Telex ELECTRO-VOICE X-Line TM manual Enclosure Vertical Angle Adjustments

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The rigging straps are shipped from the factory with chain connected in the “A” position on the fittings on both ends. (This would be denoted as an “A-A” length.) When the chain is connected in the “B” position on both fittings (known as the “B-B” length), the strap is 0.50 inches longer than when connected in the “A-A” position. This 0.50-inch change in length results in a 1°-angle adjustment. When the chain is connected in the “A” position on one fitting and the “B” position on the other fitting (known as the “A-B” length), the strap is 0.25 inches longer than when connected in the “A-A” position. This 0.25-inch change in length results in a 0.5°-angle adjustment. Thus, by adjusting the length of the straps and selecting their attachment position on the enclosure front track, the relative angles between boxes can be adjusted in 0.5° increments. When used with the “A-A” length, even-numbered angles result (0°, 2°, 4°, 6°, etc.) when changing the attachment position of the strap along the track, while odd-numbered angles result (1°, 3°, 5°, 7°, etc.) when used with the “B-B” length. With “A-B” length, in between angles are achievable (0.5°, 2.5°, 4.5°, etc.).

When planning angle adjustments between boxes, the shape of the enclosure must be taken into account. Two rectangular enclosures (Xvls, Xsub,Xfil) can be pulled up tight with their sides parallel, a 0° relative aiming angle exists between the enclosures (i.e., both are facing straight ahead and the sound from both is aimed straight ahead). When two trapezoidal enclosures (Xvlt only) are pulled up tight with their sides parallel, a 5° relative aiming angle exists between the enclosures (because the enclosure shape is a 5° wedge, the sound from both is aimed 5° apart). When a trapezoidal enclosure (Xvlt) and rectangular enclosure (Xvls, Xsub, Xfil1 or Xfil2) are pulled up tight with their sides parallel, a 2.5° relative aiming angle exists between the enclosures.

Figure 8 shows all of the possible combinations of rigging attachment locations and linking strap lengths. When designing an array using the X-Line modeling software, the program will automatically tell you what each front strap length is required (A-A, A-B or B-B) and at what position on the rigging they should be attached for each enclosure.

Rectangular Box (Xvls or Xsub) to

Rectangular Box (Xvls or Xsub)

Angle

Front Chain

Holes Showing

Between

In Front

Configuration

Boxes

Rigging

 

 

 

 

0.0°

A-A

0

 

 

 

0.5°

A-B

0

 

 

 

1.0°

B-B

0

 

 

 

2.0°

A-A

1

 

 

 

2.5°

A-B

1

 

 

 

3.0°

B-B

1

 

 

 

4.0°

A-A

2

 

 

 

4.5°

A-B

2

 

 

 

5.0°

B-B

2

 

 

 

6.0°

A-A

3

 

 

 

6.5°

A-B

3

 

 

 

7.0°

B-B

3

 

 

 

Note: Accoustic gaps will occur with angles greater than 5.0° between Xvls systems.

Rectangular Box (Xvls or Xsub) to

Trapezoidal Box (Xvlt)

Angle

Front Chain

Holes Showing

Between

In Front

Configuration

Boxes

Rigging

 

 

 

 

2.5°

A-B

0

 

 

 

3.0°

B-B

0

 

 

 

4.0°

A-A

1

 

 

 

4.5°

A-B

1

 

 

 

5.0°

B-B

1

 

 

 

6.0°

A-A

2

 

 

 

6.5°

A-B

2

 

 

 

7.0°

B-B

2

 

 

 

8.0°

A-A

3

 

 

 

8.5°

A-B

3

 

 

 

 

 

 

 

 

 

Note: Accoustic gaps will occur with angles greater than 6.5° between Xvls & Xvlt systems.

Figure 8:

 

Trapezoidal Box (Xvlt) to

 

 

Trapezoidal Box (Xvlt)

 

 

 

 

 

Angle

 

Front Chain

Holes Showing

Between

 

 

In Front

 

Configuration

 

Boxes

 

 

Rigging

 

 

 

 

 

 

 

 

5.0°

 

B-B

 

0

 

 

 

 

 

6.0°

 

A-A

 

0

 

 

 

 

 

6.5°

 

A-B

 

0

 

 

 

 

 

7.0°

 

B-B

 

1

 

 

 

 

 

8.0°

 

A-A

 

1

 

 

 

 

 

8.5°

 

A-B

 

1

 

 

 

 

 

9.0°

 

B-B

 

2

 

 

 

 

 

10.0°

 

A-A

 

2

 

 

 

 

 

10.5°

 

A-B

 

2

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Note: Accoustic gaps will occur with angles greater than 8.5° between Xvlt Systems.

Enclosure Vertical Angle Adjustments

ELECTRO-VOICE®￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿￿

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Contents Line Rigging Manual Table of Contents Rigging-Safety Warning Introduction Overview of the X-Line Flying System Line Rigging 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 External Rigging Hardware Details Rear Rigging Hardware Installation DetailsELECTRO-VOICE Front Rigging Strap Details Front Rigging Hardware Installation Details ELECTRO-VOICE Xvbp Pull-Up Bar Details ATM X-Line Grid Details ATM Flyware X-Line GridRS-1B Double-Stud Rigging Fitting Adjusting the Vertical Angles of the Enclosures Line Rigging and Flying TechniquesArray Considerations Rectangular Box Xvls or Xsub to Trapezoidal Box Xvlt Enclosure Vertical Angle AdjustmentsDeciding 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 Structural Rating Overview Working-Load Limit and Safety Factor DefinitionsSimplified 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 Xfil1 & Xfil2 Overall Enclosure Structural Ratings Xvls, Xvlt & Xsub Overall Enclosure Structural RatingsXvbp Pull-Up Bar Structural-Strength Ratings Xvbp Structural RatingsRS-1B Structural-Strength Ratings Xfil1 & Xfil2 Front Rigging Point Structural Ratings Xvls, Xvlt & Xsub Front Rigging Point Structural RatingsWind Loading Electro-Voice Structural-Analysis ProceduresElectro-Voice X-Line Loudspeaker Systems Rigging Inspection and PrecautionsELECTRO-VOICE References Rigging ReferencesMechanical Engineering References ELECTRO-VOICE Telex Communications, Inc /2002 Part Number 38110-158 Rev a