CA1208009A - Matrix display - Google Patents

Matrix display

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Publication number
CA1208009A
CA1208009A CA000420001A CA420001A CA1208009A CA 1208009 A CA1208009 A CA 1208009A CA 000420001 A CA000420001 A CA 000420001A CA 420001 A CA420001 A CA 420001A CA 1208009 A CA1208009 A CA 1208009A
Authority
CA
Canada
Prior art keywords
disk
assembly
frame
pivot axis
movable display
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
CA000420001A
Other languages
French (fr)
Inventor
Lloyd Seibert
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
American Sign and Indicator Corp
Original Assignee
American Sign and Indicator Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by American Sign and Indicator Corp filed Critical American Sign and Indicator Corp
Priority to CA000420001A priority Critical patent/CA1208009A/en
Application granted granted Critical
Publication of CA1208009A publication Critical patent/CA1208009A/en
Expired legal-status Critical Current

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Landscapes

  • Illuminated Signs And Luminous Advertising (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)

Abstract

Abstract of the Disclosure A display assembly in the form of a supporting shell that mounts the assembly in an upright display panel in a matrix configuration. A disk assembly is pivoted to each shell and includes a thin disk movable about a transverse horizontal axis. The disk is moved by magnetic forces between a reflective position exposing one disk surface to the front of the panel, a closed condition exposing its opposite surface to the front of the panel, and a backlighted condition which is intermediate the other two.

Description

12~ 9 TITLE: MATRIX DISPLAY

This relates generally to changeable displays used for portraying visual or written information by a plurality of pivotable disks movable between contrasting conditions for day or night viewing conditions. The movable display assembly itself can be used in any desired spatial arrangement. This includes pre-arranged positions where the display assemblies might be alternately used to indicate one or two or more limited words or messages. More commonly, the dispiay assembly will be used in a rectangular or geometric matrix. In such a matrix, the individual display assemblies will be typically arranged in multiple vertical columns and horizontal rows so as to be generally usable in pOl ll dyillg unlimited combinations of pictorial or written information.
A typical element used today in such a display matrix is a lighted lamp. Lighted lamps are used in both daylight and darkened environments to provide a visual contrast with a dark background panel. While very effective as a visual display, large matrix displays of this type require substantial amounts of energy for operation and also generate substantial amounts of heat, most of which is typically wasted to the environment.
2 0 The present display was developed in an effort to provide an economic alternative to a lighted lamp bank or lamp matrix display. To provide visual contrast under darkened or night conditions, a backlighted panel was desired. However, backlighting does not normally provide adequate contrast in such a display when viewed under bright daylight conditions. For these reasons, a re-flective daylight display was desired as well.
The present apparatus provides two modes of operation. For daylight usage or for display under relatively bright environmental lighting conditions, a reflective or fluorescent contrasting display is available in 30 combination with the background of the panel. For nighttime use or display under darkened environmental conditions, a backlighted contrasting display is used. This versatility in display application required development of controls for moving the individunl disks between three positions, each of which must be a stable rest position which can be maintained without continuous energization.
The present apparatus pivots a thin disk from a sealed background position to an opposed reflec$ive or fluorescent position or to an intermediate light-transmitting position. In each of these alternate stable '~

?9 positions, the disk and its supporting elements are movable by magnetic forces to the alternate positions. This assures certainty in the disk movement and removes visual hesitancy that might otherwise affect the visual impact of an instantly changeable display. The resulting mechanical apparatus has a visual impact under all environmental lighting conditions similar to that achieved by instantly turning a multitude of lamps on or off to change a lamp bank matrix.

