CA2531113A1 - Performance riser assembly - Google Patents

Abstract

A performance riser assembly including a modular riser stage that can be assembled in multiple configurations to meet the needs of many musical performance groups and multiple venues. The invention also includes modular performance fixtures that can be assembled onto the riser stage so that the performance fixtures do not contact the platform and that can be configured in many different combinations to meet various performance needs.

Description

PERFORMANCE RISER ASSEMBLY
FIELD OF THE INVENTION
The present invention relates to the field of equipment used to stage musical performances and rehearsals.
BACKGROUND OF THE INVENTION
Many fixtures in addition to musical instruments are required when staging a musical performance by a band or other musical group that has many performers.
All but the most informal performances require seating for the musicians, music stands and instrument stands. More formal performances often utilize other perfornance fixtures such as acoustical shells, risers and platforms. In addition, musicians may use various accessories such as picks, bows, spare reeds and mutes during a performance. Many of these items are fragile and subject to damage if mishandled. Others are small and easily misplaced if they lack a designated storage location.
Particularly, when a music director is working with young musicians in training, such as school children or high school students, the possibility of a mishap with an instrument or accessory increases since young musicians do not exhibit the same degree of care with instruments or accessories, they may be more easily distracted and are more likely to be forgetful than are more mature performers.
Many performance fixtures such as music stands are somewhat irregular in shape and despite prior art efforts to make them foldable, collapsible or stackable, they can sometimes be difficult to store. School budgets are often tight and the purchase, maintenance and storage of large numbers of performance fixtures can create a strain both financially and in terms of space utilization. Further, music stands are often kicked or knocked over when performers are shuffling to and from their seats.
Traveling musical groups often must transport performance fixtures with them as they travel. In this case the need for organization and compact storage is very important. It is also helpful to have as much consistency as possible in packing, unpacking and arrangement of the fixtures as the traveling performance group moves from venue to venue. In addition, consistency in setup between a rehearsal and performance venue even within the same building (such as a high school having a rehearsal room and an auditorium) avoids distractions that may attend different stage configurations and seating.
A school may have a number of different groups such as senior band, junior band, male chorus and others, each group requiring a different optimal setup for performing.
Instrumental groups may require risers, instrument stands, music stands, seating and, optionally an acoustical shell, while a choral group may require only risers and an acoustical shell.
Exemplary acoustical shells are disclosed in U.S. Patents 3,908,787, 4,278,145 and 5,651,405. Exemplary music stands are disclosed in U.S. Patents Des.
388,262, 4,650,145 and 5,833,199. Exemplary chairs and instrument stands are disclosed in U.S.
Patents Des.
297,890, 3,193,325 and 4,306,750. Exemplary stages and risers are disclosed in U.S. Patents 6,006,680, 6,729,075, 6,598,351, 5,848,501 and 5,381,873.
It would be a great benefit to musical performance groups and musical performance director to have a system that would accommodate the above needs and simplify the staging of group musical performances.

SUMMARY OF THE INVENTION
The present invention meets many of the above discussed needs. The performance riser assembly includes a modular riser stage that can be assembled in multiple configurations to meet the needs of many musical performance groups and multiple venues. The invention also includes modular performance fixtures that can be configured in many different combinations to meet various performance needs.
The modular performance fixtures include, for example, seating, music stands, musical instrument holders, musical instrument accessory holders, sheet music holders, supports for instruments such as keyboards, percussion instruments or xylophones. In addition, modular performance fixtures can include modular acoustical shells that can be selectively attached to the modular riser stage.
In an exemplary embodiment, the modular fixtures may be hung from an upright railing that separates the multiple riser levels.
The performance riser assembly may include a riser section including a platform located on or above the floor and a railing including at least one substantially horizontal member at the front of the platform and a second railing including a substantially horizontal member also located at the front of the platform; and a performance fixture removably coupled to at least one of the horizontal members. The performance fixture is supported above and not in contact with the platform. The performance fixtures rnay include but are not limited to seating members, music stands, musical instrument holders, musical instrument accessory holders, sheet music holders, instrument supports and acoustical shell panels.
The seating member may be foldable so that, for example, the seat pan is foldable to a substantially vertical position near the seat back.

