[0001] The invention relates to a device for displaying illustrations, texts or the like
provided with a frame and with a plurality of display means which are rotatable about
parallel axes of rotation, said display means comprising a few surfaces extending
at least substantially parallel to said axes of rotation and including an angle with
each other, said surfaces being provided with parts of the illustrations, texts or
the like to be formed, whilst wheel-shaped driving means are disposed near ends of
said display means, which wheel-shaped driving means can be rotated about their central
axes extending transversely to the axes of rotation of the display means in order
for said display means to be rotated, whereby said wheel-shaped means co-operate with
pins secured to the ends of said display means.
[0002] A device of this type is known from European Patent Application No. 0 539 308. Various
illustrations, texts or the like can be displayed in succession with such a device
by rotating the display means.
[0003] In this known device three pins extending in radial direction with respect to the
display means are secured to each display means. Said pins co-operate with a wheel-shaped
means which is circumferentially provided with a helical groove in which said pins
engage and through which said pins move in order to rotate the respective display
means. Especially the construction of the wheel-shaped means with a helical groove
formed therein makes this a complicated and costly construction. In this known construction
the wheel-shaped means must furthermore be disposed beside the extension of the axis
of rotation of the display means, which leads to a comparatively great width of the
device, seen in a direction perpendicularly to the plane through the axes of rotation
of the wheel-shaped means.
[0004] The object of the invention is to provide a device wherein the above drawbacks are
avoided.
[0005] With the device according to the invention this object is accomplished in that pins
secured to a display means extend parallel to the axis of rotation of the respective
display means and are disposed in regularly spaced-apart relationship in a circle
extending concentrically about the axis of rotation of the display means, whilst the
wheel-shaped means is provided with a projecting nose, on either side of which passages
are present in said wheel-shaped means, all this in such a manner that when the wheel-shaped
means is rotated, a pin is engaged by the nose so as to effect a rotation of the respective
display means, whereby two pins are each guided through a passage from one side of
said wheel-shaped means to another side of said wheel-shaped means.
[0006] When using the construction according to the invention it will be possible to use
a wheel-shaped means, whereby the two passages in the wheel-shaped means are designed
to have a simple shape, so that they are easy to form, whilst the wheel-shaped means
may be disposed in line with the respective display means, so that the device can
be designed to have a small depth.
[0007] One embodiment of the device according to the invention is characterized in that
said wheel-shaped means is provided with two parallel flanges positioned on the same
side of said nose, said flanges near said nose being provided with passages for guiding
a pin from a side facing said nose of the flange located near said nose to a side
facing away from said nose of the other flange, and vice versa.
[0008] The nose is in engagement with said pins only over a particular part of a revolution
of the wheel-shaped means. When the wheel-shaped means is rotated while the nose is
not in engagement with the pins, the flanges provide an accurate guiding and positioning
of the pins positioned between the flanges.
[0009] The invention will be explained in more detail hereafter with reference to parts
of the device according to the invention diagrammatically illustrated in the accompanying
Figures.
[0010] Figure 1 is schematically shows one end of a display means with pins secured thereto
and a wheel-shaped means co-operating with said pins.
[0011] Figure 2 is a larger-scale view of a wheel-shaped means.
[0012] Figure 3 is a side view of Figure 2.
[0013] Figure 4 is a sectional view of Figure 3, along line IV-IV in Figure 3.
[0014] Figures 5a-5g schematically show relative positions, seen from the central axis of
the wheel-shaped means in the direction of the outer circumference of the wheel-shaped
means, which pins secured to a display means and the wheel-shaped means take up with
respect to each other when the wheel-shaped means is rotated in order to effect a
rotation of the display means.
[0015] Figure 6 is a perspective view of a second embodiment of a device according to the
invention.
[0016] Figure 7 is a perspective view of the device shown in Figure 6, in another position
thereof.
[0017] Figure 8 is a larger-scale view of a wheel-shaped means according to the invention
shown in Figure 6.
[0018] Figure 9 is a side view of Figure 8.
[0019] Figure 10 is a sectional view of Figure 8, along line X-X in Figure 8.
