WO1986005114A1 - Entertainment or amusement structure - Google Patents

Entertainment or amusement structure Download PDF

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Publication number
WO1986005114A1
WO1986005114A1 PCT/AU1986/000051 AU8600051W WO8605114A1 WO 1986005114 A1 WO1986005114 A1 WO 1986005114A1 AU 8600051 W AU8600051 W AU 8600051W WO 8605114 A1 WO8605114 A1 WO 8605114A1
Authority
WO
WIPO (PCT)
Prior art keywords
screen
walkway
viewers
frame
frame structure
Prior art date
Application number
PCT/AU1986/000051
Other languages
French (fr)
Inventor
Michael Rodney Browning
Original Assignee
Concorde St. George Productions Pty. Ltd.
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 Concorde St. George Productions Pty. Ltd. filed Critical Concorde St. George Productions Pty. Ltd.
Priority claimed from AU54319/86A external-priority patent/AU577681B2/en
Publication of WO1986005114A1 publication Critical patent/WO1986005114A1/en
Priority to DK525186A priority Critical patent/DK525186A/en

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63JDEVICES FOR THEATRES, CIRCUSES, OR THE LIKE; CONJURING APPLIANCES OR THE LIKE
    • A63J25/00Equipment specially adapted for cinemas

Definitions

  • This invention relates to an entertainment or amusement structure. Footage of cinematic programmes which is filmed down ⁇ wardly, using a fish eye or wide angle lens, can create a dramatic visual impact. However, such impact is diminished in the conventional arrangement of projecting the footage onto a vertical screen, since the viewer is aware that the images on the vertical screen and being viewed horizontally in fact are a representation of what in reality extended horizontally below the taking camera.
  • the present invention provides an entertainment or amusement structure which, when used with such footage, enables the footage to be viewed with .an enhanced visual impact.
  • a structure according tp the invention has a frame structure extending upwardly from a base support, a walkway supported by the frame structure, and a horizontally disposed cinema screen; at least a major portion of the walkway being spaced above, and preferably at least in part over, the screen to enable images projected onto the screen to be seen by viewers on the walkway.
  • the frame structure may be within a building or enclosure, such as at. least in part within a dome thereof. In such case, the frame structure may be an integral part of the building. Alternatively, the frame structure may be of skeletal form, and either independent of or partially braced by a covering building or enclosure.
  • the frame structure is independent of the building or enclosure, the latter may simply comprise a covering for the frame structure and either self-supporting or at least partially supported by the frame structure.
  • the walkway preferably has an arcuate form, or at least includes a portion of such form, so as to enable viewers thereon to move so as to view images projected onto the screen- from different angles.
  • the walkway may extend around a substantially full circumference above the screen, such as in a circular or helical path.
  • the structure of the invention is particularly suited for viewing a cinematic programme filmed using a wide angle or fish eye lens.
  • Such programme most conveniently is one filmed from above, using a camera with such lens; the camera, in producing such programme, for example being carried by a helicopter, glider or hot air balloon on which is preferably is movable on a gimbal mount, or carried by a sky-diver during a descent.
  • the walkway may be substantially rigidly supported by the frame structure.
  • the walkway may be suspended by ropes, cables or rods secured to the frame structure.
  • the ropes, cables or rods can allow a controlled amount of movement of the walkway, such as a swaying movement, thereby tending to increase a feeling of realism for those viewing the images pro ⁇ jected onto the screen.
  • the programme is of the intended form, i.e. filmed from above using a fish eye or wide angle lens
  • the structure according to the invention thus most preferably is adapted for rear pro ⁇ jection.
  • the screen necessarily is of a type suited to rear projection, while there is sufficient spacing below the screen for the projected beam to pass to the screen over the relatively longer projection path necessary for rear proj ⁇ ection compared with front projection.
  • that spacing can be such as to enable positioning of the rear proj ⁇ ection system below the screen, this is not essential.
  • the projector system can be positioned to one side of, and at a lesser distance below, the screen; with an inclined mirror below the screen reflecting the projected beam upwardly to the screen.
  • the screen where of a type suited to rear projection, thus is of a suitable translucent material.
  • the screen may comprise at least one layer of such material held horizontally below the walkway by suitable support means.
  • the screen and/or its support means may be such that at least a portion of the screen can be replaced or such that the entire screen area can be replaced.
  • the screen may comprise a portion of an elongate length of translucent film or sheet material which is disposed horizontally between a supply roll of the material and a take-up roll.
  • the rolls may maintain tension on the length of material therebetween Also, edges of the length between the rolls may be outwardly tensioned.
  • a fresh length of material can be drawn either man ⁇ ually or by motor driven rotation of the take-up roll.
  • the screen may consist of a plurality of panels fitted in edge-to-edge relation and held in such relation by support means.
  • the panels for example, be formed of relatively, stiff sheeting of translucent material, or of relative stiff sheeting of transparent material having a translucent fabric or film over one surface thereof.
  • the support means may comprise a frame of skeletal form which supports the panels from below.
  • the frame may comprise thin lengths of inter-connected metal strips with adjacent edges of successive panels being supported on a common strip.
  • the arrangement preferably is such that, in the event of a panel being damaged by an object falling onto or through it, the dama ⁇ ged panel can simply be removed and replaced. While rear projection is highly desirable, front pro ⁇ jection can be employed. This is so, even for a cinema programme filmed in the above described manner.
  • the building or construction of the invention differs ⁇ principally in that the projector system is one suited to front projection and is positioned above, rather than below the level of the screen.
  • the screen itself may be of the above described forms, except that it will need to be opaque and omnireflective than translu ⁇ cent.
  • the screen can comprise a horizontally disposed surface defined by or on a basal structure of the building or construction.
  • the image cone projected by the projector system onto the screen of course is not visible to viewers on the walkway. This is beneficial in achieving the required enhanced visual impact.
  • viewers can be aware of the image cone and while a substantially enhanced visual impact still is achieved, it is desirable that the overall arrangement of the building be such that viewer awareness of the image cone is reduced as much as possible.
  • the front pro ⁇ jector system preferably is substantially concealed so that light source of the cone emerges from the system at a location •which is not directly visible to viewers from any position on the walkway.
  • the projector system preferably is located above at least a major portion of the walkway. Most preferably it is located within a snoot or shroud; the latter, for example, being one which projects below the lower extent of the projector system.
  • Figure 1 shows a schematic, exploded view of an entertainment or amusement structure
  • Figure 2 shows a building or construction incorporat ⁇ ing a structure as in Figure 1;
  • Figure 3 is a vertical sectional view showing detail of the building or construction of Figure 2;
  • Fi ure 4 shows, in a view similar to that of Fi ure 3, detail of an alternative building or construction;
  • Figure 5 is a sectional view taken on line V-V of Figure 3;