Fig. 1 is a front view o-f an assembled matrix showing display of a letter;
Fig. 2 is a front view of a single display assembly in the reflective condition;
Fig. 3 is a rear view of the display assembly in the reflective condition;
Fig. 4 ia a side view of the display assembly;
Fig. 5 is a front view of a single display assembly in the closed or background condition;
Fig. 6 is a front view of a single display assembly in the backlighted condition;
Fig. 7 is a fragmentary sectional view taken along line 7-7 in Fig. 3;
Fig. 8 is a front elevation of a disk assembly;
Fig. 9 is a front elevation of a disk;
Fig. 10 is a front elevation of an armature;
Fig. 11 is a sectional view taken along line 11-11 in Fig. 8;
Fig. 12 is a vertical sectional view taken along line 12-12 in Fig. 2;
Fig. 13 is a vertical sectional view taken along line 13-13 in Eig. 5;
Fig. 14 is a vertical sectional view taken along line 14-14 in Fig. 6;
Fig. 15 is a schematic view of the display assembly in the reflective condition;
3 0 Fig. 16 is a schematic view of the display assembly in the closed condition; and };ig. 17 i8 a schematic view of the display assembly in the backlighted condition .

The drawings illustrate a specific form of the invention, which is an individual movable display assembly. It is adapted to be arranged in a spatial display arrangement forming discrete informational patterns or in a ~Z~800~

mntrix having multiple vertical columns and horizontal rows for display of general pictorial or written information.
Each assembly is individually controlled and movable between three different positions. In one position, the assembly displays a surface that contrasts with the background of the matrix. In the second position, it displays a surface having a color common to the background. In the third position, it transmits light from behind the assembly in a backlighted display mode. The first and second positions are designed for use in a reflective mode; the second and third for use in a backlighted mode.
The assembly basically comprises a shell 10 that supports the assembly components; an armature 20 and disk 25 that pivot relative to the shell as a unit; and a magnetic operator, shown as a permanent magnet 26 on the armature 20 and a pair of driving magnets 27 and 28 at the back of shell 10. By selectively reversing magnets 27 and 28, disk 25 can be instantly positioned in one of the three above-described positions. The three operational positions of the assembly are shown in sectional views 12, 13 and 14. Schematic views illustrating operation of the assembly in the three positions are shown in Figs. 15, 16 and 17.
As shown in the drawings, shell 10 is molded of plastic resin or other 2 suitable structural material as an integral member . Shell 10 can be integral with a supporting panel or frame for the display or can be a separably formed component as shown. It includes a surrounding rim 11 having a front surface 12 and an oppositely facing back surface 13. The surfaces 12 and 13 are bounded by an outer peripheral edge 14 and an inner peripheral edge 15. The edge 15 surrounds a centrally open window through the shell 10.
Bearing means for the armature 20 are provided integrally in the molded shell 10 and are cle~ign:~ted in the drawings specifically a-t 17. The bearings 17 are shown as inwardly open apertures aligned along a 30 transverse pivot axis X-X.
Armature 20 comprises a transverse axle 22 having offset support stubs 21 complementary in both size and location to the bearings 17.
Stubs 21 are adapted to be inserted into the opposed bearing apertures to pivotally mount armature 20 about axis X-X. The offset between axle 22 and stubs 21 facilitates flexure of the armature 20 for insertion of the stubs 21 into the bearing apertures at each side of shell 10. It also facilitates overlapping of the enlarged reflective or fluorescent area of disl~
25 in front of shell 10 when in the position shown in ~ïgs. 2, 3 and 12.

