专利检索_.刻度尺分度盘专利检索_.刻度尺分度盘专利检索查询

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	具有倾斜显示器的过程变送器	CN03820173.9	2003-08-28	CN1678887A	2005-10-05	斯科特·D·尼尔森; 约翰·布鲁尔
一种用于监测工业过程的过程控制系统中使用的变送器(40)，包括：壳体(42)，所述壳体(42)具有顶部和底部，以及在其间延伸的高度(H)。平行四边形显示器(50)被安装到壳体(42)上。平行四边形显示器(50)的侧面(52)相对壳体(42)的高度以角度安置。
22	刻度盘显示式测量器及转动不足一周的刻度盘量具	CN200410034362.9	2004-04-12	CN1536586A	2004-10-13	石井宗德; 篠原利行
一种刻度盘显示式测量器。由于刻度板(3)和区域指示部(4)分别独立地以不同的部件构成且相互转动自如，所以即使将刻度板(3)转动，区域指示部(4)也不转动，因此区域指示部(4)能够与刻度板(3)的转动位置无关显示正确的范围，能够防止测量误差的发生。另外，由于区域指示部(4)不在刻度板(3)上，所以能够把刻度板(3)作为标准的刻度板，实现刻度板的通用化。
23	一种分区防护的工业自动化仪表盘	CN202210735108.X	2022-06-27	CN115064204B	2023-04-07	张键; 薄丽玲; 李宏然; 张恒; 仲兆满; 袁冬青
本发明公开了一种分区防护的工业自动化仪表盘，包括壳体，所述壳体的前侧设有多个放置槽，每个所述放置槽内均安装有多个仪表盘本体，每个所述放置槽的左右两侧内壁转动连接有转动杆，每个所述转动杆上均固定连接有多个固定块，每个所述固定块的前侧均安装有挡板，所述壳体的右侧安装有多个驱动电机，每个所述驱动电机的输出轴末端均延伸至对应的放置槽并与对应的转动杆的右端固定连接。该装置的挡板是转动打开的，打开之后，所占空间较小，同时工作人员完成操作之后，关闭挡板之后，喷头会自动喷出一定量的消毒液，对放置槽内进行消毒，配合抖动机构，提高了消毒面积，无需后期人工进行消毒操作，提高了装置使用的安全性。
24	一种工业自动化仪表盘防护装置	CN201911238920.6	2019-12-06	CN110993018A	2020-04-10	周重宇
本发明公开了一种工业自动化仪表盘防护装置，包括仪表盘主体，所述仪表盘主体的外部设置有橡胶垫，且橡胶垫的内部设置有空腔，所述空腔远离仪表盘主体的四个拐角处皆胶粘有橡胶球，所述空腔靠近仪表盘主体的四个拐角处皆设置有与橡胶球相互配合的橡胶块，所述空腔远离仪表盘主体一侧的内壁胶粘有第一转动杆，所述第一转动杆通过第一弹簧与第二转动杆连接，所述第二转动杆远离仪表盘主体的一端皆胶粘在空腔的内壁上，所述第一转动杆以及第二转动杆靠近仪表盘主体的一端皆通过转轴与移动杆活动连接。本发明对仪表盘进行减震防护操作，提高了装置的防护性，且防护装置可拆卸叠加收纳，提高了装置的收纳性和实用性。
25	用于显示车辆的测量参数的至少一个测量值的方法	CN201280064179.6	2012-12-17	CN103998278B	2017-05-17	S.施图尔马特
本发明涉及一种用于尤其在车辆的组合仪表中借助于读数标记(3)、尤其指针在带有刻度数字(2)的可照亮的刻度盘(1)上显示车辆的测量参数的至少一个测量值的方法，在其中接收起动信号(4a)并且接着以可视觉感知的特性改变刻度盘(1)且以可视觉感知的特性改变读数标记(3)。其特征在于，在接收起动信号(4a)之后使读数标记(3)沿着刻度盘(1)从初始位置(A)运动至限定的偏转位置(B)、优选地终端位置并且在到达各个刻度数字(2)时所到达的刻度区域和/或相应的刻度数字(2)在其可视觉感知的特性上被改变。本发明此外涉及一种用于执行该方法的显示装置(6)。
26	用于车辆的仪表	CN201210234691.2	2012-04-09	CN102745085B	2017-05-03	P·布兰特; H·查理; D·戴玛
本发明涉及一种用于车辆(4)的仪表。该仪表(1至3)具有显示区域(5)和包围该显示区域(5)的壳体(6)。透明的仪表盖板(7)由壳体(6)保持与显示区域(5)隔开。仪表盖板(7)是透明的光导板(8)，符号显示区域(9)设置在该光导板内。光导板(8)在其体积(10)内具有在符号显示区域(9)内进行光散射的纳米颗粒(11)。
27	一个LED照明的仪表组	CN200980132790.6	2009-06-23	CN102132134B	2013-01-02	V·B·伯曼; C·坦古伊
带照明的仪表组采用单个发光二极管来从后面照亮整个刻度盘表面。LED与导光设备对齐，所述导光设备然后将光引导到光壳体的腔中。所述腔包括将光向上反射到刻度盘面的后表面上以提供期望照明的表面。
28	具有转动操作部件的电子设备及转动操作部件	CN200510103144.0	2005-09-16	CN100510940C	2009-07-08	土田直弘
在具有多个转动操作部件的电子设备中，通过将各转动操作部件的圆盘部配置成至少一部分重叠，来实现节约空间。作为电子设备，例如可以使用作为摄像装置的胶片照相机、数字照相机、摄像机。从各圆盘部伸出的转动轴之间可以是：平行并同轴、平行但不同轴、相对倾斜。另外，为了防止圆盘部之间接触划伤，可以设置凸部。
29	具有倾斜显示器的过程变送器	CN03820173.9	2003-08-28	CN100373135C	2008-03-05	斯科特·D·尼尔森; 约翰·布鲁尔
一种用于监测工业过程的过程控制系统中使用的变送器(40)，包括：壳体(42)，所述壳体(42)具有顶部和底部，以及在其间延伸的高度(H)。平行四边形显示器(50)被安装到壳体(42)上。平行四边形显示器(50)的侧面(52)相对壳体(42)的高度以角度安置。
30	仪表板	CN98802476.4	1998-01-17	CN1125468C	2003-10-22	H·K·韦德尔; F·-J·卡波斯; K·巴赫; A·哈贝内; M·赫尔佐格; K·里茨勒; D·布罗斯卡
本发明涉及一种仪表板，特别是一种机动车中的显示器，其具有一层状载体(7)，其上涂有色彩，用于表示刻度和/或特性和/或符号以及覆盖刻度、特性或符号轮廓之外的区域。所述刻度、特性或符号的色彩包括一由多层全部或部分彼此覆盖的有不同色彩分配的透明色彩层形成的多层系统(13)。