  • FIGS. 6 and 7 show detail of one form of screen
  • Figures 8 and 9 show detail of another form of screen. Figure 9 being taken on line IX-IX of Figure 8;
  • Figure 10 shows an alternative form of building or construction
  • Figures 11 to 14 show one form of structure for a building or construction such as shown in Figure 1, and its mode of erection.
  • the structure 10 of Figure 1 includes a main support frame 12 from which a spiral viewing platform or walkway 14 is suspended by cables, wires or rods 16. Below platform 14, there is a'horizontally disposed translucent screen 18 which may be secured to spacer collar 20. Below screen 18 there is a projector arrangement and, while three alternative arrange ⁇ ments A, B and C are depicted, only one of these normally would be necessary.
  • Arrangement A has a projector 22 positioned centrally below screen 18 to project an image cone 24, having a vertical axis Y, toward screen 18.
  • Arrangements B and C are similar and a choice between these will depend on the extent of avail ⁇ able space below and to the side of screen 18, as well as costs involved in providing an associated, respective reflecting mirror 26,28.
  • Arrangements B, C have respective projectors 30,32 which project respective image cones 34,36 with horizontal axes X,X' toward axis Y; the light of the cones then being reflected toward screen 18, as depicted by the portion of cone 24 above each of respective mirrors 26,28 set at 45° to axis Y.
  • the lateral spacing of projectors 30,32 below screen 18, and their spacing laterally of axis Y, enable use of a smaller mirror 26 compared with mirror 28.
  • Frame 12 is shown as simply comprising an inverted U-shaped member mounted at each end on convenient base 13. However, it generally would be necessary to have two or more such members, each in a respective vertical plane and joined together in a rigid frame structure, with walkway 14 being susp ⁇ ended from each of those members by cables 16 or the like. Also, walkway 14 can be of forms other than the helical form illustrated.
  • Base 13 is merely schematic ' In one arrangement, it depicts a ground level support surface with all of structure 10 below base 13 being in an excavation. In that arrangement, the excavation would be appropriately lined; with there being - an excavated entrance enabling access to the lower end of plat ⁇ form 14.
  • base 13 may be a roof structure of a building, with at platform 14 being suspended through an aperture in the roof and at least a portion of struct- ure 10 below the roof structure being above ground level.
  • base 13 may comprise a column struc ⁇ ture such as shown in Figure 2, or a skeletal frame structure, such as shown in Figures 10 to 12. However, in each of these arrangements, frame 12 is covered and the whole periphery of structure 10 is enclosed, in a manner enabling the exclusion of external light when required.
  • FIGS 2 and 3 show a building or construction 40 for housing a structure, such as in Figure 1.
  • Building 40 has a ground level building enclosure 42 providing an entrance foyer, Extending upwardly from enclosure 42 there are three hollow columns 44.
  • Two of columns 44 define lift shafts, with a respective lift movable in each being accessible from within enclosure 42 and from within an annular outer peripheral chamber 46 of an upper building enclosure 48 supported on the upper ends of columns 44.
  • Upper enclosure 48 has within peripheral chamber 46 thereof a horizontally disposed translucent screen 50.
  • a cinematic programme is able to be projected onto screen 50 by a below ground projector 52.
  • the latter is laterally offset from a vertical axis of construction 40, and projects horizont ⁇ ally toward the axis; with the projected beam being reflected along that axis toward screen 50 by 45 mirror 54.
  • the project ⁇ ed beam passes along a frusto-conical housing 56 e-xtending between enclosures 42,48.
  • a hemis ⁇ pherical dome 58 On upper enclosure 48, there is provided a hemis ⁇ pherical dome 58, with a frame structure 60 within dome 58 being supported by enclosure 48. Also within dome 58, there is a helical walkway 62 suspended from frame structure 60 by cables 64.
  • the overall arrangement is such that intending viewers of a programme projected onto screen 50 are able to enter enclo ⁇ sure 42, be elevated by a lift 66 in one column 44 to portion 46 of enclosure 48. From enclosure 48, the viewers then are able to walk onto the lower end of walkway 62 and view the programme from that vantage point. While not shown, the lower end of walkway 62 may extend down into chamber 46 of enclosure 48, or there may be a connecting stairway.
  • movement may be in the reverse direction, with viewers passing via a stairway from chamber 46 of enclosure 48, to the upper end of walkway 62.
  • the arrangement is such that viewers are able to move around walkway 62.
  • viewers pass onto walkway 62 at one end and exit therefrom via the other end.
  • viewers may return to ground level via lift 68 in another of columns 44.
  • Figure 4 illustrates an alternative arrangement with a lesser overall height.
  • a ground level entrance enclosure 70 from which intending viewers again are able to pass to chamber 46 via lift 66.
  • the viewers are able to return to ground level via stairway passage 72.
  • enclosure 70 extends to one side of enclosure 48, rather than being below the latter as is the case with enclosure 42.
  • a projector 74 is located to one side of enclosure 48, on enclosure 70, and projects its image cone horizontally to a mirror 76 positioned below screen 50 at an angle of 45 so as to reflect the image cone onto the underside of screen 50.
  • the image cone passes from projector 74 to mirror 76 through an opening 78 in frusto-conical housing 56.
  • a laterally extending frusto- conical housing can be provided between projector 74 and open ⁇ ing 78, although such is not shown.
  • FIG. 6 there is shown one form of screen suitable for use as screen 18 of Figure 1 or screen 50 of Figure 3 or 4.
  • a length 80 of translucent film or fabric material is held taut between a supply roller 82 thereof and a take-up roller 84.
  • Tensioning means (not shown) are operable on rollers 82,84 to maintain that tension longit ⁇ udinally of length 80.
  • side edges of length 80 are held by respective clamps 86 which are drawn outwardly by tensioning means (not shown) to tension length 80 in a transverse direction.
  • the arrangement illustrated is mounted such that a central portion of length 80 provides the required screen 18,50.
  • the respective tensioning means act to hold that portion taut and substantially flat.
  • the portion may be further tensioned by a support ring 88 therebelow, and downwardly biased tension rollers 90 below which length 80 passes.
  • the arrangement illustrated is such that if the screen portion of length 80 is soiled or damaged, a fresh length may be drawn from roller 82 by rotation of roller 84.
  • the material to comprise length 80 may be formed of overlapping layers 80a, 80b of film or fabric for added strength or to achieve a required degree of transluc- ency.
  • the screen may be of substantial diameter, such as from forty to sixty feet.
  • film or sheet material of such width generally is not available, it may be formed from narrower widths by joining, or by overlapping and bonding two or more thicknesses. In either case, the effect of join lines 81 pref ⁇ erably is minimised to the maximum extent possible, such as by lines 81 in each of layers 80a, 80b being offset from each other.
  • Figures 8 and 9 show an alternative form of screen. This is made up of a number of panels 92 of different configur ⁇ ation or size but which fit together in edge-to-edge relation to provide the required screen.
  • the individual panels may be formed of trans- lucent sheet or, as depicted in Figure 9, of transparent sheet having a covering of translucent film or fabric.
  • the sheet material at least in the sizes required, is such as to have sufficient stiffness as not to sag significantly when supported at its edges.