The invention also includes a method for arranging a performance group and musical instruments using the performance riser assembly. The method includes arranging the riser sections to be adjacent to one another in stair step fashion and coupling at least one performance fixture to at least one of the horizontal members of riser section. It is notable that the performance fixture is not in contact with the platform when it is connected to the railing or railings.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. I is a front perspective view of a performance riser assembly in accordance with the present invention;
Fig. 2 is side perspective view of a performance riser assembly in accordance with the present invention;
Fig. 3 is a side elevational view of a performance riser assembly in accordance with the present invention;
Fig. 4 is a top plan view of a performance riser assembly in accordance with the presentinvention;
Fig.S is a front elevational view of a performance riser assembly in accordance with the present invention;
Fig. 6 perspective view of a performance riser assembly in accordance with the present invention with no performance fixtures;
Fig. 7 is a perspective view of a grille that may be used in construction of a railing for a riser section;

Fig. 8 is a perspective view of components of a grill that may be used in construction of a railing;
Fig. 9 is a perspective view of a bracket that may be used to incorporate a grille into a railing;
Fig. 10 is a perspective view of a bracket assembled onto a vertical member of a railing;
Fig. 11 is a perspective view of a bracket assembled onto a vertical member of a railing;
Fig. 12 is a perspective view of a bracket assembled onto a vertical member of a railing;
Fig. 13 is a rear perspective view of one type of standardized bracket that may be used to couple a performance fixture to one or more horizontal members of a railing;
Fig. 14 is a front perspective view of one type of standardized bracket that may be used to attach a performance fixture to one or more horizontal members of a railing;
Fig. 15 is a perspective view of an instrument holder capable of being assembled onto a railing in accordance with the present invention having a keyboard set thereupon;
Fig. I6 is a side plan view of the instrument holder of Fig. I S;
Fig. 17 is a front perspective view of an acoustical shell capable of being assembled onto a railing in accordance with the present invention;
Fig. 18 is a side plan view of an instrument holder for a string instrument capable of being assembled onto a railing in accordance with the present invention;
Fig. I9 is a perspective view of an instrument holder for a string instrument capable of being assembled onto a railing in accordance with the present invention;
S

Fig. 20 is a perspective view of an instrument holder for percussion instruments, such as drums, capable of being assembled onto a railing in accordance with the present invention;
Fig. 21 is a perspective view of an instrument holder for a string instrument, such as a guitar, capable of being assembled onto a railing in accordance with the present invention;
Fig. 22 is a perspective view of an instrument holder for a string instrument capable of being assembled onto a railing in accordance with the present invention;
Fig. 23 is a perspective view of a seating member capable of being assembled onto a railing in accordance with the present invention;
Fig 24 is a perspective view of a seating member capable of being assembled onto a railing in accordance with the present invention having an alternative seat pan conf guration;
Fig. 25 is a rear perspective view of a seating member capable of being assembled onto a railing in accordance with the present invention showing standardized brackets for coupling to two horizontal members on the railing;
Fig. 26 is a perspective view of a seating member capable of being assembled onto a railing in accordance with the present invention further depicting a footrest;
Fig. 2'7 is a front perspective view of a seating member installed on a railing in accordance with the present invention and depicting structure for allowing adjustment of the height of the seating member relative to the platform;
Fig. 28 is a rear perspective view of a seating member installed on a railing in accordance with the present invention and depicting structure for allowing adjustment of the height of the seating member relative to the platform;