31	仪表板	CN98802476.4	1998-01-17	CN1247626A	2000-03-15	H·K·韦德尔; F·-J·卡波斯; K·巴赫; A·哈贝内; M·赫尔佐格; K·里茨勒; D·布罗斯卡
本发明涉及一种仪表板,特别是一种机动车中的显示器,其具有一层状载体(7),其上涂有色彩,用于表示刻度和/或特性和/或符号以及覆盖刻度、特性或符号轮廓之外的区域。所述刻度、特性或符号的色彩包括一由多层全部或部分彼此覆盖的有不同色彩分配的透明色彩层形成的多层系统(13)。
32	METHOD FOR DISPLAYING AT LEAST ONE MEASURED VALUE OF A MEASURED VARIABLE OF A VEHICLE	PCT/EP2012005202	2012-12-17	WO2013091816A3	2013-10-03	STURMAT SANDRA
The invention relates to a method for displaying at least one measured value of a measured variable of a vehicle, in particular in a combined instrument of a vehicle, by means of an index mark (3), in particular a pointer, on an illuminable dial (1) having dial figures (2), wherein a start signal (4a) is received and then the dial (1) is changed in a visually perceptible manner and the index mark (3) is changed in a visually perceptible manner. The invention is characterised in that after the reception of the start signal, (4a) the index mark (3) is moved along the dial (1) from a starting position (A) to a defined deflected position (B), preferably the end position, and when the individual dial figures (2) are reached, the scale zone and/or the respective dial figures (2) are changed in a visually perceptible manner. The invention further relates to a display device (6) for carrying out said method.
33	KOMBINATIONSANZEIGEINSTRUMENT FÜR EIN KRAFTFAHRZEUG	PCT/EP2008/000379	2008-01-18	WO2008092579A3	2008-08-07	DEUBZER, Andreas
Es wird ein Kombinationsanzeigeinstrument mit einem Lichtleiter und mit einer Lichtquelle vorgeschlagen, wobei der Lichtleiter im wesentlichen flächig entlang einer Haupterstreckungsebene ausgebildet ist und wobei der Lichtleiter um eine Drehachse drehbar vorgesehen ist, wobei ferner der Lichtleiter einen Lichtaustrittsbereich als Teil einer Lichtaustrittsfläche aufweist, die zumindest teilweise einer im wesentlichen parallel zur Haupterstreckungsebene ausgebildeten Vorderseite des Lichtleiters entspricht.
34	Display element, display instrument, display method, use of an optical waveguide and vehicle	US14413764	2013-07-09	US09333910B2	2016-05-10	Stephan Schwantner
A display element can be used to represent bars of variable length. The display instrument may have a plurality of light chambers which are disposed adjacent to one another and in each case have a light barrier to the respective adjacent light chamber. The light chambers each have an optical waveguide. The light barrier is formed from one side of the optical waveguide which is impermeable to light or only partially light-permeable. Moreover, a corresponding display instrument, vehicle and display method may use the optical waveguide and the display element.