  • each frame member 94 has a basal strip 95 which supports the respective edges of successive panels 92, and an upstanding fin 96 which projects between those edges. Fins.96 are relative-ly thin so as to mini ⁇ mise the spacing between adjacent edges. At least some fins are provided with at least one ring 97 by which the frame structure comprised of members 94 can be suspended by cables 98 to position the screen at a required level.
  • the assembly of panels 92 is such that, in the event of one or more being obscured or damaged by an object falling onto it, a panel can be removed and, if need be, replaced.
  • the building 110 shown therein is suited to a front projection.
  • Buidling 110 is at ground level, and has a frust-conical support or frame 112 which carries a spiral viewing platform or walkway 114 therein.
  • Frame 112 extends below ground level and, across its base, there is provided a opaque and omnireflective screen 118 suitable for use with a front projection cinematic projector.
  • Screen 118 is shown as comprising a horizontal displsed sheet of suit- able material but, if required, building 110 and any necessary excavation at its base can be modified to incorporate a rear projection screen of the form shown in Figures 6 and 7 or Figures 8 and 9.
  • System 121 includes a projector "122, a snoot 123 and a baffle 125.
  • Projector 122 is positioned so that its image cone 124 is projected vertically down onto screen 118.
  • Snoot 123 is of circular horizontal section so as to extend fully around projector 122, and it extends below projector 122.
  • Baffle 125 is mounted within snoot 123 and closes the latter below projector 122 apart from a central opening 127 in baffle 125 sufficient to enable cone 124 to emerge.
  • the arrangement is such that cone 124, where it emerges from projector 122 is not visible to viewers at any position along walkway 114 while, at all such positions, viewers are able to see substantially the entire extent of screen 118 and images projected thereon; as shown by viewing angles ⁇ ', ⁇ ' ' for upper and lower viewing positions P 1 , P* 1 respectively.
  • Figures 11 to 14 show a frame structure 130 suitable for use in a building or construction as shown in Figure 1.
  • Structure 130 is of skeletal form and is hexagonal in horizontal section.
  • Structure 130 includes six support posts 132 and, for each of posts 132, a respective bracing member 134.
  • Posts 132 at their lower ends, are mounted on pivots 136 secured to base 138 so that a pair of posts 132 can be raised in parallel relationship from a horizontal position as shown in the plan view of Figure 11 and the side elevation of Figure 12, to the vertical position shown in Figure 13.
  • the top end of each brac ⁇ ing member 134 is pivotally connected to the top of its post 132 at pivot 139, and has a roller 140 at its lower end.
  • bracing members 134 With a pair of posts 132 in their horizontal position, the respective bracing members 134 also are horizontal and extend outwardly beyond posts 132, as shown in Figures 11 and 12.
  • a cross bar 142 extends between the top of the pair of posts 132 so that, in conjunction with the respective pivots 136, the posts are secured in parallel relation.
  • a similar cross-bar can be provided between members 134, such as adjacent rollers 140.
  • Each pair of posts 132 is raised in turn to its vertic ⁇ al position as shown in Figure 12.
  • a cable C is connected to cross-bar 142 and passes to a suitable pulling vehicle V, over a pivotable cable start support 144.
  • support 144 causes cable C to lift the top end of the pair of posts 132, with each post pivoting on its pivot 136, so that the posts are raised from their horizontal to their vertical position.
  • each roller 140 is drawn across the ground or support surface, with pivoting of each post 132 and its member 134 at the respec- tive pivots 139.
  • rollers 140 enter depressions in base 138, or are chocked, to hold the pair of posts in their vertical position.
  • the other two pairs of posts 132 then are similarly raised.
  • a stabilizer ring 146 With all posts 132 raised, a stabilizer ring 146 then is introduced within the posts and manipulated into a required horizontal initial position on base 138. At each of six locat- ions ri - ence a radially inwardly extending pocket 148 and a radially outwardly extending projection 150. In the required initial position for ring 146, each pocket 148 locates a respective post 132, while each projection is to the one side (the anti ⁇ clockwise side as shown in Figure 13) of a respective post 132.
  • Alternate posts 132 have a respective bracket 152 on its top end. As shown, each bracket has a vertical arm, by which it is mounted on the post by a respective thrust bear ⁇ ing 154, and a radially outwardly extending arm carrying a pulley 156. A respective cable 157 connected to a projection 150 passes over each pulley 156, around a lower pulley 158 to a coupling 160, via block and tackle cluster 162. Coupling 160 is connected to a pulling vehicle (not shown) to enable the vehicle to draw-out cables 157 and thereby raise ring 146 to the top of posts 132.
  • Respective pockets 148 provide clearance for each bracket 152 and its bearing 154 so that ring 146 can be raised slightly above the top of posts 132. Where above those posts, ring 146 is rotated slightly (clockwise in the view of Figure 13) to locate each projection 150 over the top of its post 132; such rotation being enabled by rotation of each bracket 152 on its bearing 154. The tension applied to cables 156 then is released to enable * a tapered cap member 164 on top of each post 132 to be received in a correspondingly shaped recess (not shown) in the under-surface of each projection 150.
  • Frame 12a_ preferably comprises three inverted U-shaped members 12b, with the ends of each secured to the top surface of diametrically opposed projections 150 and the central portions of the members inter-connected by a central boss or bolt 167. Frame 12a thus is raised with ring 146, by drawing cables 156.
  • helical walkway 168 is assembled within posts 132 and suspended from ring 146 and frame 12a.
  • Suspension cables or rods 170 preferably are attached to frame 12a_ prior to that frame being raised on ring 146; the cables-- or rods 170 hanging down after ring 146 and frame 12a are raised.
  • Walkway 168 is positioned within posts 132 and then lifted to a required position in which it is secured by cables or rods 170.
  • the weight of walkway (and viewers thereon) carried by frame 12a_ principally is transferred through posts 132 to base 138.
  • Structure 10 of Figure 1 has projection from below screen 18, and a similar arrangement is possible with structure 130 as thus far described.
  • an opening would be provided in base 138, within posts 132, with a screen being provided within that opening and a projector system being housed within an excavation below base 138.
  • structure 130 as further illustrated in Figure 14, has a housing 172 within ring 146 and frame 12a_, and raised with those components; housing 172 containing a projector operable to project an image
  • structure 130 is covered by a suitable light excluding cover or skin (not shown) .
  • cover will enable access to the inter ⁇ ior adjacent the lower end of walkway 168, to enable viewers for images projected onto screen 174 to move along the walkway to view the images from above.
  • Members 170 preferably are rods, and this preferment extends to either embodiments.
  • Each rod 170 may define a hook or be provided with a pivotable coupling at one or both of its ends and by which it is secured to frame 12a and/or walkway 168.
  • Such securement preferably allows limited movement of walkway 168, such as in a swaying movement, which serves to heighten viewers perception of an image projected on to screen 174.
  • Screen 174 in the arrangement of Figures 11 to 14, may be defined by a formed surface of base 138, or a member provided on base 138. Screen 174 may be defined by a smooth concrete surface. In Figures 11 to 14, screen 174 may be planar, or it may have a concave or convex viewing surface, and these variants apply to all other embodiments.
  • a concave surface can heighten the viewer's perception of the preferred form of projected image. Such heightened perception also can occur with a convex viewing surface, but to a lesser extent; the prime advantage of the convex surface being that it readily can be washed and drained, such as by an array of sprays provided therearound.

