路板(20)平行的方向上弯曲的被锁定部(67)被设置在保持构件(60)中用于可旋转地保持旋转操作钮(140)。朝向指定方向上的一侧突出的被锁定突起(67b)设置在每个被锁定部(67)的后端上。当被锁定部(67)在另一指定方向上弯曲时,被锁定突起(67b)朝向指定方向的另一侧移动预定的量,且因此可以穿过每个通孔(22)。当被锁定部(67)在被锁定突起通过通孔(22)后弹性恢复时,被锁定突起(67b)抵靠电路板(20)的下侧表面。变形限制部(14)被设置在后覆盖件(10)上并且从另一侧抵靠被锁定突起(67b)使得被锁定突起(67b)朝另一侧的移动被限制为小于预定的量。 | ||||||
| 4 | 热动型过载继电器 | CN200910007851.8 | 2009-02-19 | CN101515522B | 2013-05-15 | 古畑幸生; 森下文浩; 鸭崎雄雄 |
| 本发明提供一种热动型过载继电器,其在将调整转盘保持在外部壳体上时,只用单一的调整转盘就能够稳定地保持。热动型过载继电器,其具在设置于外部壳体(1)的调整转盘插入孔(1b)中具有对稳定电流进行调整的带凸轮的调整转盘(9),其中在所述调整转盘(9)或调整转盘插入孔(1b)的一者设置压入部(9b),在另一者设置对压入部(9b)进行压入保持的卡止部(1c)。 | ||||||
| 5 | 操作装置 | CN201180025045.9 | 2011-02-22 | CN102906844A | 2013-01-30 | 中岛浩胜; 茶园悟 |
| 提供了一种操作装置,该操作装置能够通过简单结构抑制用于保持旋转操作钮的保持构件从电路板的分离。能够插入形成在电路板(20)中的通孔(22)且能够在与电路板(20)平行的方向上弯曲的被锁定部(67)被设置在保持构件(60)中用于可旋转地保持旋转操作钮(140)。朝向指定方向上的一侧突出的被锁定突起(67b)设置在每个被锁定部(67)的后端上。当被锁定部(67)在另一指定方向上弯曲时,被锁定突起(67b)朝向指定方向的另一侧移动预定的量,且因此可以穿过每个通孔(22)。当被锁定部(67)在被锁定突起通过通孔(22)后弹性恢复时,被锁定突起(67b)抵靠电路板(20)的下侧表面。变形限制部(14)被设置在后覆盖件(10)上并且从另一侧抵靠被锁定突起(67b)使得被锁定突起(67b)朝另一侧的移动被限制为小于预定的量。 | ||||||
| 6 | 编码器旋钮的防脱结构 | CN201080025651.6 | 2010-06-11 | CN102804310A | 2012-11-28 | 西岛正浩; 伊奈典子 |
| 本发明提供一种编码器旋钮的防脱结构。标度盘(105)的嵌合部(210)的内爪卡合在旋转编码器(320)的卡合槽中。在标度盘(105)上形成有多个防脱突出部,所述多个防脱突出部从嵌合部(210)朝向径向外侧突出、且在周向上相互隔开间隔。在门框(120)上形成有通孔(500)和多个凹部,所述通孔(500)能使嵌合部(210)通过,所述多个凹部能使多个防脱突出部通过。仅在多个防脱突出部与多个凹部的周向相位一致时,多个防脱突出部能通过多个凹部。多个防脱突出部位于凹部的与操作部(200)侧相反的一侧,并且与操作部(200)的转动同步地自如转动。 | ||||||
| 7 | 热动型过载继电器 | CN200910007851.8 | 2009-02-19 | CN101515522A | 2009-08-26 | 古畑幸生; 森下文浩; 鸭崎雄雄 |
| 本发明提供一种热动型过载继电器,其在将调整转盘保持在外部壳体上时,只用单一的调整转盘就能够稳定地保持。热动型过载继电器,其具在设置于外部壳体(1)的调整转盘插入孔(1b)中具有对稳定电流进行调整的带凸轮的调整转盘(9),其中在所述调整转盘(9)或调整转盘插入孔(1b)的一者设置压入部(9b),在另一者设置对压入部(9b)进行压入保持的卡止部(1c)。 | ||||||
| 8 | 印刷电路部件控制设备及包括该设备的脱扣系统 | CN200810081468.2 | 2008-02-22 | CN101256920A | 2008-09-03 | 亨利·贝洛托 |
| 本发明涉及组装印刷电路板(12)调节部件(14)促动装置(20)的方法和由此形成的组件(10),以及该组件的控制部分。所述促动装置(20)包括杆部(22)和上部(28),所述上部设置有槽(26),该槽夹入所述机盖(16)的适当开口(18)中。这样,由所述机盖(16)抵消了所述促动装置(22、28)上的垂直应力,并且保护了所述板(12)。进一步可以在所述促动装置的上部(28)和所述孔(18)之间留出间隙,该间隙包括在所述槽(26)的高度处。 | ||||||
| 9 | 录像机的方式开关 | CN03153007.9 | 2003-08-04 | CN1518026A | 2004-08-04 | 金知范 |
| 一种用于电子装置的开关包括一主印刷电路板,它具有在其上表面的触点方式图案;以及一转动体,它安装在主印刷电路板上,并具有安装在其上的一个或多个电刷,从而与触点方式图案接触。转动体可与电子装置的移动件啮合,从而使转动体根据电子装置的操作方式转动至不同的方位。由于转动体直接安装在主印刷电路板上,因此,结构零件的数量减少,产品可更紧凑。 | ||||||
| 10 | Rotating-position detecting switch and method for molding its body | JP27557394 | 1994-10-14 | JPH08115638A | 1996-05-07 | KAJI MASAKAZU |
| PURPOSE: To thin a switch while keeping the pawl of the snap-fit portion of its rotor from protruding outward from its body by locking the pawl to the edge of the small-diameter portion of a locking hole in the center of the body, and enclosing the pawl in the large-diameter portion of the hole. CONSTITUTION: In a rotation detecting switch, the snap-fit portion 220 of a rotor 200, when inserted into a locking hole 111 in a body 100, is deformed inwards as a result of contact between its pawl 221 and the inner peripheral surface of a small-diameter portion 111A, and the pawl 221 reaches the edge 112 of the small-diameter portion 111A. As a result, the snap-fit portion 220 deformed is restored to its original shape with the pawl 221 locked to the edge 112. Since the pawl 221 has a relation of (a) ≤h 1 with a large-diameter portion 111B, it is enclosed in the large-diameter portion 111B while being locked to the edge 112 and so does not protrude from the back of the body 100. COPYRIGHT: (C)1996,JPO | ||||||
| 11 | MODULAR SYSTEM OF AN OPERATING DEVICE | US14782242 | 2014-03-19 | US20160048153A1 | 2016-02-18 | Sebastian De La Coba Denninger; Ulrich Deusser; Christoph Hipp-Kalthoff; Hans-Henning Knorr; Klaus Voigt |
