| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | A BEVERAGE PREPARATION MACHINE | EP15813422.1 | 2015-12-17 | EP3236816A1 | 2017-11-01 | PUGLIESE, Alexandre |
| A food or beverage preparation machine, comprising a control panel (5), the control panel (5) comprising an actuator (5x) for setting at least one food or beverage preparation parameter of the food or beverage preparation machine (1) to a predetermined value and a controlling unit, comprises a pressure sensor (6x) electronically connected to said controlling unit for controlling the functioning of the food or beverage preparation machine, and associated with said actuator, said actuator (5x) being pressure-sensitive and comprising a first end (50) with a first deformable surface (51) which is configured to receive a press action (F) from a user, a second end (52) with a second deformable surface (53) which is in physical contact with said pressure sensor (6x), and an elongate portion (54) connecting said first end (50) and said second end (52), said elongate portion (54) being configured to transfer to said second end (52) a pressure that has been generated at said first end (50), such that when a press action (F) is applied to said first deformable surface (51), said pressure is transferred to said second deformable surface (53) by said elongate portion and is applied to said pressure sensor (6x) so as to set said at least one food or beverage preparation parameter. | ||||||
| 22 | Pneumatic MEMS switch and method of fabricating the same | EP06121124.9 | 2006-09-22 | EP1798745A3 | 2009-01-28 | Kim, Che-heung; Choi, Hyung; Song, In-sang; Lee, Sang-hun; Kwon, Sang-wook; Kim, Dong-kyun; Hong, Young-tack; Kim, Jong-seok; Lee, Chang-seung |
A pneumatic micro electro mechanical system switch includes a substrate, a pneumatic actuating unit disposed on the substrate; the pneumatic actuating unit having a plurality of variable air cavities communicating such that when one of the plurality of variable air cavities is compressed, the rest are expanded; a signal line having a plurality of switching lines, each of which passes through a corresponding one of the plurality of variable air cavities and has switching ends disposed in a spaced-apart relation with each other in the corresponding one of the plurality of variable air cavities; a movable switching unit to connect the first and the second switching ends of each of the plurality of switching lines if one of the plurality of variable air cavities is compressed; and a driving unit to drive the pneumatic actuating unit so as to selectively compress the plurality of variable air cavities.
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| 23 | Push switch with improved actuator assembly | EP91109137.9 | 1991-06-04 | EP0461529A3 | 1992-08-05 | Iwasa, Seiichi, c/o Fujitsu Limited |
A push switch of the invention comprises a switching-element assembly (100) and an actuator assembly (1a) arranged on the switching-element assembly, wherein the switching-element assembly comprises first and second contacts(110a, 110b), the second contact being arranged over and elastically movable towards the first contact and making contact with the first contact when depressed by the actuator assembly. The basic type of actuator assembly includes an airtight enclosure formed by a domed-shaped elastic film and containing a gas, whereby a bottom surface (12) of the airtight enclosure depresses said second contact when the top surface (11) is pressed down. Several modified types of actuator assembly are also disclosed. |
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| 24 | 개선된작동자어셈블리를가진푸쉬스위치 | KR1019910009452 | 1991-06-08 | KR1019950009024B1 | 1995-08-10 | 이와사세이치 |
| 내용 없음. | ||||||
| 25 | INTERFACE SYSTEM FOR A BEVERAGE PREPARATION MACHINE | US15538701 | 2015-12-17 | US20170360244A1 | 2017-12-21 | Alexandre Pugliese |
| An interface system for a food or beverage preparation machine, comprising a control panel (5), the control panel (5) comprising an actuator (5x) for setting at least one food or beverage preparation parameter of the food or beverage preparation machine (1) to a predetermined value and a controlling unit, comprises a pressure sensor (6x) electronically connected to said controlling unit for controlling the functioning of the food or beverage preparation machine, and associated with said actuator, said actuator (5x) being pressure-sensitive and comprising a first end (50) with a first deformable surface (51) which is configured to receive a press action (F) from a user, a second end (52) with a second deformable surface (53) which is in physical contact with said pressure sensor (6x), and an elongate portion (54) connecting said first end (50) and said second end (52), said elongate portion (54) being configured to transfer to said second end (52) a pressure that has been generated at said first end (50), such that when a press action (F) is applied to said first deformable surface (51), said pressure is transferred to said second deformable surface (53) by said elongate portion and is applied to said pressure sensor (6x) so as to set said at least one food or beverage preparation parameter. | ||||||
| 26 | Key assembly | US14931816 | 2015-11-03 | US09799464B2 | 2017-10-24 | Chih-Kai Wang; Wen-Shu Lee |