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Abstract

An entertainment or amusement structure, having a frame structure (12) extending upwardly from a base support (13), an elongate walkway (14) supported (16) by the frame structure (12), and a horizontally disposed cinema screen (18), at least a major portion of the walkway (14) being spaced above the screen (18) to enable images projected onto the screen to be seen by viewers on the walkway (14).

Description

ENTERTAINMENT OR AMUSEMENT STRUCTURE This invention relates to an entertainment or amusement structure. Footage of cinematic programmes which is filmed down¬ wardly, using a fish eye or wide angle lens, can create a dramatic visual impact. However, such impact is diminished in the conventional arrangement of projecting the footage onto a vertical screen, since the viewer is aware that the images on the vertical screen and being viewed horizontally in fact are a representation of what in reality extended horizontally below the taking camera. The present invention provides an entertainment or amusement structure which, when used with such footage, enables the footage to be viewed with .an enhanced visual impact. A structure according tp the invention has a frame structure extending upwardly from a base support, a walkway supported by the frame structure, and a horizontally disposed cinema screen; at least a major portion of the walkway being spaced above, and preferably at least in part over, the screen to enable images projected onto the screen to be seen by viewers on the walkway. The frame structure may be within a building or enclosure, such as at. least in part within a dome thereof. In such case, the frame structure may be an integral part of the building. Alternatively, the frame structure may be of skeletal form, and either independent of or partially braced by a covering building or enclosure. Where the frame structure is independent of the building or enclosure, the latter may simply comprise a covering for the frame structure and either self-supporting or at least partially supported by the frame structure. The walkway preferably has an arcuate form, or at least includes a portion of such form, so as to enable viewers thereon to move so as to view images projected onto the screen- from different angles. In one form, the walkway may extend around a substantially full circumference above the screen, such as in a circular or helical path.
The structure of the invention is particularly suited for viewing a cinematic programme filmed using a wide angle or fish eye lens. Such programme most conveniently is one filmed from above, using a camera with such lens; the camera, in producing such programme, for example being carried by a helicopter, glider or hot air balloon on which is preferably is movable on a gimbal mount, or carried by a sky-diver during a descent.
The walkway may be substantially rigidly supported by the frame structure. However, in a preferred arrangement, the walkway may be suspended by ropes, cables or rods secured to the frame structure. In such arrangement, the ropes, cables or rods can allow a controlled amount of movement of the walkway, such as a swaying movement, thereby tending to increase a feeling of realism for those viewing the images pro¬ jected onto the screen.
Where the programme is of the intended form, i.e. filmed from above using a fish eye or wide angle lens, it is highly desirable that this be projected onto the screen from below by a rear projection system. The structure according to the invention thus most preferably is adapted for rear pro¬ jection. For this, the screen necessarily is of a type suited to rear projection, while there is sufficient spacing below the screen for the projected beam to pass to the screen over the relatively longer projection path necessary for rear proj¬ ection compared with front projection. However, while that spacing can be such as to enable positioning of the rear proj¬ ection system below the screen, this is not essential. Thus, the projector system can be positioned to one side of, and at a lesser distance below, the screen; with an inclined mirror below the screen reflecting the projected beam upwardly to the screen.
The screen, where of a type suited to rear projection, thus is of a suitable translucent material. The screen may comprise at least one layer of such material held horizontally below the walkway by suitable support means. However, to minimise disruption to a programme in the event of an object being dropped onto the screen by a viewer on the walkway, the screen and/or its support means may be such that at least a portion of the screen can be replaced or such that the entire screen area can be replaced.
In a first arrangement, the screen may comprise a portion of an elongate length of translucent film or sheet material which is disposed horizontally between a supply roll of the material and a take-up roll. In that arrangement, the rolls may maintain tension on the length of material therebetween Also, edges of the length between the rolls may be outwardly tensioned. In the event of an object falling onto or through the screen, a fresh length of material can be drawn either man¬ ually or by motor driven rotation of the take-up roll.
In a second arrangement, the screen may consist of a plurality of panels fitted in edge-to-edge relation and held in such relation by support means. The panels
Figure imgf000005_0001
for example, be formed of relatively, stiff sheeting of translucent material, or of relative stiff sheeting of transparent material having a translucent fabric or film over one surface thereof. The support means may comprise a frame of skeletal form which supports the panels from below. The frame may comprise thin lengths of inter-connected metal strips with adjacent edges of successive panels being supported on a common strip. The arrangement preferably is such that, in the event of a panel being damaged by an object falling onto or through it, the dama¬ ged panel can simply be removed and replaced. While rear projection is highly desirable, front pro¬ jection can be employed. This is so, even for a cinema programme filmed in the above described manner.
Where front projection is employed, the building or construction of the invention differs^principally in that the projector system is one suited to front projection and is positioned above, rather than below the level of the screen. The screen itself may be of the above described forms, except that it will need to be opaque and omnireflective than translu¬ cent.
However, in an alternative arrangement, the screen can comprise a horizontally disposed surface defined by or on a basal structure of the building or construction.