Fig. 29 is a front perspective view of a music stand capable of being assembled onto a railing in accordance with the present invention depicting structure for allowing adjustment of the height of the seating member relative to the platform;
Fig. 30 is a side plan view of a music stand capable of being assembled onto a railing in accordance with the present invention depicting structure including a pivot joint for allowing adjustment of the height of the seating member relative to the platform;
Fig. 31 is a front perspective view of a music stand capable of being assembled onto a railing in accordance with the present invention having two sets of standardized brackets (of which only one is visible in this view} for coupling to a railing in accordance with the present invention; and Fig. 32 is a side plan view of a music stand capable of being assembled onto a railing in accordance with the present invention and depicting two pivot joints allowing for adjustment of the position of the stand relative to the railing and to the floor.
DETAILED DESCRIPTION OF THE INVENTION
Referring to Figs. 1-5, the performance riser assembly 30 of the present invention generally includes at least one modular riser section 12 and one or more performance fixtures 14.
Riser section 12 includes platform 16 and railings 18. Platforms 16 provide a level surface for performers to stand or to reach their seats, are modular and riser sections can be constructed with platforms at a plurality of levels, though one or more platforms in.a riser assembly may be at or near the level of the floor upon which they rest.
Typically in a riser assembly, riser sections of varying heights are arranged so that each of the platforms 16 are deployed in stair step fashion ascending from the frontmost riser section or vertically offset from each other, but this arrangement should not be considered limiting.
Railings 18 are located at the front and rear of platforms 16. It should be noted that a railing 18 at the back of a lower platform 16 in a riser assembly may serve as the railing at the front of the next higher platform 16. The frontmost railing 18 may support a concealing panel, or a sign bearing indicia such as the band name, logo or other message.
The frontmost railing 18 may also be lower in height than other railings 18.
If a more robust or semi-permanent installation of performance riser assembly is desired, railings 18 may be anchored to the floor, for example by securing railings 18 into a receiver in the floor. Such a reliever may comprise a relief, pocket, tube or similar structure embedded in the floor. Railings 18 may also be semi-permanently secured with the use of fasteners. In the case of installing performance riser assembly 10 on a concrete floor, acceptable fasteners may include concrete anchors, or other fasteners apparent to one skilled in-the art.
Referring now to Fig. 6, railings 18 may comprise at least two vertical members 60 that support at least one horizontal member 62 on which performance fixtures 14 may be hung, usually including at least two horizontal members 62. Vertical members 14 may be located at or near the front corners or the rear corners of the platform.
Vertical members may also be placed along the front or rear edges between corners. Horizontal members 62 may be placed a standard distance apart vertically to correspond to the spacing of standardized brackets 38 on performance fixtures 14 that will be employed with the riser assembly of the invention.
The standard distance may be about ten inches. Horizontal members 62 will typically extend across the entire front edge or entire rear edge of a platform, thereby facilitating maximum flexibility of placement of performance fixtures on a riser section.

Standardized brackets 38 are designed to engage horizontal members 62 of railings 18 and provide a stable connection between the performance fixture and one or more horizontal members. Standardized brackets 38 may be formed as an integral portion of a performance fixture 14. In an alternative embodiment, standardized brackets may be added onto a performance fixture during construction either as a separate part or as part of an attachment construct having two or more standardized brackets.
Additional horizontal members may also be added to railings to allow for performance fixtures 14 to be placed on railing 18 at different heights. These additional horizontal members may also accommodate the need to place diverse performance fixtures 14 on railing 18 when it is being used simultaneously as a rear railing for a first riser section and a front railing for a second riser section located behind the first riser section. It will be appreciated that the need for additional horizontal members may occur more often where the second riser section is located higher off the floor than the first riser secEion.
In one embodiment, the vertical members 60 and one or more horizontal members 62 are formed from a single piece of material such as a metal rod or hollow metal pipe.
Horizontal members b2 may also be welded or otherwise permanently affixed to vertical members 60. Horizontal members 62 may also be securably adjustable along a vertical member 60 and optionally removable thereby allowing flexibility in the placement of the horizontal members 62 relative to the vertical members 60. In use, a pair of vertically adjustable horizontal members 62 may be moved to a position where they are placed at the standard distance relative to each other. The structures providing for connections between vertically adjustable horizontal members 62 and vertical members 60 must reliably hold the horizontal member in the desired position and may include various clamps or may employ pegs deployed in holes defined by the i vertical members 60 on which horizontal members 62 may rest.
In a further embodiment of the present invention depicted in Figs. 7-14, railing 18 comprises a frame 70 supporting a grille 72, with grille 72 having a plurality of vertical grille members 74 and a plurality of horizontal grille members 76. The structure of grille 72 is similar to that disclosed in U.S. Patent Application 101990,277 to Hothum et al., which is hereby incorporated by reference. Grille 72 may be coupled to frame 70 with a plurality of brackets 78.
Grille 72 may be constructed from welded metal rod, square stock, or flat bar.
Grille 72 may also be constructed from injection molded plastic. The size and spacing of vertical grille members 74 and horizontal grille members 76 may be varied depending on the load carrying requirements of grille 72. For instance, close spacing of vertical grille members 74 and horizontal grille members 76 will increase load carrying capacity of grille 72, as will the use of large cross-sectioned materials for grille 72.
A bracket 78 may be use to couple grille 72 to frame 70. Bracket 78 may be secured to frame 70 with one or more fasteners 80. Performance fixtures 14 may be coupled to grille 72 using specialized hangers 82. Hangers 82 comprise a body 84 and a plurality of engagement members 86 disposed perpendicular to the body 84. Hangers 82 are adapted to engage the horizontal grille members 76 of grille 72.
Referring now to Figs, 15-32, performance fixtures 14 may include seating members 20, music stands 22, musical instrument holders 24, musical instrument accessory holders 26, sheet music holders 28, instrument supports 30 and acoustical shell panels 32.
Instrument storage cabinets, racks, or shelves may be supported on the back of a rearmost railing 18 of a riser assembly 10.

