| 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 | 开关 | CN201510014510.9 | 2015-01-12 | CN104810171A | 2015-07-29 | 山本勇树; 森井真喜人; 月森一如; 高桥学 |
| 本发明的课题在于提供一种能够以低价使耐热性和耐寒性两方面都加以提高的开关。开关具备轴承部件、轴体、操作部件和开关主体。轴体被轴承部件可滑动地支承。操作部件与轴体连结。开关主体对应轴体的位移而切换触点。轴体或者轴承部件包含具有沟槽的滑动面。 | ||||||
| 2 | 限位开关 | CN201280064455.9 | 2012-03-14 | CN104011820A | 2014-08-27 | 月森一如; 高桥学; 森山裕幸; 福井繁信 |
| 本发明提供一种引线的连接作业容易,作业效率良好的限位开关。因此,限位开关将开关主体(20)固定在正面具有开口部(11)的壳体(10)内,并且,在所述壳体(10)的底面具有引入引线(70~73)的连接孔,另一方面,将所述开关主体(20)的正面沿上下分隔成多层,并且,在各层埋设一对的固定触点端子(25、26、27、28),沿轴心方向驱动从所述开关主体(20)的顶面露出的操作轴(30),对触点进行开闭。特别是,在所述开关主体(20)的正面的各层所埋设的固定触点端子(25、26)及固定触点端子(27、28)之间分别突设第一突部(22)及第二突部(23)。 | ||||||
| 3 | 限位开关 | CN201280064455.9 | 2012-03-14 | CN104011820B | 2016-10-12 | 月森一如; 高桥学; 森山裕幸; 福井繁信 |
| 本发明提供一种引线的连接作业容易,作业效率良好的限位开关。因此,限位开关将开关主体(20)固定在正面具有开口部(11)的壳体(10)内,并且,在所述壳体(10)的底面具有引入引线(70~73)的连接孔,另一方面,将所述开关主体(20)的正面沿上下分隔成多层,并且,在各层埋设一对的固定触点端子(25、26、27、28),沿轴心方向驱动从所述开关主体(20)的顶面露出的操作轴(30),对触点进行开闭。特别是,在所述开关主体(20)的正面的各层所埋设的固定触点端子(25、26)及固定触点端子(27、28)之间分别突设第一突部(22)及第二突部(23)。 | ||||||
| 4 | 开关 | CN201410513313.7 | 2014-09-29 | CN104576110A | 2015-04-29 | 月森一如; 高桥学; 山本勇树; 山本英范 |
| 本发明提供一种抑制接点的接触不良,即使是在高温环境下也能长时间维持良好的气密性的开关。所述开关是至少具备开关机构(11);外壳(3);以及促动器(7)的开关(1),在所述开关(1)具备的部件间的连接部中,能够直接与外部气体接触的连接部中的1个以上连接部具备密封部件(21、23、25),所述密封部件(21、23、25)含有的橡胶以氟橡胶为主要成分,且不含有硅橡胶。 | ||||||
| 5 | Pressure-operated layered electrical switch and switch array | US37409173 | 1973-06-27 | USRE28365E | 1975-03-18 | |
| 1. AN ELECTRICAL SWITCH WHICH IS CLOSED BY THE APPLICATION OF PRESSURE AGAINST AN AREA OF THE SWITCH AND IS OPENED WHEN THE PRESSURE IS REMOVED COMPRISING A. AN ELECTRICALLY NONCONDUCTIVE BASE; B. A FIRST ELECTRICALLY CONDUCTIVE LAYER POSITIONED AGAINST SUCH BASE; C. A NONCONDUCTIVE SEPARATOR MEANS PLACED AGAINST THE SIDE OF THE CONDUCTIVE LAYER OPPOSITE THE BASE, SAID SEPARATOR MEANS HAVING AN OPENING THEREIN; D. A SECOND ELECTRICALLY CONDUCTIVE LAYER PLACED AGAINST THE SIDE OF THE SEPARATOR MEANS OPPOSITE THE FIRST CONDUCTIVE LAYER; E. A LAYER OF NONCONDUCTIVE NONCOMPRESSIBLE MATERIAL PLACED AGAINST THE SIDE OF THE SECOND ELECTRICALLY CONDUCTIVE LAYER OPPOSITE THE NONCONDUCTIVE LAYER MEANS,
SAID NONCOMPRESSIBLE LAYER HAVING AN ELONGATED OPENING POSITIONED ADJACENT THE OPENING IN THE SEPARATOR MEANS; AND F. A PRESSURE-RESPONSIVE DEFLECTABLE PORTION OF THE NONCOMPRESSIBLE LAYER POSITIONED ADJACENT THE OPENING CAPABLE OF BEING DEFLECTED DOWN INTO SAID OPENING WHEREBY THE APPLICATION OF PRESSURE TRANSMITTED TO AND AGAINST THE PRESSURE-RESPONSIVE DEFLECTABLE PORTION CAUSES SAID PORTION TO MOVE A PORTION OF THE SECOND CONDUCTIVE LAYER AGAINST THE FIRST CONDUCTIVE LAYER TO CLOSE THE SWITCH. |
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| 6 | Pressure-operated layered electrical switch and switch array | US3617666D | 1970-04-30 | US3617666A | 1971-11-02 | BRAUE CHARLES E |
| A pressure-operated electrical switch unit having a layered construction including a substantially planar surface to which pressure is applied to close the switch. The removal of the pressure opens the switch. The switch includes a layer having at least one elongated opening in it which permits portions of the layer to be deflected into an opening in an adjacent layer to move one electrically conductive layer to complete the electrical circuit. An array of the switches may be used for supplying signals created by the pressure of a writing instrument.