Where the proejction is employed, the image cone projected by the projector system onto the screen of course is not visible to viewers on the walkway. This is beneficial in achieving the required enhanced visual impact. However, with front projection, viewers can be aware of the image cone and while a substantially enhanced visual impact still is achieved, it is desirable that the overall arrangement of the building be such that viewer awareness of the image cone is reduced as much as possible. For this purpose, the front pro¬ jector system preferably is substantially concealed so that light source of the cone emerges from the system at a location •which is not directly visible to viewers from any position on the walkway. The projector system preferably is located above at least a major portion of the walkway. Most preferably it is located within a snoot or shroud; the latter, for example, being one which projects below the lower extent of the projector system.
In order that the invention may be further understood, description now is directed to the accompanying drawings in which:
Figure 1 shows a schematic, exploded view of an entertainment or amusement structure;
Figure 2 shows a building or construction incorporat¬ ing a structure as in Figure 1;
Figure 3 is a vertical sectional view showing detail of the building or construction of Figure 2; Fi ure 4 shows, in a view similar to that of Fi ure 3, detail of an alternative building or construction;
Figure 5 is a sectional view taken on line V-V of Figure 3;
Figures 6 and 7 show detail of one form of screen;
Figures 8 and 9 show detail of another form of screen. Figure 9 being taken on line IX-IX of Figure 8;
Figure 10 shows an alternative form of building or construction; and
Figures 11 to 14 show one form of structure for a building or construction such as shown in Figure 1, and its mode of erection.
The structure 10 of Figure 1 includes a main support frame 12 from which a spiral viewing platform or walkway 14 is suspended by cables, wires or rods 16. Below platform 14, there is a'horizontally disposed translucent screen 18 which may be secured to spacer collar 20. Below screen 18 there is a projector arrangement and, while three alternative arrange¬ ments A, B and C are depicted, only one of these normally would be necessary. Arrangement A has a projector 22 positioned centrally below screen 18 to project an image cone 24, having a vertical axis Y, toward screen 18. Arrangements B and C are similar and a choice between these will depend on the extent of avail¬ able space below and to the side of screen 18, as well as costs involved in providing an associated, respective reflecting mirror 26,28. Arrangements B, C have respective projectors 30,32 which project respective image cones 34,36 with horizontal axes X,X' toward axis Y; the light of the cones then being reflected toward screen 18, as depicted by the portion of cone 24 above each of respective mirrors 26,28 set at 45° to axis Y. The lateral spacing of projectors 30,32 below screen 18, and their spacing laterally of axis Y, enable use of a smaller mirror 26 compared with mirror 28.
Frame 12 is shown as simply comprising an inverted U-shaped member mounted at each end on convenient base 13. However, it generally would be necessary to have two or more such members, each in a respective vertical plane and joined together in a rigid frame structure, with walkway 14 being susp¬ ended from each of those members by cables 16 or the like. Also, walkway 14 can be of forms other than the helical form illustrated.
Base 13 is merely schematic' In one arrangement, it depicts a ground level support surface with all of structure 10 below base 13 being in an excavation. In that arrangement, the excavation would be appropriately lined; with there being - an excavated entrance enabling access to the lower end of plat¬ form 14. In an alternative arrangement, base 13 may be a roof structure of a building, with at platform 14 being suspended through an aperture in the roof and at least a portion of struct- ure 10 below the roof structure being above ground level. In still further arrangements, base 13 may comprise a column struc¬ ture such as shown in Figure 2, or a skeletal frame structure, such as shown in Figures 10 to 12. However, in each of these arrangements, frame 12 is covered and the whole periphery of structure 10 is enclosed, in a manner enabling the exclusion of external light when required.
Figures 2 and 3 show a building or construction 40 for housing a structure, such as in Figure 1. Building 40 has a ground level building enclosure 42 providing an entrance foyer, Extending upwardly from enclosure 42 there are three hollow columns 44. Two of columns 44 define lift shafts, with a respective lift movable in each being accessible from within enclosure 42 and from within an annular outer peripheral chamber 46 of an upper building enclosure 48 supported on the upper ends of columns 44.
Upper enclosure 48 has within peripheral chamber 46 thereof a horizontally disposed translucent screen 50. A cinematic programme is able to be projected onto screen 50 by a below ground projector 52. The latter is laterally offset from a vertical axis of construction 40, and projects horizont¬ ally toward the axis; with the projected beam being reflected along that axis toward screen 50 by 45 mirror 54.' In order to minimise the degrading effect of external light, the project¬ ed beam passes along a frusto-conical housing 56 e-xtending between enclosures 42,48.
On upper enclosure 48, there is provided a hemis¬ pherical dome 58, with a frame structure 60 within dome 58 being supported by enclosure 48. Also within dome 58, there is a helical walkway 62 suspended from frame structure 60 by cables 64. The overall arrangement is such that intending viewers of a programme projected onto screen 50 are able to enter enclo¬ sure 42, be elevated by a lift 66 in one column 44 to portion 46 of enclosure 48. From enclosure 48, the viewers then are able to walk onto the lower end of walkway 62 and view the programme from that vantage point. While not shown, the lower end of walkway 62 may extend down into chamber 46 of enclosure 48, or there may be a connecting stairway. Alternatively, movement may be in the reverse direction, with viewers passing via a stairway from chamber 46 of enclosure 48, to the upper end of walkway 62. The arrangement is such that viewers are able to move around walkway 62. Most preferably, viewers pass onto walkway 62 at one end and exit therefrom via the other end. On return¬ ing to chamber 46, viewers may return to ground level via lift 68 in another of columns 44.