~2C~8~
The resulting forward projection of disk 25 significantly increases the visibility of the reflective or fluorescent area on disk 25 in contrast to the m ore recessed position assumed in the closed disk condition. It brings disk 25 forward to minimize overlap of adjacent shell surfaces which might otherwise obscure viewing of the disk.
Armature 20 is provided with a pair of opposed slotted tabs 23 and 24 aligned across one of its sides and partially overlapping axle 22. The tabs 23 grip the side edges of disk 25, which is provided with complementary notches 38 and 39 formed inwardly from its side edges (Fig. 9). As shown, notch 38 is complementary to tab 23 and notch 39 is complementary to tab 24. The tabs and notches are of differing width so that the interfit between them automatically indexes and locates the flap 25 properly across the armature 20.
Armature 20 also supports a cylindrical permanent magnet 26 having opposed magnetic poles located about its periphery along a plane that intersects axis X-X and is perpendicular to it. The angular position of armature 20 is controlled by switchable magnets 27 and 28 fixed to shell 10 within an integral magnet housing 30 protruding from the rear shell surface 13 (see Fig.7). The magnets 27 and 28 have inwardly facing 20 permanent magnet poles located adjacent to the periphery of the cylindrical magnet 26. ~lagnets 27 and 28 are electrically switchable by electronic controls ~not shown) which reverse their polarity. A substantial amount of such polarity remains as residual magnetism without the requirement for continuous electrical current.
The shell 10 also includes complementary angular extensions 31 and 32 which limit one angular position of disk 25. The lower extension 31 projects forwardly -from the front shell surface 12 about a first window section 40 located beneath axis X-X. The upper extension 32 projects rearwardly from the rear shell surface 13 about a second window section 41 3 0 located above axis X-X . Extension 31 terminates along an outer edge 33 which converges outward from axis X-X when viewed from the side. A
similar outer edge 34 is formed about extension 32. As seen from the side, the two extensions 31 and 32 terminate along substantially coplanar outer edges 33 and 34, these edges being offset only by an amount equivalent to the thickness of the flap 25 which selectively contacts them.
The assembly including shell 10, armature 20, disk 25, and the magnets mounted to them, is releasably mounted to an upright support panel shown at 36, which might be in a matrix configuration and include ~:1)8~)~9 vertical columns and horizontal rows of aligned apertures having a shape suitable to provide clearance for the moving disks 25 and for the projecting extension 32 and magnet housing 30. Panel 36 might further include printed circuitry (not shown) for connection to the terminals of magnets 27 and 28 in each assembly. Mounting projections 35 at the top and bottom of the rear shell surface 13 are engageable through complementary apertures in the panel 36 to releasably fix the shell 10 and its components to the matrix panel 36. Shell 10 and its components are removable from panel 36 as a unit for repair or replacement purposes.
As shown, the disk 25 is not symmetrical about the axis X-~. It is operationally divicled into a first disk end 42 and a second disk end 43 extending oppositely from armature 20 and pivot axis X-X. The disk ends 42 and 43 are bounded on their sides by substantially parallel convex edges 44 and 45 which t~imini~h in width outwardly from axis X-X. They intersect convex end edges 46 and 47 which are symmetrical across the width of disk 25.
It is to be noted that the first disk end 42 has a cross-sectional configuration complementary to and capable of passing through the first window section 40 on shell 10 when pivoted about axis X-X. Also, the 2 0 cross-sectional configuration of the first disk end 42 is greater in both length and width than that of the second window section 410f shell 10.
The second disk end 43 has a cross-sectional configuration greater than that of the first disk end. Its length is such as to extend outwardly to the peripheral edge 14 of shell 10 when in the reflective or fluorescent position shown in Figs. 1 and 2.
The operational positions of disk 25 are best understood from Fig. 12, which shows the reflective disk position, Fig. 13, which shows the background or closed disk position and Fig. 14 which shows the light transmitting disk position. During normal use OI the sign under daylight 30 conditions or where external lighting is adequate to provide substantial contrast to the flat surfaces, only the reflective or fluorescent position (Fig. 2) and the background position (Fig. 5) would be used. In darkened environments and in night conditions outdoors, only the background position (Fig. 5) and the light transmitting position (Fig. 6) would be used.
Disk 25 has visually contrasting outer surfaces 4~ and 50 at opposite sides thereof. Surface 48 shall be termed a "reflective" surface and surface 50 shall be termed a "background" surface. Surface 48 can be ~Z~0~9 covered or coated with any material or coloring that visually contrasts with the background color of shell 10 and panel 36. Fluorescent coatings have been preferred for maximum visibility ~mder both natural and artificial lighting conditions. Normally surface 50 and armature 20 will be painted or colored identically to the finish of shell 10 and the exposed portions of panel 36 so as to fade into the background of the display when viewed from the front. This background color is preferably black, but other colors can be utilized where desired. Surface 50 is overlapped by armature 20, but since they are identically colored, this is not visually objectionable.
It is noted that surface 48 faces outwardly opposite to the armature 20. Since it overlaps armature 20, it is unobstructed other than by the small area overlapped at each of its sides by the inwardly projecting mounting tabs 23 and 24.
Figs. 15, 16 and 17 illustrate the alignment of the magnetic poles on permanent magnet 26 with respect to the plane of disk 25. The magnets 27 and 28 continuously maintain disk 25 in each of its three alternate preset positions until they are reactivated $o move it to another position.
No mechanical latches or dampeners are included in the assembly.
The reflective position (~Ygs. 2 and 3) exposes most of the area about surface 48 to the front of the assembly to provide maximum visual contrast with the background elements about the matrix panel 36. In this position, disk 25 assumes an upright position exposing surface 48 to the front of the assembly. The first disk end 42 is located within the Eirst window section 40 of shell 10 and the second disk end 43 overlaps the front surface 12 of shell 10 about the second section 41. The only portions of the reflective or fluorescent surface 48 not visible are those overlapped by the tabs 23 and 24. The maximum av~ilable area on disk 25 is exposed for visual impact in existing light.
In the second or background position (Fig. 5), the disk 25 is rotated approximately 150 from the first position and rests with its edg~es against the edges 33 and 34 of' extensions 31 and 32, respectively. This exposes the background surface 50 to the front of shell 10. The second disk end 43 overlaps and seals the outer edges 33 of the lower extension 31 about the first window section 40 of the shell 10. The first disk end 42 overlaps and seals the outer edges 34 of the upper extension 32 about the second window section 40. While less of the disk 25 is thereby visible when viewed from the front, this is of no material consequence since the surface o~