Instrument supports 30 may include keyboard supports 34 that may be capable of holding keyboards of varying sizes and may further be capable of holding keyboards at various heights, as seen, for example, in Figs. IS-16. Instrument supports 30 may also include percussion instrument supports 36 such as for a bass drum, a snare drum or a gong, as seen, for example, in Fig. 20. Instruments may be releasably coupled to instrument supports 30, or instruments may be permanently coupled to instrument supports 30. Structures allowing for adjusting the height of instrument supports, as well as music stands, may include the use of gas struts, or various mechanical structures that may be releaseably secured with clamps, pins, or the like.
In an exemplary embodiment, performance fixtures 14 may be adapted to be removably connectable to the horizontal members of railings 18 by standardized brackets 38 defining a space in which horizontal members of railings 18 may be received within the standardized bracket. Railings 18 thus support performance fixtures 14, such that performance fixtures 14 are not in communication with platform 16 or the floor.
Standardized brackets may be formed as a part of a performance fixture or may be assembled as a separate structure and attached to a performance fixture.
Performance fixtures 14 may be coupled to railings 18 in a variety of ways.
For instance, it may be desirable for performance fixtures 14 to be quickly and easily removable from railings 18, and in such a case standardized brackets 38 of performance fixtures 14 may simply rest on railings 18. Alternatively, it may be desirable for performance fixtures 14 to be mare securely coupled to railings 18, and standardized brackets 38 of performance fixtures 14 may therefore include a means for securely yet removably attaching performance fixtures 14 to railings 18.
i1 Such securely removable means for attachment may employ threaded screws, bolts or the like that extend through the standardized brackets 38 and may be advanced to securely engage a horizontal member 62. Various clamps that apply pressure to a horizontal member 62 may also be employed in a standardized bracket 38. Mechanisms that allow a portion of standardized bracket 38 to swing back toward the performance fixture 14 and to come into contact with a lower surface of a horizontal member 62 thus completely or almost completely surrounding the horizontal member may also be employed.
It will be appreciated that performance fixtures 14 having a lower center of gravity with respect to the standardized brackets 38 from which they are hung will be advantageous as they will be less likely to tilt to one side or another when hung from horizontal members 62. It may be desirable for performance fixture 14 to be lower than the point from which it is hung on horizontal member 62. For example, the height of a seating member 20 may be lower than the point at which seating member 20 attaches to horizontal member 62 by standardized bracket 3 8 in order for seating member 20 to be sturdily secured to railing 18.
Performance fixtures 14 may utilize one or more standardized brackets 38 for attachment to horizontal members 62. Smaller or lighter performance fixtures 14 such as musical instrument accessory holders 26 may be adequately secured to railing 18 with the use of only one standardized bracket 38. Larger, heavier performance fixtures 14 such as seating members 20, instrument supports 30 and acoustical shell panels 32 may require the use of two or more standardized brackets. In some cases, the performance fixture may be designed with three standardized brackets (e.g_, one bracket at an upper level and two brackets at a lower level centered on the upper bracket and spaced a distance sufficient to minimize tilt of the performance fixture). In the case of a seating member 20, the tilt might arise from a performer shifting their weight in the seat pan or in the case of a music stand from a musician setting a large quantity of music on the stand or making notations in pencil (e.g.
reminders or bowings) on music present on the stand.
It may be desirable to remove performance fixtures 14 from performance riser assembly 10 and store them elsewhere, such as along a wall or in an existing storage room. A
storage structure having a similar construction as railings 18 may be used to receive the standardized brackets 38 on performance fixtures 14. The storage structure may have one or or more horizontal members adapted to receive standardized brackets of perfoxmancc fixtures.
Seating members 20 may include a seat pan 64 and a seat back 66, as depicted in Figs. 23-28. Seating members 20 may be foldable or collapsible, as foldable seating members 20 provide more open space on platform 16 when folded up. In one embodiment, a seat pan 64 of seating member 20 folds up towards a seat back 66. Seating member 20 may be adapted such that the default position of seat pan 64 is to be folded up against seat back 66. The folding of seat pan 64 may be facilitated with springs, or by weighting seat pan 64 such that the rear of seat pan 64 is heavier than the front, causing seat pan 64 to rotate towards seat back 66.
In addition, seating members 20 may include a means for height adjustment in order to comfortably accommodate a wide range of performers. Such means for height adjustment can include hanging seating member 20 from different horizontal members 62 on railing 18, having a telescoping seat frame, employing a vertically directed gas strut between seating member 20 and standardized bracket 38, or employing a vertical member coupled to standardized bracket 38 defining a plurality of pin-receiving holes and a slidable collar surrounding the vertical member defining holes of corresponding size and attached to the back of seating member 20 such that the position seating member 20 is selectable by vertical movement of the collar along the vertical member and insertion of a pin through the slideable collar and the vertical member. Seating members 20 may also include a footrest; however the footrest is not in communication with platform 16 when seating member 20 is properly installed on railing 18.
Seating member 20 may be constructed of a variety of materials readily apparent to one skilled in the art, including injection-molded polymers, metal, wood, composite, or some combination therein. Seating member 20 may further be covered with upholstery.
Seat back 66 may include a lumbar adjustment, and may further include a height adjustment separate from any height adjustment for seating member 20. Such height adjustment for back rest 66 may be facilitated by any of the means recited for seating member 20. In an alternative embodiment, seating member 20 is not provided with a back rest.
Referring now to Figs. 29-32, music stands 22 may include a height adjustment, such as a telescoping arrangement. Alternatively, music stand 22 may include one or more pivot joints 68 on standardized bracket 38 for height adjustment. In the event that seating member 20 is height adjustable, a performer will likely be able to adjust seating member 20 such that music stand 22 is at the correct height. It may be desirable for music stands 22 to be at a fixed height, however.
Musical instrument holders 24 may include specialized holders for individual instrument such as guitar holders 40 as seen, for example, in Fig. 21, cello holders 42 as seen, for example, in Figs. 18-19, violin holders 44 as seen, for example, in Fig. 22, or tuba holders 46 as seen, for example, in Figs. 1-4, however musical instrument holders 24 may be provided for any and all instruments, and this list should not be considered exclusive or limiting. Musical instrument holders 24 may include a restraint, such as hook-and-loop fastener straps for retaining musical instruments when Stored thereon.