The foregoing description of Figure 3 is with refer¬ ence to an arrangement having relatively tall columns 44. However, Figure 4 illustrates an alternative arrangement with a lesser overall height. In the alternative arrangement of Figure 4, there is a ground level entrance enclosure 70, from which intending viewers again are able to pass to chamber 46 via lift 66. However, on exiting from chamber 46, the viewers are able to return to ground level via stairway passage 72. As shown, enclosure 70 extends to one side of enclosure 48, rather than being below the latter as is the case with enclosure 42. Also, a projector 74 is located to one side of enclosure 48, on enclosure 70, and projects its image cone horizontally to a mirror 76 positioned below screen 50 at an angle of 45 so as to reflect the image cone onto the underside of screen 50.
The image cone passes from projector 74 to mirror 76 through an opening 78 in frusto-conical housing 56. For the purpose of eliminating incidental light, a laterally extending frusto- conical housing can be provided between projector 74 and open¬ ing 78, although such is not shown.
With reference to Figure 6, there is shown one form of screen suitable for use as screen 18 of Figure 1 or screen 50 of Figure 3 or 4. In this a length 80 of translucent film or fabric material is held taut between a supply roller 82 thereof and a take-up roller 84. Tensioning means (not shown) are operable on rollers 82,84 to maintain that tension longit¬ udinally of length 80. Also, side edges of length 80 are held by respective clamps 86 which are drawn outwardly by tensioning means (not shown) to tension length 80 in a transverse direction.
The arrangement illustrated is mounted such that a central portion of length 80 provides the required screen 18,50. The respective tensioning means act to hold that portion taut and substantially flat. However, the portion may be further tensioned by a support ring 88 therebelow, and downwardly biased tension rollers 90 below which length 80 passes.
The arrangement illustrated is such that if the screen portion of length 80 is soiled or damaged, a fresh length may be drawn from roller 82 by rotation of roller 84.
As shown in Figure 7, the material to comprise length 80 may be formed of overlapping layers 80a, 80b of film or fabric for added strength or to achieve a required degree of transluc- ency. As indicated by the overall scale implicit in each of Figures 1 to 4, the screen may be of substantial diameter, such as from forty to sixty feet. As film or sheet material of such width generally is not available, it may be formed from narrower widths by joining, or by overlapping and bonding two or more thicknesses. In either case, the effect of join lines 81 pref¬ erably is minimised to the maximum extent possible, such as by lines 81 in each of layers 80a, 80b being offset from each other.
Figures 8 and 9 show an alternative form of screen. This is made up of a number of panels 92 of different configur¬ ation or size but which fit together in edge-to-edge relation to provide the required screen. The individual panels, of which three distinct forms are illustrated, may be formed of trans- lucent sheet or, as depicted in Figure 9, of transparent sheet having a covering of translucent film or fabric. In either case, the sheet material, at least in the sizes required, is such as to have sufficient stiffness as not to sag significantly when supported at its edges.
As shown in Figure 9, the adjacent edges of circumfer- entially and radially adjacent panels 92 are supported by relatively rigid frame members 94, such as of extruded metal. The members 94 are inter-connected, such as by welding, to define a skeletal frame structure corresponding to the network of adjacent panel edges as seen"in Figure 8. Each frame member 94 has a basal strip 95 which supports the respective edges of successive panels 92, and an upstanding fin 96 which projects between those edges. Fins.96 are relative-ly thin so as to mini¬ mise the spacing between adjacent edges. At least some fins are provided with at least one ring 97 by which the frame structure comprised of members 94 can be suspended by cables 98 to position the screen at a required level.
The assembly of panels 92 is such that, in the event of one or more being obscured or damaged by an object falling onto it, a panel can be removed and, if need be, replaced.
With reference to Figure 10, the building 110 shown therein is suited to a front projection. Buidling 110 is at ground level, and has a frust-conical support or frame 112 which carries a spiral viewing platform or walkway 114 therein. Frame 112 extends below ground level and, across its base, there is provided a opaque and omnireflective screen 118 suitable for use with a front projection cinematic projector. Screen 118 is shown as comprising a horizontal displsed sheet of suit- able material but, if required, building 110 and any necessary excavation at its base can be modified to incorporate a rear projection screen of the form shown in Figures 6 and 7 or Figures 8 and 9.
Above screen 118, there is a front projector system 121. The latter is mounted below a roof 113 closing the top of frame 112, above at least the major vertical extent of walk¬ way 114. System 121 includes a projector "122, a snoot 123 and a baffle 125. Projector 122 is positioned so that its image cone 124 is projected vertically down onto screen 118. Snoot 123 is of circular horizontal section so as to extend fully around projector 122, and it extends below projector 122. Baffle 125 is mounted within snoot 123 and closes the latter below projector 122 apart from a central opening 127 in baffle 125 sufficient to enable cone 124 to emerge. The arrangement is such that cone 124, where it emerges from projector 122 is not visible to viewers at any position along walkway 114 while, at all such positions, viewers are able to see substantially the entire extent of screen 118 and images projected thereon; as shown by viewing angles θ', θ' ' for upper and lower viewing positions P1, P*1 respectively.
Figures 11 to 14 show a frame structure 130 suitable for use in a building or construction as shown in Figure 1. Structure 130 is of skeletal form and is hexagonal in horizontal section.
Structure 130 includes six support posts 132 and, for each of posts 132, a respective bracing member 134. Posts 132, at their lower ends, are mounted on pivots 136 secured to base 138 so that a pair of posts 132 can be raised in parallel relationship from a horizontal position as shown in the plan view of Figure 11 and the side elevation of Figure 12, to the vertical position shown in Figure 13. The top end of each brac¬ ing member 134 is pivotally connected to the top of its post 132 at pivot 139, and has a roller 140 at its lower end.