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| 7 | Limit switch | US14368814 | 2012-03-14 | US09490081B2 | 2016-11-08 | Kazuyuki Tsukimori; Manabu Takahashi; Hiroyuki Moriyama; Shigenobu Fukui |
| A limit switch has a housing having an opening in a front surface of the housing, and a connection hole in which a lead wire is drawn made in a bottom surface of the housing, a switch main body fixed in the housing, a front surface of which is vertically partitioned into a plurality of stages, a pair of fixed contact terminals embedded at each of the stages, an operation shaft exposed from a ceiling surface of the switch main body, a contact that is opened and closed by driving the operation shaft in a shaft center direction, and a projection provided between the fixed contact terminals embedded at the stages of the front surface of the switch main body. | ||||||
| 8 | Material level sensor | US14451797 | 2014-08-05 | US09383243B1 | 2016-07-05 | Steven J. Schaefer; J. Klint Bremer |
| A flowable material level sensor for use in a material containment structure which closes or activates a switch when the flowable material in the containment structure reaches a predetermined level. The sensor includes an elongated rod or wand which extends downwardly from a sensor housing positioned in the containment structure. The sensor includes an actuator assembly which converts angular or lateral movement of the rod into upward longitudinal movement of an actuator element therein which closes the switch when the level of material in the containment structure has reached the predetermined level. The closure of the switch is communicated to a monitoring station remote from the containment structure. | ||||||
| 9 | Limit switch and linear actuator having the same | US13971488 | 2013-08-20 | US09299506B2 | 2016-03-29 | Kuan-Shu Tseng |
| In a linear actuator, a limit switch includes an insulation housing formed with an opening and plural slots; a press block disposed on the insulation housing and exposed outside the opening; a pair of connection pins disposed in the insulation housing and spaced with an interval, and respectively protruded from the slots; an elastic connection guiding set including an elastic unit pressed by the press block and a connection guiding sheet connected to the elastic unit, wherein the connection guiding sheet are connected to the pair of connection pins; and a diode disposed in the insulation housing and including two guide pins, wherein the two guide pins are respectively and correspondingly connected to the pair of connection pins in the insulation housing. Accordingly, the electrical connection for the limit switch is simplified thereby facilitating automatic production. | ||||||
| 10 | Motion detector and associated system | US834891 | 1992-02-11 | US5324898A | 1994-06-28 | Brian C. McCormack; James R. Cox; Richard H. Wallace; Kevin S. Hodge |
| A detector assembly (20) detects motion by utilizing a plurality of motion detectors (22-28), each detector having a first finger (40) and a second finger (42 ). First finger (40 ) has a signal line (36) on the inner surface (32) and second finger (42) has a ground line (38) disposed on another portion of inner surface (32). Spacer (46) keeps fingers (40) and (42) out of physical contact in the normal position so that there is an open circuit between signal line (36) and ground line (38). When a moving object (50) strikes first finger (40), first finger (40) is deflected downward so that first finger (40) and second finger (42) make physical contact at contact point (48), thereby establishing a closed circuit between signal line (36) and ground line (38). In this fashion a detection pulse is generated. The substrate (30) of detector assembly (20 ) is made of a resilient, flexible material such as a synthetic resin, for enhanced sensitivity. Due to the enhanced sensitivity of detector assembly (20), the motion of objects (50) can be detected even though such motion is random, i.e. the motion of objects does not have to be precisely controlled in the vicinity of detector assembly (20). | ||||||
| 11 | Connector for a thin electronic appliance | US319295 | 1989-03-06 | US4891013A | 1990-01-02 | Shigeki Komaki |
