Telex ELECTRO-VOICE X-Line TM manual Line Rigging and Flying Techniques, Array Considerations

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2. X-Line Rigging and Flying Techniques

2.1 Array Considerations

The X-Line loudspeaker systems have been specifically designed to construct acoustic line- arrays. Line-array systems typically consist of independent columns of loudspeaker systems. The most common implementation would be a stereo sound reinforcement system with two columns (left and right). Additional columns of loudspeakers are sometimes added to cover different seating sections of a venue – seating areas that wrap around the side or back of a stage, for example.

Vertical line arrays typically consist of several Xvls 90°H x 5°V systems at the top, followed by several Xvlt 120°H x 8.5°V systems below. The exact number of Xvls and Xvlt loudspeaker systems in a column will vary depending on the vertical acoustic coverage required for the specific venue. Furthermore, the relative vertical angles between the boxes will also depend on the venue acoustic coverage requirements. When acoustic coverage is required immediately below the array, a single Xfil1 or Xfil2 downfill enclosure can be added at the very bottom of the array. (Acoustic design techniques are outside the scope of this document and the reader is directed to the X-Line modeling software available from the Electro-Voice website for acoustic design assistance.) It is also possible to construct subwoofer line arrays using the Xsub systems.

From Figure 2, the reader will note that X-Line full-range systems are not symmetrical left to right. When constructing a line-array column, it is essential that all Xvls, Xvlt, Xfil1 and Xfil2 enclosures are hung so that the high-frequency sections are all in a vertical straight line. In a stereo sound reinforcement application, the best results are achieved when the boxes in the left and right arrays are oriented so that the high-frequency sections are onstage (i.e., together towards the middle of the venue), making the left and right arrays a perfect mirror image. This requires that the Xvls and Xvlt loudspeaker systems on the house-right side be turned upside down. The grilles on the Xvls and Xvlt boxes on the house-right side array should be rotated so a consistent appearance is maintained between the left and right sides.

Because the downfill boxes cannot be turned upside down, the Xfil1 and Xfil2 loudspeaker systems have been designed as a mirror image pair. Thus, in a stereo system, the Xfil1 would be used at the bottom of the house-left side array, while the Xfil2 would be used on bottom of the house-right side array.

2.2 Adjusting the Vertical Angles of the Enclosures

The vertical angle of an enclosure may be adjusted relative to the enclosure immediately above by choosing different attachment locations for the front linking straps in the enclosure track. The locating holes in the enclosure rigging track are spaced 1.00 inch (25.4 mm) apart. Moving the attachment position one hole results in a 2° change in the enclosure vertical angle. However, angle adjustments of 0.5° are possible.

Each triple-stud fitting on the Xvsg, Xvsl and Xvsd front straps is attached to the chain with a pin that passes through a hole on the fitting and through the last link on the end of the chain. Note that there are two holes on each fitting that are labeled “A” and “B”. These two holes offer two attachment points that change the length of the linking strap assembly.

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Contents Line Rigging Manual Table of Contents Rigging-Safety Warning Introduction Line Rigging System Overview of the X-Line Flying SystemTypical X-Line Flying System Enclosure Rigging Hardware Details Xvls Loudspeaker System Xfil1 and Xfil2 Loudspeaker Systems Xfil1 & Xfil2 Front Rigging with Xvsd or Xvhp Straps Rear Rigging Hinge Details Rear Rigging Hardware Installation Details External Rigging Hardware DetailsELECTRO-VOICE Front Rigging Strap Details Front Rigging Hardware Installation Details ELECTRO-VOICE Xvbp Pull-Up Bar Details ATM Flyware X-Line Grid ATM X-Line Grid DetailsRS-1B Double-Stud Rigging Fitting Array Considerations Adjusting the Vertical Angles of the EnclosuresLine Rigging and Flying Techniques Enclosure Vertical Angle Adjustments Rectangular Box Xvls or Xsub to Trapezoidal Box XvltDeciding Whether to Use an Xvhg or Xvhl at the Grid Rigging an Array with Boxes Using X-Line Dollies Flying with Stacking Dollies Flying with Front Dollies Pull-Up Techniques Working-Load Limit and Safety Factor Definitions Structural Rating OverviewSimplified Structural-Rating Guidelines Simplified Rating Guidelines ELECTRO-VOICE Complex Structural-Rating Analysis MAX +∅ -∅ Working-Load Limit 750 lb 340 kg At Any Angle ELECTRO-VOICE Xvls, Xvlt & Xsub Overall Enclosure Structural Ratings Xfil1 & Xfil2 Overall Enclosure Structural RatingsXvbp Structural Ratings Xvbp Pull-Up Bar Structural-Strength RatingsRS-1B Structural-Strength Ratings Xvls, Xvlt & Xsub Front Rigging Point Structural Ratings Xfil1 & Xfil2 Front Rigging Point Structural RatingsElectro-Voice Structural-Analysis Procedures Wind LoadingRigging Inspection and Precautions Electro-Voice X-Line Loudspeaker SystemsELECTRO-VOICE Mechanical Engineering References ReferencesRigging References ELECTRO-VOICE Telex Communications, Inc /2002 Part Number 38110-158 Rev a