| A modular system of an operating device may include at least one base housing having at least two receiving units. Each receiving unit may have mounted therein a rotatable operating element. The rotatable operating element may include at least one of a mechanical assembly for adjusting Bowden cables, an electronic device for recognizing a position of the mechanical assembly, and an electromechanical rotary regulator. | ||||||
| 12 | Operation apparatus | US13642016 | 2011-02-22 | US08680417B2 | 2014-03-25 | 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. | ||||||
| 13 | Multi-function button with mode selection | US10885331 | 2004-07-06 | US20050002664A1 | 2005-01-06 | 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. | ||||||
| 14 | Snap-in locking device for a multistage rotary switch | US10352532 | 2003-01-28 | US20030141175A1 | 2003-07-31 | Edgar Spiegel; Thomas Prowald; Martin Fickert |
| The invention concerns a snap-in locking device for a multistage rotary switch with a switch spindle that is connectable with a rotary knob, by means of which a switch part is adjustable into several switch positions, wherein the switch positions are determined by the pre-defined snap-in positions of the snap-in locking device, which comprises a snap-in lock element and counter-snap-in elements. If the invention provides that that the switch spindle is connected torque proof with an axle part that is snapped into an inner receptacle of a built-in switch panel part, that the axle part rests on the switch panel part and is lock-in adjustable between snap-in receptacles with cams that are each limited by two radially-aligned connector links, that the snap-in receptacles cover the entire circumference of the inner receptacle of the switch panel part, that the axle part can be set into rotary motion with the switch spindle by means of a rotary knob, which is attachable to the switch spindle, and that modifiable limit stops define the number of switch positions, then a snap-in locking device for a operating unit is created with simple and cost-effective production and assembly parts that is coupleable with other components of the operating unit and can be equipped with an over-rotation safeguard. | ||||||
| 15 | Electronic product with a function knob capable of receiving voice signal | US888644 | 1997-07-07 | US6091831A | 2000-07-18 | Nam-Ill Cho |
| An electronic product has a function knob capable of receiving voice signals. The electronic product includes a case forming the product's external appearance and is provided with the function knob for performing a given function of the product. A microphone is installed in the function knob to operate a given function and receive the voice signals. The function knob has a dustproof rubber member to shield the overall surface of the microphone other than the front side of the function knob from dusts and noises. The function knob, with the microphone installed therein, can be a button operated by a press or a dial by a rotation, thereby allowing the microphone to be highly sensitive to the voice signals but not spoiling the external appearance of the product. | ||||||
| 16 | Device for providing axial and spatial misalignment compensation between a rotatable component and a rotating means | US55542 | 1998-04-06 | US5966995A | 1999-10-19 | Stanley H. Edwards, Jr.; T. Ray Robbins; Barry Edward Powell |
| An operating shaft which provides compensation for axial and spatial misalignment between a rotatable component mounted within an enclosure and a rotating apparatus generally outside the enclosure is disclosed. The operating shaft has a first end dimensioned to be slidably received within a receiving portion of the rotating apparatus such that the shaft is maintained in a fixed angular position with respect to the rotating apparatus. The shaft is axially slidable with respect to the rotating apparatus such that it will provide compensation for axial misalignment between the rotatable component and the rotating apparatus. The shaft has a second end configured