| A connector for a thin electronic appliance, for example, an IC card reader for electrically connecting the thin electronic appliance with its receiving member, for example, an IC card reader/writer, which comprises a detector switch key body of insulation rubber having a connector base rigidly secured to the receiving member, a plurality of contact electrodes of electrically conductive rubber securely held by the connector base, and a push button portion having a plurality of openings through which the contact electrodes extend. The key body is further provided with a plurality of resilient leg portions extending from the connector base and a key top portion carrying the push button portion and supported by the leg portions. The connector is combined with a detector switch having a plurality of stationary contacts rigidly secured to the receiving member and a movable contact rigidly secured to the lower surface of the key top portion. When the thin electronic appliance is properly set in the receiving member, its connection terminals are electrically connected to the contact electrodes upon depression of the key top portion of the key body and upon deformation of the leg portions. In this event, the detector switch detects that the thin electronic appliance has been properly set in its receiving member. When the thin electronic appliance is not in use, the contact electrodes are hidden inside the openings of the push button portion by virtue of the resiliency of the leg portions. | ||||||
| 12 | Keyboard, digital coding, switch for digital logic, and low power detector switches | US3699294D | 1971-05-18 | US3699294A | 1972-10-17 | SUDDUTH WILLIAM B |
| Electric switches are described in which a resilient, electrically conductive, elastomeric member is spaced adjacent but apart from contact means; among features are the elastomeric connector: of sheet form; on metal contacts as a movable contact bridge; defining a simple and durable multiple switch array including a keyboard, a digital coding assembly and a detector; and as the means, especially with proper selection of distributed conductive particles in the elastomer for limited conductivity, of eliminating the electrical effects of bounce in solid state electronic logic circuitry and the like. Fabrication of the switch as a simple, thin compact laminate using printed circuit boards is shown using the preferred silicone elastomer and carbon filler. In preferred embodiments pressure against conductive elastomer sheet means will cause it to connect to a contact element conductively and release of pressure will cause the sheet means to disconnect. The sheet means can be used as a floating connection for one or more circuit elements, and in this form has particular application in a keyboard assembly, particularly in connection with replaceable printed circuit boards and in digital coding techniques with a single printed circuit board. Preferably, the sheet means resiliently, reversibly deforms from first to second conditions, typically engaging the contacts in the deformed or bulged condition. Preferably in one condition the sheet means takes a planar form, positioned by a spacer layer from the contacts. And preferably the contacts are elements of a printed circuit.
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| 13 | SWITCH | US14592918 | 2015-01-09 | US20150213977A1 | 2015-07-30 | Yuki YAMAMOTO; Makito MORII; Kazuyuki TSUKIMORI; Manabu TAKAHASHI |
| It is an object of the present invention to provide a switch with which heat resistance and cold resistance can both be increased inexpensively. This switch comprises a bearing member, a shaft, a manipulation member, and a switch main body. The shaft is slidably supported by the bearing member. The manipulation member is linked to the shaft. The switch main body switches a contact according to displacement of the shaft. The shaft or the bearing member includes a sliding face having a groove. | ||||||
| 14 | SWITCH | US14500182 | 2014-09-29 | US20150114806A1 | 2015-04-30 | Kazuyuki Tsukimori; Manabu Takahashi; Yuki Yamamoto; Hidenori Yamamoto |
| A switch has a switching mechanism, a housing in which the switching mechanism is disposed, and a slidable actuator that causes the switching mechanism to operate. At least one connection which can be in direct contact with outside air, out of connections between members of the switch, is provided with a sealing member. Rubber contained in the sealing member includes fluorocarbon rubber and does not include silicone rubber. | ||||||
| 15 | LIMIT SWITCH AND LINEAR ACTUATOR HAVING THE SAME | US13971488 | 2013-08-20 | US20150008102A1 | 2015-01-08 | Kuan-Shu TSENG |
| In a linear actuator, a limit switch includes an insulation housing formed with an opening and plural slots; a press block disposed on the insulation housing and exposed outside the opening; a pair of connection pins disposed in the insulation housing and spaced with an interval, and respectively protruded from the slots; an elastic connection guiding set including an elastic unit pressed by the press block and a connection guiding sheet connected to the elastic unit, wherein the connection guiding sheet are connected to the pair of connection pins; and a diode disposed in the insulation housing and including two guide pins, wherein the two guide pins are respectively and correspondingly connected to the pair of connection pins in the insulation housing. Accordingly, the electrical connection for the limit switch is simplified thereby facilitating automatic production. | ||||||
| 16 | LIMIT SWITCH | US14368814 | 2012-03-14 | US20140326586A1 | 2014-11-06 | Kazuyuki Tsukimori; Manabu Takahashi; Hiroyuki Moriyama; Shigenobu Fukui |