| A key assembly configured to an electronic device is provided. The key assembly includes a switch component and a flexible button. The switch component is disposed in a case of the electronic device. The flexible button has a pressing portion, a shaft portion, at least one water-resistant portion and an actuating portion. The pressing portion is exposed from the case. The shaft portion connects the pressing portion and the actuating portion, and passes through a through hole of the case. The water-resistant portion is connected to the shaft portion and covers the through hole. The actuating portion is located in the case and aligned to the switch component. When a force is applied to the pressing portion, the pressing portion produces compressive deformation and makes the actuating portion produce expensive deformation to actuate the switch component. | ||||||
| 27 | KEY ASSEMBLY | US14931816 | 2015-11-03 | US20170076878A1 | 2017-03-16 | Chih-Kai Wang; Wen-Shu Lee |
| A key assembly configured to an electronic device is provided. The key assembly includes a switch component and a flexible button. The switch component is disposed in a case of the electronic device. The flexible button has a pressing portion, a shaft portion, at least one water-resistant portion and an actuating portion. The pressing portion is exposed from the case. The shaft portion connects the pressing portion and the actuating portion, and passes through a through hole of the case. The water-resistant portion is connected to the shaft portion and covers the through hole. The actuating portion is located in the case and aligned to the switch component. When a force is applied to the pressing portion, the pressing portion produces compressive deformation and makes the actuating portion produce expensive deformation to actuate the switch component. | ||||||
| 28 | Pneumatic MEMS switch and method of fabricating the same | US11513036 | 2006-08-31 | US07759591B2 | 2010-07-20 | Che-heung Kim; Hyung Choi; In-sang Song; Sang-hun Lee; Sang-wook Kwon; Dong-kyun Kim; Young-tack Hong; Jong-seok Kim; Chang-seung Lee |
| A pneumatic micro electro mechanical system switch includes a substrate, a pneumatic actuating unit disposed on the substrate; the pneumatic actuating unit having a plurality of variable air cavities communicating such that when one of the plurality of variable air cavities is compressed, the rest are expanded; a signal line having a plurality of switching lines, each of which passes through a corresponding one of the plurality of variable air cavities and has switching ends disposed in a spaced-apart relation with each other in the corresponding one of the plurality of variable air cavities; a movable switching unit to connect the first and the second switching ends of each of the plurality of switching lines if one of the plurality of variable air cavities is compressed; and a driving unit to drive the pneumatic actuating unit so as to selectively compress the plurality of variable air cavities. | ||||||
| 29 | Airbag-form key | US11321951 | 2005-12-30 | US20070152960A1 | 2007-07-05 | Hsien Huang |
| An airbag-form key comprises a pressable unit; a top of the pressable unit being the soft rubber body; an internal of the pressable unit having the hollow airbag; a wall of the hollow airbag having a recess; a cross section of the recess having a T shape; a bottom of the recess being formed with a buckling ring which has an approximate J shape cross section; an axial touch unit assembled to a bottom of the pressable unit; a top of the axial touch unit being formed as a buckling ring; a cylindrical wall being extended downwards from the buckling ring; a notch being formed at a lower side of the cylindrical wall; a seat assembled at a lower periphery of the axial touch unit; a top of the seat having a stop ring; and a top inner side of the seat being formed as a tightening surface. | ||||||
| 30 | Pneumatic MEMS switch and method of fabricating the same | US11513036 | 2006-08-31 | US20070140614A1 | 2007-06-21 | Che-heung Kim; Hyung Choi; In-sang Song; Sang-hun Lee; Sang-wook Kwon; Dong-Kyun Kim; Young-tack Hong; Jong-seok Kim |
| A pneumatic micro electro mechanical system switch includes a substrate, a pneumatic actuating unit disposed on the substrate; the pneumatic actuating unit having a plurality of variable air cavities communicating such that when one of the plurality of variable air cavities is compressed, the rest are expanded; a signal line having a plurality of switching lines, each of which passes through a corresponding one of the plurality of variable air cavities and has switching ends disposed in a spaced-apart relation with each other in the corresponding one of the plurality of variable air cavities; a movable switching unit to connect the first and the second switching ends of each of the plurality of switching lines if one of the plurality of variable air cavities is compressed; and a driving unit to drive the pneumatic actuating unit so as to selectively compress the plurality of variable air cavities. | ||||||
| 31 | Fluid pressure switch having venting means for dispersing back pressure | US176538 | 1988-04-01 | US4922067A | 1990-05-01 | Henry L. West |
| The invention is a fluid pressure switch which is particularly adapted for use on a water purifying system of the type wherein incoming water pressure and water pressure in a reservoir are used to activate conditioning electronics. In the preferred switch embodiment, a first flexible nonconducting layer of material is positioned over an orifice connected to a source of incoming water and over an orifice connected to a source of reservoir water. A flexible conducting material is positioned abutting the nonconducting layer over each of the orifices. A second layer of nonconductive material having conductive lines affixed thereto is laminated to the first nonconducting layer, such that fluid pressure deforms the conductive layer into electrical contact with the conductive lines. A semi-rigid backing plate, having air chambers formed therein at the location of each orifice, sealably clamps all of the layers to the body of the water purifier and is connected to the area surrounding the flexible conducting material to minimize the back pressure buildup when the flexible conductive material is deformed by water pressure. | ||||||