35	ULTRAVIOLET RISK INDICATOR	US12763054	2010-04-19	US20110100288A1	2011-05-05	Alberto Luis PASCUCCI
An ultraviolet risk indicator instrument comprising a dial and a shadow projection device on it, the dial having colored areas that indicate different UV risks, defined by lines of declination (solstices and equinoxes) and solar hour lines calculated based on the transformation of the Hour Coordinates of the Sun (Hour Angle and Declination) in a 3D Cartesian Coordinate System, whose origin is the tip of the shadow projection device (being a polar style parallel to the rotation axis of the Earth, or a straight style perpendicular to the dial plane) using matrix calculations to produce the necessary rotations of the system, taking into account the latitude of the place, the declination and inclination of the dial. The style may be a rod or a triangular shape. The tip of the style is the focus or point of view of a gnomonic projection, where the Sun is the “point” of space to be projected, the dial is the projection plane and the projected point is the shadow point, whose coordinates (x,y) in the dial plane are calculated. Hour lines for local solar time in the dial are calculated, converging to the intersection of a polar style with the dial, the lines of declination of solstices and equinoxes and the position on the dial plane of the shadow cast by the tip of the style. The shadow point moves according to the annual and diurnal variation of the altitude of the Sun crossing different sectors of the dial.
36	Indicator	US304836	1989-02-01	US4991537A	1991-02-12	Masahiro Muramatsu
Disclosed herein is an improvement of an indicator such as a speed meter, a tachometer, or the like for use in a motor vehicle. The indicator comprises a scale plate having a pointer rotatably mounted thereon, indicia provided on the scale plate and containing fluroescent brigthener, the indicia indicating a specific value in cooperation with the pointer, a single ultraviolet light source for illuminating the indicia, and technique for equalizing the brightness of the indicia.The equalizing technique can comprises varying the quantity of fluorescent brigtener contained in the indicia according to the distance from the ultraviolet light source of the indicia.
37	Illumination meter dial device	US255024	1988-10-07	US4875433A	1989-10-24	Sakae Tsukamoto
An illumination meter dial device comprises a transparent base plate (32); a black semitransparent layer (38) coated on the transparent base plate so as to form marks (28 or 30); a black opaque layer (40) coated so as to cover a margin and an outer periphery of the mark formed by the black semitransparent layer (38); and a white semitransparent layer (42) coated so as to cover a margin of the black opaque layer (40) and all over the dial plate except the marks. In the daytime, the marks (28, 30) can be seen in black in contrast with the white dial plate irradiated by sunlight from the outside; in the evening, margins of the marks formed by the black opaque layer (40) not covered by the white semitransparent layer (38) can be seen in black in contrast with the marks and the dial plate irradiated with sunlight from outside and illuminated by the lamp from inside; and in the night, other thick margins of the marks formed by the black opaque layer (40) can be seen in black in contrast with the marks and dial plate illuminated by the lamp from inside.
38	Dial illuminating system	US275666	1981-06-22	US4387414A	1983-06-07	Robert H. Hensleigh
Discloses an improved instrument dial illuminating system including a light transmitting optical element formed with a thickness diminishing in the vicinity of one edge of the optical element to the vicinity of an opposite edge of the element and with a prescribed generally convex surface extending from the thick edge to across the element. Profile is of configuration prescribed to cause light rays refracted within the element from a light source to be reflected from such surface at angles closer to normal with respect to a dial face located adjacent to the light source. Such surface of optical element may be formed with a localized regional surface located intermediate the edges of such element and formed of configuration designated to cause light rays refracted within such optical element from said light source to be reflected from such regional surface at angles closer to normal with respect to such dial face.
39	Manipulating rotary control device	US011202	1979-02-12	US4213416A	1980-07-22	Michael R. Klingler
A manipulating rotary control device wherein a knob is connected to a dial having associated therewith a hub defining a socket for receiving the end of a control shaft, such as the valve shaft, in a domestic range or the like. The knob may be formed of a light-transmitting synthetic resin and may be hollow so as to permit desired aesthetic treatment of the interior thereof. The knob may serve as an insulating element of the assembly permitting the dial to be made of metal as well as of synthetic resin. The knob may be secured to the dial or hub by suitable means such as heat staking, etc. The hub socket may be closed so as to seal out moisture. An indicator may be associated with the knob which may be selectively movable as an incident of movement of the knob toward and from the wall from which the control shaft projects for providing an indication of the position of the control shaft. The knob may include a clear portion for viewing of the indicator in preselected disposition within the knob. A seal may be provided for sealing the interior of the knob relative to the movable indicator.
40	Illuminated instrument panel	US60928956	1956-09-11	US2855710A	1958-10-14	ROPER JOHN M

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