Performance riser assembly 10 may also include structures defining one or more storage compartments 48. Ideally, storage compartment 48 is unobtrusively located underneath platform 16, and may be accessed before or after a rehearsal or a performance.
Storage compartment 48 may open to the back or to the side of a riser section or may be closed with doors, optionally with mechanisms for locking otherwise securing the storage compartment.
Storage compartment 48 may be divided into multiple compartments suitably shaped for storing particular instruments. The storage compartments may further comprise drawers or platforms that can be conveniently moved from a stowed or storage position to an extended or available position that allows for equipment or instruments, as the case may be, to be placed into or removed from the storage compartment.
If seating for a large group is needed, multiple performance riser sections 12 may be used. The multiple riser sections may be joined to one another, such that the platforms 16 of a first performance riser section 12 is contiguous with the platform of a second performance riser assembly 10. Alternatively, multiple performance riser sections 12 can be arranged in an arc, or positioned proximate from one another to achieve any desired arrangement. If such a configuration is desired, riser sections having trapezoidal or wedge-shaped platforms are used between riser sections having rectangular-shaped platforms in order to create the desired arc.
Three riser sections 12 may be arranged in an arc, with a first riser section having a trapezoidal or wedge-shaped platforms in the center, and riser sections having rectangular-shaped platforms coupled to each side of the first riser section. The angle of the wedge on wedge-shaped performance riser assemblies 10 may be varied, however wedges of thirty (30), forty-five (45), and (b0) degrees may offer greater utility.