With a pair of posts 132 in their horizontal position, the respective bracing members 134 also are horizontal and extend outwardly beyond posts 132, as shown in Figures 11 and 12. A cross bar 142 extends between the top of the pair of posts 132 so that, in conjunction with the respective pivots 136, the posts are secured in parallel relation. A similar cross-bar can be provided between members 134, such as adjacent rollers 140.
Each pair of posts 132 is raised in turn to its vertic¬ al position as shown in Figure 12. As shown therein, a cable C is connected to cross-bar 142 and passes to a suitable pulling vehicle V, over a pivotable cable start support 144. As vehicle V moves from its position shown in solid line to successive positions to the right in Figure 12, support 144 causes cable C to lift the top end of the pair of posts 132, with each post pivoting on its pivot 136, so that the posts are raised from their horizontal to their vertical position. Simultaneously, each roller 140 is drawn across the ground or support surface, with pivoting of each post 132 and its member 134 at the respec- tive pivots 139. As the pair of posts 132 assume their vertical position, rollers 140 enter depressions in base 138, or are chocked, to hold the pair of posts in their vertical position. The other two pairs of posts 132 then are similarly raised.
With all posts 132 raised, a stabilizer ring 146 then is introduced within the posts and manipulated into a required horizontal initial position on base 138. At each of six locat- ions ri - ence a radially inwardly extending pocket 148 and a radially outwardly extending projection 150. In the required initial position for ring 146, each pocket 148 locates a respective post 132, while each projection is to the one side (the anti¬ clockwise side as shown in Figure 13) of a respective post 132.
Alternate posts 132 have a respective bracket 152 on its top end. As shown, each bracket has a vertical arm, by which it is mounted on the post by a respective thrust bear¬ ing 154, and a radially outwardly extending arm carrying a pulley 156. A respective cable 157 connected to a projection 150 passes over each pulley 156, around a lower pulley 158 to a coupling 160, via block and tackle cluster 162. Coupling 160 is connected to a pulling vehicle (not shown) to enable the vehicle to draw-out cables 157 and thereby raise ring 146 to the top of posts 132.
Respective pockets 148 provide clearance for each bracket 152 and its bearing 154 so that ring 146 can be raised slightly above the top of posts 132. Where above those posts, ring 146 is rotated slightly (clockwise in the view of Figure 13) to locate each projection 150 over the top of its post 132; such rotation being enabled by rotation of each bracket 152 on its bearing 154. The tension applied to cables 156 then is released to enable*a tapered cap member 164 on top of each post 132 to be received in a correspondingly shaped recess (not shown) in the under-surface of each projection 150.
Location of cap members 164 within projections 150, and securement of rollers 140, provides a stable and strong structure. However, prior to the pairs of posts 132 being riased, diagonal wires or rods 166 are fitted to increase the overall stability and strength. While reference is made above only to ring 146, the latter preferably is fitted (prior to it being raised) with a frame similar to frame 12 of Figure 1. Such frame is shown in Figure 13 in broken outline and identified by reference numberal 12a. Frame 12a_ preferably comprises three inverted U-shaped members 12b, with the ends of each secured to the top surface of diametrically opposed projections 150 and the central portions of the members inter-connected by a central boss or bolt 167. Frame 12a thus is raised with ring 146, by drawing cables 156.
With ring 146 in position, helical walkway 168 is assembled within posts 132 and suspended from ring 146 and frame 12a.. Suspension cables or rods 170 preferably are attached to frame 12a_ prior to that frame being raised on ring 146; the cables-- or rods 170 hanging down after ring 146 and frame 12a are raised. Walkway 168 is positioned within posts 132 and then lifted to a required position in which it is secured by cables or rods 170. The weight of walkway (and viewers thereon) carried by frame 12a_ principally is transferred through posts 132 to base 138.
Structure 10 of Figure 1 has projection from below screen 18, and a similar arrangement is possible with structure 130 as thus far described. For this, an opening would be provided in base 138, within posts 132, with a screen being provided within that opening and a projector system being housed within an excavation below base 138. However, structure 130, as further illustrated in Figure 14, has a housing 172 within ring 146 and frame 12a_, and raised with those components; housing 172 containing a projector operable to project an image When it has been erected as thus far described, structure 130 is covered by a suitable light excluding cover or skin (not shown) . Such cover will enable access to the inter¬ ior adjacent the lower end of walkway 168, to enable viewers for images projected onto screen 174 to move along the walkway to view the images from above.
Members 170 preferably are rods, and this preferment extends to either embodiments. Each rod 170 may define a hook or be provided with a pivotable coupling at one or both of its ends and by which it is secured to frame 12a and/or walkway 168. Such securement preferably allows limited movement of walkway 168, such as in a swaying movement, which serves to heighten viewers perception of an image projected on to screen 174.
Screen 174, in the arrangement of Figures 11 to 14, may be defined by a formed surface of base 138, or a member provided on base 138. Screen 174 may be defined by a smooth concrete surface. In Figures 11 to 14, screen 174 may be planar, or it may have a concave or convex viewing surface, and these variants apply to all other embodiments. A concave surface can heighten the viewer's perception of the preferred form of projected image. Such heightened perception also can occur with a convex viewing surface, but to a lesser extent; the prime advantage of the convex surface being that it readily can be washed and drained, such as by an array of sprays provided therearound.
Finally, it is to be understood that various alterat¬ ions, modifications and/or additions may be introduced into the constructions and arrangements of parts previously described