[0020] Figures 11A-G schematically show relative positions, seen from the central axis of
the wheel-shaped means in the direction of the outer circumference of the wheel-shaped
means, which pins secured to a display means and the wheel-shaped means take up with
respect to each other when the wheel-shaped means is rotated in order to effect a
rotation of the display means.
[0021] Like parts are numbered alike in the Figures.
[0022] Figure 1 shows one end of a display means 1, which is provided with three surfaces
2 including an angle with each other, which surfaces 2 form an equilateral triangle,
seen in sectional view of the display means 1. A plurality of such display means are
arranged in parallel relationship, and are journalled in supports 3 in such manner
as to be rotatable about axes of rotation extending in the longitudinal direction
of the display means, said supports 3 forming part of a frame of a device for displaying
illustrations of which display means 1 forms part. The surfaces 2 are thereby intended
for being provided with illustrations, texts or the like.
[0023] Devices of this kind are generally known, for example from the aforesaid European
Patent 0 539 308 or from European Patent 0 162 254. For a description of the general
design and operation of said devices for displaying illustrations, texts or the like
reference is therefore made to the said publications, and a detailed explanation thereof
will not be included herein.
[0024] As is shown in Figure 1, a shaft 4 is mounted on one end of display means 1, the
central axis of said shaft coincides with the axis of rotation of display means 1.
A disc 5 extending perpendicularly to shaft 4 is mounted on the end of said shaft
4. Three pins 6 - 8 are mounted on said disc, on the side facing away from shaft 4,
said pins extending parallel to shaft 4 and thus parallel to the axis of rotation
of display means 1.
[0025] As is apparent in particular from Figure 5, the pins are thereby arranged at regular
angular distances apart on a circle extending concentrically about the axis of rotation
of display means 1.
[0026] The pins co-operate with a wheel-shaped means 9 illustrated in more detail in Figures
1 - 4. Said wheel-shaped means comprises a hub 10, in which a (preferably unround)
hole 11 is formed, said hole being hexagonal in the illustrated embodiment.
[0027] A plate-shaped disc 12 extending perpendicularly to the central axis of hole 11 is
mounted on said hub, said disc extending through approximately 270° about the central
axis of hole 11. Mounted on the outer circumference of said disc is a rim or strip
13 extending concentrically about the disc, the ends of which rim or strip project
slightly beyond the ends of plate 12.
[0028] Furthermore a radially extending arm 14 is secured to hub 10, which arm divides the
angle between boundary edges 15 and 16 of plate 12 in half, seen in the longitudinal
direction of the central axis of hub 10. A plate-shaped means or nose 17 is mounted
on the free end of arm 14. As will be apparent from Figure 3, said plate-shaped means
or nose 17 is curved in the longitudinal direction of the central axis of hub 10,
in such a manner that said plate-shaped means or nose 17 extends concentrically about
the central axis of hub 10, whereby the spacing between the hub and the outer and
the inner boundary surfaces of nose 17 is the same as the spacing between the hub
and the inner and the outer boundary surfaces of rim 13.
[0029] As is furthermore apparent from Figure 2, the width of the part of nose 17 positioned
between the facing ends of rim 13 gradually decreases. The boundary edges 18 and 19
of rim 13 facing towards nose 17 thereby extend more or less parallel to the boundary
edges of said nose positioned opposite said boundary edges 18 and 19. Thus passages
20 and 21 are formed on either side of nose 17, between the boundary edges 18 and
19 of said rim 13 and the opposite boundary edges of nose 17, the longitudinal axes
of said passages including an angle deviating from 90° with an imaginary plane extending
through the central axis of hub 10 and the longitudinal axis of arm 14, whereby said
passages 20 and 21 extend in opposed oblique directions with respect to said imaginary
plane.
[0030] As is shown in Figure 1, a wheel-shaped means of this kind is disposed beside disc
5, in such a manner that the central axis of hub 10 is intersected perpendicularly
by the extension of the axis of rotation of display means 1. In the position of rest
of display means 1, which is shown in Figure 1, pins 6 and 8 will be positioned on
one side of rim 13 of wheel-shaped means 9 and pin 7 will be positioned on the other
side of said rim 13, as a result of which said wheel-shaped means 9 prevents rotation
of display means 1 about its axis of rotation.