In these configurations, elevated platforms may be inserted at the various levels between the riser sections having rectangular-shaped platforms to allow for movement of performers between the assemblies such as at the start or conclusion of a performance.
These elevated platforms may be equipped with clamps or other similar mechanisms to hold the elevated platform in place and may additionally have legs that are designed to fold into the bottom of the elevated platform allowing for convenient storage.
In one embodiment of the present invention, riser assembly 10 comprises riser sections with a total of four (4) platforms 16 and five (5) railings 18.
Platforms 16 are arranged in a stair step fashion, with a rise between individual platforms 16 of six (6) to twelve (12) inches. The frontmost platform may be resting on the floor, or may be six (6) to twelve (12) inches off the floor. Each platform 16 may be generally rectangular, measuring approximately eight (8) feet wide by four (4) feet deep, and comprises a frame constructed of twelve (12} gauge 1'/Z inch x I'/z inch square profile steel tube and a flooring surface constructed from plywood, aluminum, composites, polymers, or the like.
A railing 18 may have a height with respect to the front of a platform 16 of approximately three (3) feet, and a height with respect to the rear of a platform 16 of approximately four (4) feet. Railings 18 may be constructed from the same steel tube as is used for platforms 16. The vertical spacing between horizontal members 62 may be approximately ten (10) inches. Railings 18 may be constructed to house one or more electrical power outlets along their length capable of providing electrical power light fixtures that may be attached to performance fixtures, such as music stands. In an alternative embodiment, railings 18 may be constructed to house frber optic cables to provide lighting to music stands or to facilitate movement of performers on a modular riser under low ambient lighting conditions.

Railings I 8 may be secured to platforms 16 by a variety of methods, all of which will be readily apparent to one skilled in the art. As an example, bolts and nuts offer an easily removable fastening solution, while weldments may be desired for a more permanent joint between railings 18 and platforms 16. However, this embodiment should in no way be considered limiting or restrictive.
Riser assembly 10 may comprise more or less than four riser sections. The rise between successive platforms 16 may be more than, or less than, six (6) to twelve (12) inches, and in the case that the rise between successive platforms 16 is greater than eight {8} inches, an intermediary step rnay be included. The dimensions of each platform 16 may be varied, to accommodate larger instruments, smaller spaces, a greater number of performers, etc. Further, the shape of platform 16 may be triangular or generally wedge-shaped rather than rectangular, and the frame of platform 16 may constructed of materials other than steel, or materials not having a square-shaped profile. Also, the height of railings 18 may be varied to suit different uses of performance riser assembly 10.
The invention may be embodied in other specific forms without departing from the essential attributes thereof; therefore, the illustrated embodiments should be considered in all respects as illustrative and not restrictive.