Claims

THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS:
1. An entertainment or amusement structure, having a frame structure extending upwardly from a base support, an elong¬ ate walkway supported by the frame structure, and a horizontally disposed cinema screen; at least a major portion of the walkway being spaced above the screen to enable images projected onto the screen to be seen by viewers on the walkway.
2. A structure as defined in claim 1, wherein the frame structure is within a building or enclosure.
3. A structure as defined in claim 1, wherein the frame structure is within a building or enclosure and is an integral part thereof.
4. A structure as defined in claim 1, wherein the frame structure is within a building or enclosure and is structurally independent thereof.'
5. A structure as defined in any one of claims 1 to 4, wherein at least a portion of said walkway is of elongate arcuate form so as to enable viewers thereon to move so as to view images projected onto the screen from different angles.
6. A structure as defined in claim 5, wherein said walk¬ way extends circumferentially fully around said screen.
7. A structure as defined in claim 6, wherein said walk¬ way is of helical form.
8. A structure as defined in any one of claims 1 to 7, wherein said walkway is substantially rigidly supported by said frame structure.
9. A structure as defined in any one of claims 1 to 7, wherein said walkway is suspended by ropes, cables or rods secured to the frame structure.
10. A structure as defined in claim 9 wherein i ro e rods or cables allow a controlled amount of movement of the walkway as viewers walk along said walkway.
11. A structure as defined in any one of claims 1 to 10, including a projector mounted below said screen and adapted to generate said images on said screen by direct or reflected rear projection.
12. A structure as defined in any one of claims 1 to 10, including a projector mounted above said screen and adapted to generate said images on said screen by front projection.
13. A structure as defined in any one of claims 1 to 12, wherein said structure is enclosed at least to an extent that viewers on said walkway are substantially isolated from light external to said structure.
14. A structure as defined in claim 11, wherein at least above said screen said structure is enclosed- to an extent that viewers on said walkway are substantially isolated from light external to said structure, the structure including below said screen a housing which isolates a cone of image light generated by said projector from such external light.
15. A structure as defined in any one of claims 1 to 14, wherein said screen comprises a portion of a film or sheet material, said portion being disposed between a supply roll of the material and a take-up roll such that, as required, a further portion of the material can be used as the screen by drawing the material from the supply roll to the take-up roll.
16. A structure as defined in any one of claims 1 to 14, wherein said screen is defined by a plurality of panels fitted in edge-to-edge relation and held in such relation by support means.
17. A structure as defined in claim 16, wherein said support means enables replacement of said panels.
PCT/AU1986/000051 1985-03-05 1986-03-05 Entertainment or amusement structure WO1986005114A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
DK525186A DK525186A (en) 1985-03-05 1986-11-04 ENTERTAINMENT OR ENTERTAINMENT PLANT

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
AUPG956785 1985-03-05
AUPG9567 1985-03-05
AUPG962285 1985-03-08
AUPG9622 1985-03-08
AU54319/86A AU577681B2 (en) 1985-03-05 1986-03-05 Entertainment structure

Publications (1)

Publication Number Publication Date
WO1986005114A1 true WO1986005114A1 (en) 1986-09-12

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Application Number Title Priority Date Filing Date
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0534712A1 (en) * 1991-09-23 1993-03-31 Hughes Aircraft Company Multiple participant moving vehicle shooting gallery

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Publication number Priority date Publication date Assignee Title
US1844852A (en) * 1929-05-13 1932-02-09 Harvey Stanley Thomas Amusement device
US2176554A (en) * 1937-05-27 1939-10-17 Hardy Wilbur Periscope
US2304434A (en) * 1928-09-03 1942-12-08 Ibm Projecting device
US2380837A (en) * 1943-04-27 1945-07-31 Gray Thomas Curtis Motion picture theater
FR1004971A (en) * 1949-11-15 1952-04-04 New layout of theaters for the projection of films vertically on a horizontal screen or in an inclined plane
EP0015404A1 (en) * 1979-03-02 1980-09-17 Trepel AG Mobile theatre

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Publication number Priority date Publication date Assignee Title
US2304434A (en) * 1928-09-03 1942-12-08 Ibm Projecting device
US1844852A (en) * 1929-05-13 1932-02-09 Harvey Stanley Thomas Amusement device
US2176554A (en) * 1937-05-27 1939-10-17 Hardy Wilbur Periscope
US2380837A (en) * 1943-04-27 1945-07-31 Gray Thomas Curtis Motion picture theater
FR1004971A (en) * 1949-11-15 1952-04-04 New layout of theaters for the projection of films vertically on a horizontal screen or in an inclined plane
EP0015404A1 (en) * 1979-03-02 1980-09-17 Trepel AG Mobile theatre

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0534712A1 (en) * 1991-09-23 1993-03-31 Hughes Aircraft Company Multiple participant moving vehicle shooting gallery

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