[0031] The wheel-shaped means 9 will be rotated so as to cause rotation of the display means
about its axis of rotation, as is indicated by means of arrow A in Figure 5. Said
diagrammatic Figure 5 shows the illustrated parts as seen from the central axis of
wheel-shaped means 9 in the direction of the outer circumference of the wheel-shaped
means, in particular in the direction of nose 17, as is indicated by arrow B (Figure
3). When wheel-shaped means 9 is rotated, the part of nose 17 that projects beyond
rim 13 in a direction perpendicularly to the central axis of wheel-shaped means according
to arrow B will come into contact with pin 7, which will cause display means 1 to
rotate in the direction according to arrow B, as is indicated in Figure 5b . Said
rotation of display means 1 will cause pin 7 to move through passage 20 from one side
of rim 13 to the other side of rim 13, as is shown in Figures 5c-5f, whilst pin 6
will move through passage 21 in opposite direction from one side of the wheel-shaped
means to the other side of said wheel-shaped means. It will be apparent that a rotation
of wheel-shaped means 9 through 360° will thus result in a rotation of the display
means through 120°. In this position, in which display means is rotated through 120°,
pin 6 will be positioned on one side of rim 13, whilst the two pins 7 and 8 are positioned
on the other side of the wheel-shaped means, as is shown in Figure 5g, whereby wheel-shaped
means 9 will prevent rotation of the respective display means 1 after it has been
stopped.
[0032] The wheel-shaped means 9 of display means 1 disposed in side-by-side relationship
in the device may be mounted on a common unround shaft inserted into holes provided
in the wheel-shaped means. The unround shaft is preferably twisted about a central
axis extending in its longitudinal direction, so that a more or less "wavy" rotating
movement of the display means 1 disposed in parallel relationship is effected, since
it will be possible in a simple manner in that case for the pins 6-8 of successive
display means to be positioned at different parts of the continuous part of the respective
rim 13 in the position of rest.
[0033] Figures 6 - 11 show a second embodiment of the device according to the invention,
which is provided with another wheel-shaped means 25. Said wheel-shaped means comprises
a hub 10, in which a (preferably unround) hole 11, a hexagonal hole in the illlustrated
embodiment, is formed. Two flanges 26, 27 extending transversely to the central axis
of hole 11 are secured to said hub 10, which flanges extend parallel to each other.
An annular guide slot 28 is located between flanges 26, 27. Furthermore a radially
extending arm 14 is secured to the hub 10. A plate-shaped means or nose 17 is secured
to the free end of arm 14. Nose 17 is configured to extend concentrically about the
central axis of hub 10, whilst the tip of the nose is directed towards flanges 26,
27. Flanges 26, 27 are provided with passages 29, 30 on either side of nose 17. The
tip of nose 17 extends to within passage 29 of flange 26.
[0034] In the position shown in Figure 6 pins 6, 8 are positioned within slot 28 and pin
27 is positioned on a side facing nose 17 of the flanges 26. Pins 6, 8 are precisely
maintained in the position shown in Figure 6 by the flanges 26, 27 bounding slot 28.
By rotating a shaft 31 extending through slot 11 in a direction indicated by arrow
A the various positions A - G shown in Figure 11 are successively obtained until,
after a single revolution of shaft 31, pins 7 and 8 are positioned within slot 28
and pin 6 is positioned on a side of flange 26 facing nose 17. As a result of the
position of the pins being changed the display means connected therewith has at the
same time been tilted through 120°.
[0035] The positions shown in Figures 11A-G of the disc 5 and the pins 6, 7, 8 connected
therewith largely correspond with the positions of disc 5 shown in Figures 5A-G. By
pivoting shaft 31 in the direction indicated by arrow A nose 17 is brought into engagement
with pin 7, as a result of which disc 5 will rotate in the direction indicated by
arrow B. Pin 6 is thereby moved along another side of the nose 17 by the passage 29
in flange 26, whilst pin 8 is moved out of slot 27 to a side of flange 27 facing away
from nose 17 by the passage 30 in flange 27. In the position shown in Figure 11C a
pin 6, 7 is present on either side of nose 17. The position shown in Figure 11D corresponds
with the position shown in perspective view in Figure 7, wherein nose 17 extends transversely
to shaft 4.
