• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An arrangement and structural cross section of grid lines in screens which present a moire pattern. The cross-sections of the screen lines are arranged so that light from behind the screen is not reflected on the front of the grid lines and the moire pattern, as seen by an observer at the front of the screens, better depicts the information pattern by avoiding distortion arising in prior art structures. Several embodiments of screen grid line cross-sections are proposed.
    公开号:SU1376951A3
    申请号:SU782665903
    申请日:1978-09-08
    公开日:1988-02-23
    发明作者:А.Бергквист Ларс
    申请人:Bergkvist Lars A;
    IPC主号:
    专利说明:

    The invention relates to a raster system for creating a moire pattern, and more specifically to a configuration of opaque raster elements separated by transparent gaps.
    The aim of the invention is to improve the accuracy of the created moire pattern due to the fact that the light falling behind the rasters in the system and visible by the observer does not reflect from the longitudinal elements in the direction of the field of view of the observer.
    the back surfaces 7 and 8 of the raster elements are invisible when observing the system within the angular sector 20, moreover, the light beams 4 from the background 5 will not be reflected on the raster elements to the observer when the latter is within the named angular sector.
    Thus, a cross section of 10 opaque elements will be inside a quadrangle, the two sides of which 11 and 12 intersect, form a field of vision with a hundred
    In Figures 1 and 2, variants 15 of the Roni observer, equal to 2p, are presented. Two druvida part of the raster system, figure 3-8 - embodiments of the elements of the device.
    The device contains front 1 and rear 2 rasters. The longitudinal elements 3 are shown triangular in cross section, which is one of the embodiments of the invention. As can be seen from Fig. 1, the light beams 4 passing along the tangent to the raster 1 and falling on the adjacent raster elements cannot reveal any of their sections.
    Angle 20 (FIG. 1) denotes the angular sector within which the system is used. This angle may vary depending on the design of the raster system, but it usually ranges from 20 to 90. Figure 1 shows that the light from other areas of the background 5 cannot highlight the raster element 2 so as to change their effective width, provided that the observer is within the corner sect
    pa 20. Beam 6 of light falling under ne40
    45
    Fig. 3 shows the assumed cross-section 10 of an isosceles triangle.
    Fig. 3 shows the elevation, completely filling the quadrilateral.
    Figure 4 shows the feed-in of element 16, which by part fills the area of the rocket, but provides for catching, in which light from is reflected on raster el
    a large angle to one of the back surfaces 7 and 8 of the raster elements is reflected from them at an angle outside the angular sector of the field of view, the same applies to the beam 9 of light that falls on one of the back surfaces of the element 8 at a large angle.
    In the raster system 1 and 2, an observer who is within
    , The SP direction to the observer, called the angular sector, observes- and
    a moire pattern completely free from interference, regardless of the light conditions created by the light from the background 5.
    Figures 2 and 7 describe the conditions for calculating the cross section of 10 raster elements. As can be seen from figure 2, the cross section 10 is such that
    55
    I
    Cross-section 17 of the vii from Fig. 6 also presents a preferred variant and a trapezium, most of which have sides to the side, and two sides with the rear limiting points 11 and 12.
    The three sides of the quadrilateral are formed by lines 13 and 14, passing through the extreme rear point of the section of the opaque element and the upper point of the neighboring element. The resulting quadrilateral is symmetric with respect to one of its diagonals, perpendicular to the plane in which the opaque raster elements are located. In this case, the diagonals of the quadrilateral intersect at a point spaced from the vertices (Fig. 2) at distances x h and X, equal to

    2tg0.
    X
    bh
    2a + b
    where b is the height of the raster element, and is the distance between the raster elements.
    The cross-sectional shape may vary within a quadrilateral bounded by segments 11-14.
    FIG. 3 shows a preferred cross section 10 in the form of an isosceles triangle.
    Fig. 3 shows a cross section completely filling the area of the quadrilateral.
    Figure 4 shows a cross section of an element 16 that does not completely fill the area of the quadrilateral, but ensures that the condition that the light from the background does not reflect on the raster elements in
    direction to the observer,
    I
    Cross section 17 in accordance with Fig. 6 is also a preferred embodiment and has the shape of a trapezoid, most of which have parallel sides facing the observer, and the two sides coincide with the rear delimiting lines 11 and 12.
    7 shows a cross section 18 having a trapezoidal shape, but with an incomplete filling of the quadrangle.
    The cross section 19 (Fig. 8) is a combination of a trapezoid and a triangle, which completely fits into the quadrilateral formed by the bounding lines 11-14.
    The invention may use plates of plexiglass or other
    2
    FIG. five
    a transparent plastic material, in which parallel grooves are machined, each of which has a width corresponding to the opaque element, and the distance between the grooves corresponds to the width of the desired transparent gap. Paint, tape, etc. is applied on the bottom of each groove. which will be the longitudinal opaque raster elements.
    Fig.Z
    权利要求:
    Claims (2)
    [1]
    1. DEVICE FOR PRODUCING A MOIR PICTURE, comprising at least two rasters located parallel to each other with an air gap, each of which includes a number of longitudinal opaque raster elements located at a distance less than their height, while longitudinal opaque raster elements are parallel to each other friend, characterized in that, in order to increase accuracy, the cross section of each opaque longitudinal raster element is a figure inscribed in a quadrangle, symmetric with respect to its first diagonal, perpendicular to the plane in which the longitudinal opaque raster elements are located, the second diagonal of the quadrangle being equal to the height of the longitudinal opaque raster element, and the vertices of the quadrangle lying on the first diagonal are separated from the intersection point of the diagonals X determined from distances h and relations. - b
    [2]
    2tg £ ’where b bh 2a + b’
    - the height of the longitudinal opaque raster element;
    - the distance between the longitudinal opaque raster elements;
    - half the angle of the field of view of the device from the observer.
    The device according to claim 1, characterized in that it is transverse to a translucent, translucent longitudinal rast2.
    An even element is made in the shape of a triangle.
    SU 1376951 AZ
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3162711A|1961-05-05|1964-12-22|Bausch & Lomb|Moire fringe constructions including a repeating irregular pattern|
    US3217590A|1962-05-14|1965-11-16|American Design Engineering Co|Apparatus for producing moire patterns for use in determining the relative position of a pair of elements|
    NL6711045A|1967-08-10|1969-02-12|
    NL6817007A|1968-11-28|1970-06-01|SE422117B|1980-09-22|1982-02-15|Bergkvist Lars A|DEFINITION OF THE SINGLE LINES|
    GB2253902B|1984-02-18|1993-03-24|Ferranti Plc|Detector apparatus for detecting coherent monochromatic point-source radiation|
    DE3527996C2|1985-08-03|1994-06-23|Mankau Dieter|Ski with compensating elements|
    JP2533835B2|1986-03-07|1996-09-11|大日本印刷株式会社|hologram|
    GB8615197D0|1986-06-21|1986-07-23|Renishaw Plc|Opto-electronic scale reading apparatus|
    GB2252175B|1991-01-22|1994-03-30|British Aerospace|A parallax barrier assembly and apparatus|
    US8493669B2|2008-05-30|2013-07-23|The Invention Science Fund I Llc|Focusing and sensing apparatus, methods, and systems|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE7710139A|SE408734B|1977-09-09|1977-09-09|DEVICE FOR RASES INTENDED TO CREATE A MOIRE MONSTER|
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