| A limit switch has a housing having an opening in a front surface of the housing, and a connection hole in which a lead wire is drawn made in a bottom surface of the housing, a switch main body fixed in the housing, a front surface of which is vertically partitioned into a plurality of stages, a pair of fixed contact terminals embedded at each of the stages, an operation shaft exposed from a ceiling surface of the switch main body, a contact that is opened and closed by driving the operation shaft in a shaft center direction, and a projection provided between the fixed contact terminals embedded at the stages of the front surface of the switch main body. | ||||||
| 17 | Membrane switch for hopper | US582952 | 1984-02-23 | US4504709A | 1985-03-12 | Dale E. Gandrud |
| An improved membrane switch (12) of greater sensitivity and simplified, lightweight construction which is particularly adapted for sensing material levels in hoppers, comprises a first non-conductive sheet (18) with conductive open contacts (22), leads (24), and contactor (28) provided on one side thereof. The first sheet (18) is folded back on itself and secured to a spacer or second sheet (20) such that the contacts (22) and contactor (28) are in aligned, normally spaced apart relationship. A second embodiment of the membrane switch (50) comprises four non-conductive sheets (52, 54, 70 and 74) stacked, instead of folded, and interconnected to form a thin yieldable envelope for the normally open contact (62) and contactor (76). In the second embodiment, the third sheet (70) acts as the spacer. In both embodiments, the spacer sheet extends along only one side of the contact and contactor, which are normally urged apart by the resiliency of the non-conductive material provided by the particular construction, but which yield to a closed position under relatively low, generalized pressure. | ||||||
| 18 | Rheostats | US3764953D | 1972-09-18 | US3764953A | 1973-10-09 | LEHNERT G |
| An encapsulated rheostat, particularly for data transmitters of filling level indicators in motor vehicle fuel tanks, has its resistive element enveloped in a resilient sheet of plastics material. A conductive inner layer is carried by the plastics sheet, and an adjustable contact pin presses against the sheet to establish localised contact between the conductive inner layer and the resistive element. The value of the electrical resistance of the rheostat is thereby variable by adjustment of the position of the contact pin. Air or other gas, or a liquid, confined within the encapsulating resilient plastics sheet tends to separate the resistive element and the conductive inner layer except at the region of localised contact provided by the adjustable contact pin. The resistive element may be of wire-wound construction, or may be resistive inner layer, possibly of strip form, carried by the plastics sheet.
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| 19 | Switch | EP15150346.3 | 2015-01-07 | EP2899733A1 | 2015-07-29 | Yamamoto, Yuki; Morii, Makito; Tsukimori, Kazuyuki; Takahashi, Manabu |
It is an object of the present invention to provide a switch with which heat resistance and cold resistance can both be increased inexpensively. This switch comprises a bearing member, a shaft, a manipulation member, and a switch main body. The shaft is slidably supported by the bearing member. The manipulation member is linked to the shaft. The switch main body switches a contact according to displacement of the shaft. The shaft or the bearing member includes a sliding face having a groove.
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| 20 | LIMIT SWITCH | EP12864762.5 | 2012-03-14 | EP2804192A1 | 2014-11-19 | TSUKIMORI, Kazuyuki; TAKAHASHI, Manabu; MORIYAMA, Hiroyuki; FUKUI, Shigenobu |
The purpose of the invention is to provide a limit switch that facilitates lead wire connection work and has good work efficiency. To achieve said purpose, the invention is the limit switch, which: affixes a switch body (20) within a housing (10) having an opening (11) on the front surface thereof; on the bottom surface of the housing (10), has connection holes admitting lead wires (70-73); partitions the front surface of the switch body (20) into multiple upper/lower sections; embeds a pair of fixed contact terminals (25, 26, 27, 28) in each section; and opens/closes a contact by driving an operation shaft (30) exposed from the top surface of the switch body (20), said operation shaft (30) being driven in an axial direction. A first projection (22) is extendingly provided between fixed contact terminals (25, 26), and a second projection (23) is extendingly provided between fixed contact terminals (27, 28), said fixed contact terminals (25, 26, 27, 28) being embedded in the sections of the front surface of the switch body (20). |
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