50 is colored identically to the surfaces about shell 10 and the surrounding panel 36. Disk 25 becomes part of the matrix background in this position.
When the display is backlighted, disk 25 substantially stops passage of light in this position.
Transmittal of light through shell 10 i6 accomplished by selectively moving disk 25 to an intermediate position (Fig. 6) between the two above-described positions. In this position, disk 25 will normally be almost horizontal, although it is preferable that the forward edge of disk 25 be inclined downwardly where the display is elevated and is to be viewed from a somewhat lower location.
The assembly can be backlighted by incandescent or fluorescent tubes or by any other source of light located rearward of the assemblies as diagrammatically shown at 51 in ~igs. 15-17. In this position, it is desirable that the thin disk 25 be viewed on edge so as to obscure as little of the transmitted light as possible. In addition, interior surfaces viewable behind the panel 36 might be colored so as to contrast with the background coloring of the panel 36 and shell 10 when disk 25 is in this intermediate position.
With the disk 25 substantially aligned parallel to the magnetic poles on permanent magnet 26, armature 20 is moved to the first position by driving the magnets to polarities opposed to the permanent magnet poles when disk 25 is upright. Movement of disk 25 to its background position is achieved by reversing the polarity of the magnets 27 and 28. The intermediate position of disk 25 is achieved in alternation with the background position by reversing the polarity of one magnet 27 or 28 only, using the other as a magnetic dampener to minimize fluttering of the disk 25 as it reaches the intermediate position.
The magnets 27 and 28 are arranged at approximately 45 orientations with respect to the upright position of disk 25 and the front and rear surfaces 12 and 13 of shell 10. They are also arranged at 45 from the horizontal and 90 from one another. Their magnetic axes converge and intersect at axis X-X. The 45 orientation of magnets 27 and 28 assures substantially horizontal positioning of disk 25 when in its intermediate position. The actual position of disk 25 in any of its three positions is a resultant of the magnetic moments exerted on the armature 20, The above display assembly provides maximum areal contrast between the reflective and background conditions for daylight or frontlighted use and between the backlighted and background positions for nighttime use or ~L2~8()G19 in darkened environments. The operation of the display requires little energy, since the con-trolling magnets need only to be energized during resetting of individual disks 25. In many instances, no external lighting will be required during daylight hours. The backlighting necessary in darkened environments requires substantially less energy than is the case with conventional lamp banks used in prior matrix ~isplays.
The assembly is designed for simplified replacement of disks 25 to compensate for fading or aging of the reflective finish on its surface48.
Each disk 25 can be readily flexed inward toward its transverse center to release it from the armature tabs 23 and 24. Similarly, the entire armature assembly can also be released from shell 10 by flexing axle 22 and pulling stubs 21 from bearings 17. Replacement of a disk or armature is no more difficult than replacement of a lamp bulb in a lighted lamp matrix .
Various modifications might be made with respect to the details of the assembly without deviatingr from the general features described above.