Claims (20)

1. A performance riser assembly, comprising:
at least one riser section, the riser section comprising a platform having a front edge, a back edge and two side edges and disposed on or above a floor, a first railing comprising at least one horizontal member disposed at the front of the platform;
a second railing comprising at least one horizontal member disposed at the back of the platform; and at least one performance fixture removably coupled to at least one of the horizontal members such that when so coupled, the performance fixture is not in communication with the platform.

2. The performance riser assembly of claim 1, wherein the at least one performance fixture is selected from the group consisting of seating members, music stands, musical instrument holders, musical instrument accessory holders, sheet music holders, instrument supports and acoustical shell panels.

3. The performance riser assembly of claim 2, wherein the seating member comprises a seat back and seat pan.

4. The performance riser assembly of claim 3, wherein the seat pan is connected to the seating member in a manner that allows the seating member to be folded bringing the seat pan into proximity with the seat back.

5. The performance riser assembly of claim 1, wherein at least one of the first railing and the second railing is operably attached to the platform of a riser section.

6. The performance riser assembly of claim 1, wherein at least one of the first railing and the second railing is operably secured to the floor.

7. The performance riser assembly of claim 1, further comprising a second riser section immediately adjacent the second railing of the first riser section, the second riser section comprising a platform having a front edge, a back edge and two side edges.

8. The performance riser assembly of claim 7, wherein the rear edge of the first riser section is adjacent the front edge of the second riser section and the platform of the second riser section is elevated from the floor with respect to the first riser section.

9. The performance riser assembly of claim 1, wherein at least one riser section is elevated with respect to the floor and further comprises structures defining a storage space between the platform and the floor.

10. The performance riser assembly of claim 9, further comprising one or more drawer assemblies disposed within the storage space.

11. The performance riser assembly of claim 1, wherein one or more platforms is shaped as a rectangle.

12. The performance riser assembly of claim 1, wherein one or more platforms is shaped as a trapezoid.

13. The performance riser assembly of claim 12, the angle between each of the side edges and the rear edge of the trapezoid shaped platforms is an acute angle of about 30° to about 60°.

14. A performance riser assembly comprising:
a plurality of riser sections arranged adjacent to one another, each riser section comprising a platform having a front edge, a back edge and two side edges and disposed on or above a floor, a railing disposed along the front edge of the platform of each riser section, the railing comprising at least two vertical members and at least one horizontal member;
at least one performance fixture removably coupled to at least one of the horizontal members of the riser section such that when so coupled, the performance fixture is not in communication with the platform; and wherein the platform of at least one riser section is elevated with respect to the floor and the elevated riser section further comprises structures defining a storage space between the platform and the floor;
wherein riser sections in the performance riser assembly with side edges adjacent to one another have platforms that are equidistant from the floor and riser sections with front and rear edges adjacent one another are arranged in stair step fashion.

15. The performance riser assembly of claim 14, wherein a railing is disposed along the front edge and rear edge of each riser section.

16. The performance riser assembly of claim 15, wherein the performance fixture is selected from the group consisting of seating members, music stands, musical instrument holders, musical instrument accessory holders, sheet music holders, instrument supports and acoustical shell panels.

17. The performance riser assembly of claim 16, wherein the performance fixture is a seating member.

18. A method for arranging a performance group and musical instruments in a performance riser assembly, the method comprising the steps of:
providing at least two riser sections, each riser section comprising a platform having a front edge, a back edge and two side edges and disposed on or above a floor, a railing disposed along the front edge of the platform, the railing comprising at least two vertical members and at least one horizontal member;

arranging the riser sections to be adjacent to one another, wherein riser sections with side edges adjacent to one another have platforms that are equidistant from the floor and riser sections with front and rear edges adjacent one another are arranged in stair step fashion, coupling at least one performance fixture capable of being removably coupled to at least one of the horizontal members of riser section such that when so coupled, the performance fixture is not in communication with the platform.

19. The method of claim 18, wherein the performance fixture is selected from the group consisting of seating members, music stands, musical instrument holders, musical instrument accessory holders, sheet music holders, instrument supports and acoustical shell panels.

20. The method of claim 19, wherein the performance fixture is a seating member.