to engage the rotatable component such that rotation of the rotating apparatus will produce a corresponding rotation of the rotatable component. The shaft also has a spatial compensation device which is integrally formed from the shaft between the first and second ends. The spatial compensation device provides compensation for spatial misalignment between the axis of the rotatable component and the axis of the rotatable apparatus. This is accomplished by creating a compensating angle between the first and second ends which permits the shaft to be rotated about its axis while maintaining the compensating angle. | ||||||
| 17 | Molded printed circuit for rotary switches | US532784 | 1990-06-04 | US5086200A | 1992-02-04 | Charles E. Kline; Dale W. Dorinski; William M. Bradford |
| A rotary switch, having at least two operating positions, includes a molded base with a printed electric circuit plated on at least one surface of the base, and at least one detent for providing the operating positions for the rotary switch. The detents also provided at least one electrical contact. A rotating contact member is rotatably attached to the base. The rotating contact member includes at least one electrical contact formed thereon for providing at least one connection with the printed electric circuit as the rotating contact member rotates. | ||||||
| 18 | Snap action removable knob | US489892 | 1983-04-29 | US4486918A | 1984-12-11 | Douglas D. Peebles |
| A knob assembly is provided which includes a knob having an integral shaft. The knob further includes a circular groove therein, and first and second cams situated in the groove. A knob receiving member includes an aperture in which the shaft of the knob is situated. Two snap fingers of flexible material extend from the sides of the aperture to engage the knob when the knob is pressed into the aperture. The knob is conveniently removed from the aperture by rotating the knob until the first and second cams contact and push the first and second snap fingers, respectively, out of the groove. | ||||||
| 19 | Small contactor with a removable subset of auxiliary switches | US466198 | 1983-02-14 | US4485365A | 1984-11-27 | Gerard Lerude; Jacques Lesoile |
| A removable group of auxiliary switches is mounted on the upper surface (4) of the contactor housing by hinging means (28, 29) and resilient locking (32, 33) placed respectively in the area of the base (8) and of partitions (5) which separate the principal terminals (6). The group comprises two switches (make and break). Coupling in this manner makes it possible to increase the number of auxiliary switches without increasing the contactor's frontal or lateral congestion. | ||||||
| 20 | Setting mechanism with detent steps for tripping devices of electrical switch gear | US7558 | 1979-01-29 | US4211907A | 1980-07-08 | Werner Troebel |
| A setting mechanism for tripping devices of electrical switchgear has a driven inner member carrying a radially extending, resilient detent arm which interacts with stationary detent slots. For joining with an outer driving member, an interrupted ring snap-in connection is provided between the inner and outer elements which is designed so that eccentric forces as well as asymmetrical spreading forces caused by the resilient detent arm and by the application of torque can be transmitted. For this purpose, two larger posts lying one behind the other on the longitudinal axis of the detent arm have right-angled undercuts and two smaller posts disposed between the first posts are provided with radial projections. The projections have side walls lying in planes extending parallel to the longitudinal axis of the setting mechanism. The setting mechanism members are made as complete parts by injection molding of plastic material. | ||||||
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