Claims (8)

The embodiment of the invention, in which an exclusive property or privilege is claimed, is defined as follows:
1. A movable display assembly adapted for use in a spatial arrangement that includes a plurality of individually controlled assemblies, said display assembly comprising:
a frame surrounding an open window;
bearing means transversely spanning the window on said frame, said bearing means defining a transverse pivot axis dividing the window asymmetrically into first and second window sections;
a disk assembly pivotally mounted on said frame by said bearing means for movement relative to the frame about the pivot axis, said disk assembly including a thin disk having visually contrasting outer surfaces at opposite sides thereof;
and means on said disk assembly and said frame for selectively positioning said disk assembly about said axis;
said disk having first and second disk ends extending oppositely from the pivot axis, the first and second disk ends having greater widths between the side edges and lengths from the pivot axis to the end edges than the corresponding widths and lengths of the second and first window sections, respectively, for sealing about the disk periphery to prevent light passage when the disk is in a background position;
said first disk end having smaller widths and lengths than the corresponding widths and lengths of the first window section for allowing the disk to freely rotate thereinto.
2. A movable display assembly as set forth in claim 1 further comprising:
upper and lower extensions upon the frame with outer edges which contact the disk about its periphery to seal against light leakage and to stop the disk in an inclined background position which reduces the effective heights of the first and second disk ends when in the background position and viewed from the front of the assembly; and an armature rotatably supported in the bearing means and adapted to hold the disk at a position offset from the pivot access so that the disk is moved outwardly when the disk assembly is rotated into the reflective position, thereby allowing the second disk end to extend upwardly beyond the second window opening for greater visibility of the disk.
3. A movable display assembly as set forth in claim 2 further comprising means for backlighting the display from the rear side of the assembly.
4. A movable display assembly as set forth in claim 1 further comprising:
upper and lower extensions upon the frame with outer edges which contact the disk about its periphery to seal against light leakage and to stop the disk in an inclined background position which reduces the effective heights of the first and second disk ends when in the background position and viewed from the front of the assembly.
5. A movable display assembly as set out in claim 4 wherein the disk ends have convex side edges substantially perpendicular to said pivot axis and intersecting convex end edges.
6. A movable display assembly as set forth in claim 4 further defined by said upper and lower extensions being shaped to stop the disk in an inclined background position which is approximately 30° from the vertical.
7. A movable display assembly as set forth in claim 4 further comprising means for backlighting the display from the rear side of the assembly.
8. A movable display assembly as set forth in claim 4 wherein the means for selectively positioning the disk assembly about the pivot axis comprises:
a cylindrical permanent magnet fixed to the disk assembly coaxially along the pivot axis; and a pair of switchable magnets fixed to the frame outwardly adjacent to the periphery of the permanent magnet.
CA000420001A 1983-01-21 1983-01-21 Matrix display Expired CA1208009A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CA000420001A CA1208009A (en) 1983-01-21 1983-01-21 Matrix display

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CA000420001A CA1208009A (en) 1983-01-21 1983-01-21 Matrix display

Publications (1)

Publication Number Publication Date
CA1208009A true CA1208009A (en) 1986-07-22

Family

ID=4124407

Family Applications (1)

Application Number Title Priority Date Filing Date
CA000420001A Expired CA1208009A (en) 1983-01-21 1983-01-21 Matrix display

Country Status (1)

Country Link
CA (1) CA1208009A (en)

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