[0036] From this position pin 8 is led back to slot 28 via passage 30 as a result of the
further pivoting of the nose in the direction indicated by arrow A, whilst pin 7 is
moved into said slot via passage 29 (see Figures 11E-F). In the position shown in
Figure 11G pins 7 and 8 are positioned within slot 28. When nose 17 is pivoted further
in the direction indicated by arrow A, nose 17 is no longer in contact with either
one of said pins, until the position of nose 17 with respect to said pins as shown
in Figure 11A is reached again, with the understanding that in that position disc
5 has meanwhile rotated through 120°, so that nose 17 will abut against pin 6 instead
of against pin 7. During the pivoting of nose 17 between the position shown in Figure
11G and the position shown in Figure 11A pins 7, 8 are maintained in the position
shown in Figure 11G by means of the flanges 26, 27, and any undesirable rotation of
disc 5 is prevented. Flanges 26, 27 thus provide a precisely defined position of disc
5, and thus of display means 1, with stationary surfaces 2.
1. A device for displaying illustrations, texts or the like provided with a frame and
with a plurality of display means which are rotatable about parallel axes of rotation,
said display means comprising a few surfaces extending at least substantially parallel
to said axes of rotation and including an angle with each other, said surfaces being
provided with parts of the illustrations, texts or the like to be formed, whilst wheel-shaped
driving means are disposed near ends of said display means, which wheel-shaped driving
means can be rotated about their central axes extending transversely to the axes of
rotation of the display means in order for said display means to be rotated, whereby
said wheel-shaped means co-operate with pins secured to the ends of said display means,
characterized in that the pins secured to the display means extend parallel to the
axis of rotation of the respective display means, and the pins are disposed in regularly
spaced-apart relationship on a circle extending concentrically about the axis of rotation
of the display means, whilst the wheel-shaped means is provided with a projecting
nose, on either side of which passages the for pins are formed in the wheel-shaped
means, whilst said wheel-shaped means is provided with a projecting nose, on either
side of which passages for the pins are formed in said wheel-shaped means, all this
in such a manner that when the wheel-shaped means is rotated, a pin is engaged by
the nose so as to effect a rotation of the respective display means, whereby two pins
are each guided through a passage from one side of the wheel-shaped means to the other
side of said wheel-shaped means.
2. A device according to claim 1, characterized in that the axis of rotation of a display
means intersects the central axis of the associated wheel-shaped means at least substantially
perpendicularly.
3. A device according to claim 1 or 2, characterized in that said wheel-shaped means
is provided with two parallel flanges positioned on the same side of said nose, said
flanges near said nose being provided with passages for guiding a pin from a side
facing the nose of the flange located near said nose to a side facing away from said
nose of the other flange, and vice versa.
4. A device according to claim 1 or 2, characterized in that the position and the width
of said wheel-shaped means are such that said wheel-shaped means fits between pins
positioned on either side of said wheel-shaped means.
5. A device according to claim 4, characterized in that said wheel-shaped means is provided
with a rim extending along part of the circumference of said wheel-shaped means, said
rim being connected to a hub of said wheel-shaped means by means of a plate-shaped
part extending perpendicularly to the central axis of said wheel-shaped means.
6. A device according to claim 5, characterized in that said plate-shaped part extends
through an angle about the central axis of said wheel-shaped means which is smaller
than the angle through which said rim extends about the central axis of said wheel-shaped
means.
7. A device according to claim 5 or 6, characterized in that said nose is positioned
between the facing ends of the rim, and projects beyond said rim on one side thereof.
8. A device according to claim 7, characterized in that the width of the part of the
nose positioned between the facing ends of said rim gradually decreases in a direction
away from the part of the nose projecting beyond said rim, whilst the boundary edges
of the facing ends of said nose extend at least substantially perpendicularly to the
opposite boundary edges of said nose.
9. A device according to any one of the preceding claims, characterized in that the wheel-shaped
means of display means arranged in side-by-side relationship are mounted on a shaft
which is twisted about the central axis.