| 32 | Bounceless switch apparatus | US140921 | 1980-04-16 | US4315238A | 1982-02-09 | Franklin N. Eventoff |
| A pressure responsive, variable resistance, analog switch has first and second conductors interleaved in spaced-apart relationship and disposed on a base member. An insulative spacer ring is positioned around and rises above the first and second conductors. A resilient cover sheet is attached to the top of the insulative spacer ring in spaced relationship over the conductors to define an enclosure between the resilient cover sheet and the base member. A pressure sensitive resistive conductor composition is disposed on the resilient cover sheet or on the conductors in the enclosure to interconnect a resistance between the first and second conductors when the resilient cover sheet is depressed against the conductors. The amount of resistance so interconnected varies inversely to the amount of pressure exerted. | ||||||
| 33 | Pressure transducer | US140937 | 1980-04-16 | US4314228A | 1982-02-02 | Franklin N. Eventoff |
| A pressure transducer device particularly useful in an electronic musical instrument includes a flexible base folded to define upper and lower flexible base portions, a donut-shaped first spacer between the upper and lower base portions and a resiliently deformable diaphragm attached about its periphery to the upper flexible base portion with a second donut-shaped spacer therebetween. A center region of the diaphragm laterally spaced from the second spacer is adhesively attached to a central region of the upper flexible base portion so that the upper flexible base portion moves inwardly and outwardly in response to the movement of the diaphragm. A pair of conductors are disposed on the folded flexible base member to face one another. A pressure responsive composition disposed over the conductors provides a contact resistance across the pair of conductors which varies inversely with the amount of pressure force exerted against the diaphragm. The upper flexible base portion may be attached between the first and second spacers about its entire periphery or at a small hinge region with the upper base portion being a flap movable about the hinge region in the region surrounded by the first spacer. | ||||||
| 34 | Remote membrane switch | US110645 | 1980-01-09 | US4300029A | 1981-11-10 | Thomas L. Maser |
| A multi-layered flexible switch wherein the electrical contacts are transversely remote from the area of the switch to be depressed. | ||||||
| 35 | Multi-function touch switch apparatus | US97610 | 1979-11-26 | US4268815A | 1981-05-19 | Franklin N. Eventoff; M. Tyrone Christiansen |
| A multi-function touch switch apparatus has a first semiconductor composition layer disposed on top of a first conductor layer which is affixed to a first base member. A second semiconductor composition layer opposing the first semiconductor in spaced relationship thereto is disposed on a second conductor layer which is itself disposed on the bottom surface of a second support member. A third conductor layer is also disposed on the top surface of the second support member in opposing spaced-apart relationship to a fourth conductor layer disposed on the bottom surface of a third support member. The second and third support members and the affixed conductor layers and semiconductor layers are resiliently deformable in a transverse axis in response to a transverse touch force to thereby cause electrical contact between the second and third conductor layers to provide a closed switch and the first and second semiconductor layers to provide a closed switch in series with a pressure sensitive resistance. | ||||||
| 36 | Keyboard actuator | US20404271 | 1971-12-02 | US3805939A | 1974-04-23 | ROSS L |
| A keyboard actuator in which the keys on a keyboard are operable in response to manual depression of fluid operating devices. The fluid operating devices are arranged in any suitable preselected pattern independent of the keyboard layout effecting any desired rearrangement of the keyboard layout. In one embodiment, the fluid actuating elements are located in one or more arcuate planes for improved accessibility of the fingers of the operator. In another embodiment the angle of the keyboard actuator is modified to comply with the anatomical structure of the human hand. Means may also be provided for positively positioning the hand of the operator to minimize fatigue and mistakes. Feeler means may also be included so that the operator may sense, by touch, the location of his fingers with respect to the fluid operating means of the keyboard adapter.
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| 37 | Elastic diaphragm switch | US3594522D | 1969-07-24 | US3594522A | 1971-07-20 | COLGLAZIER DONALD F; SNESRUD MYRON E |
| An elastic diaphragm switch has a diaphragm assembly formed as an airtight interface between a substantially rigid substrate material and a diaphragm of highly flexible film to which is adhered a copper conductive pattern designed to withstand large deflections without fatigue. This is accomplished by an extended length conductor such as a spiral conductor path extending from the diaphragm supported contact to a stationary conductor. Thus the diaphragm switch may be formed of a single thin film and activated by very low-pressure levels.
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