background image

 

 

SB18

SB18

SB18

SB18

SUBWOOFER

SUBWOOFER

SUBWOOFER

SUBWOOFER 

rigging manual

rigging manual

rigging manual

rigging manual    

 

VERSION 1.0 

 

SB18

m

_RM_EN_1-0 

w w w . l - a c o u s t i c s . c o m  

6

6

6

6

 

 

2

2

2

2

 

MECHANICAL

MECHANICAL

MECHANICAL

MECHANICAL    SAFETY

SAFETY

SAFETY

SAFETY    

2.1

 

Maximum configurations 

The  SB18m  rigging  system  has  been  designed  to  comply  with  BGV-C1  (2012)  and  EN  ISO  12100-1  (2004)  when 
implementing the following vertical arrays: 

 

Ground-stacking

 

Flying

 

On the floor  

8 SB18m 

With 

WIFOBUMP

 

8 SB18m 

With 

WIFOBUMP and CLAMP250

 

4 SB18m 

 

 

Mechanical safety of the shackles 

The 

bow

 shackles 

Ø12mm

 

provided by

 L-ACOUSTICS

®

 have a working load limit (WLL) of 

1000 kg 

with a 6:1 

safety factor. This rating is in  in accordance with BGV-C1  (2012) recommendations when implementing the 
maximum configurations authorized by L-ACOUSTICS

®

.  

 

 

Mechanical safety of the rigging system 

Maximum configurations indicate the maximum number of enclosures which can be safely arrayed without the 
need  for  SOUNDVISION  modeling.  For  more  enclosures,  model  the  system  in  SOUNDVISION  and  check 
the 

Mechanical Data

 section for any 

stress warning 

or 

stability warning

 

 

 

2.2

 

Assessing mechanical safety 

In order to assess the actual safety of any array configuration before implementation, refer to the following warnings: 
 

 

Rated working load limit (WLL) is not enough 

The rated WLL is an indication of the element resistance to tensile stress. For complex mechanical systems 
such as loudspeaker arrays, WLLs cannot be used per se to determine the maximum number of enclosures 
within an array or to assess the safety of a specific array configuration. 

 

 

Mechanical modeling with SOUNDVISION  

The  working  load  applied  to  each  linking  point,  along  with  the  corresponding  safety  factor,  will  depend  on 
numerous variables linked to the composition of the array (type and number of enclosures, splay angles) and 
the implementation of the flying or stacking structure (number and location of flying points, site angle). This 
cannot be determined without the complex mechanical modeling and calculation offered by SOUNDVISION. 

 

 

Assessing the safety with SOUNDVISION 

The overall safety factor of a specific mechanical configuration always corresponds to the lowest safety factor 
among all the linking points. Always model the system configuration with the SOUNDVISION software and 
check  the  Mechanical  Data  section  to  identify  the  weakest  link  and  its  corresponding  working  load.  By 
default, a 

stress warning

 will appear when the mechanical safety goes below the recommended safety level. 

 

 

Safety of ground-stacked arrays in SOUNDVISION 

For  ground-stacked  arrays,  a  distinct 

stability  warning

  is  implemented  in  SOUNDVISION.  It  indicates  a 

tipping  hazard  when  the  array  is  not  secured  to  the  ground,  stage  or  platform.  It  is  user  responsibility  to 
secure the array and to ignore this warning. 

 

 

Consideration must be given to unusual conditions 

SOUNDVISION  calculations  are  based  upon  usual  environmental  conditions.  A  higher  safety  factor  is 
recommended with factors such as extreme high or low temperatures, strong wind, prolonged exposition to 
salt water, etc. Always consult a rigging specialist to adopt safety practices adapted to such a situation. 

Содержание KIVA SB18m

Страница 1: ...SB18 SB18 SB18 SB18m SUBWOOFER SUBWOOFER SUBWOOFER SUBWOOFER RIGGING MANUAL RIGGING MANUAL RIGGING MANUAL RIGGING MANUAL VERSION 1 0 www l acoustics com ...

Страница 2: ...e suspension points chain hoists and all additional hardware rigging accessories is respected 8 Respect the maximum configurations and the recommended safety level For safety issue respect the maximum configurations outlined in this manual To check the conformity of any configuration in regards with the safety level recommended by L ACOUSTICS model the system in SOUNDVISION and refer to the warnin...

Страница 3: ...L L ACOUSTICS ACOUSTICS ACOUSTICS ACOUSTICS Thank you for choosing the L ACOUSTICS SB18m subwoofer This document contains essential information on rigging the system properly and safely Carefully read this document in order to become familiar with these procedures As part of a continuous evolution of techniques and standards L ACOUSTICS reserves the right to change the specifications of its produc...

Страница 4: ...les amplified controllers and software applications The SB18m subwoofer is especially adapted to the ARCS WIDE SYSTEM or ARCS FOCUS SYSTEM and to the coaxial XT enclosures from L ACOUSTICS It extends the low frequency response of a loudspeaker system down to 32Hz The main components involved in the SB18m rigging process are the following 1 1 Loudspeaker enclosure SB18m Subwoofer enclosure provided...

Страница 5: ...ARCSWIFO_RM_EN_1 0 w w w l a c o u s t i c s c o m 5 5 5 5 Elements involved in the SB18m rigging process WIFOBUMP SB18m SOUNDVISION CLAMP250 SB18COV SB18PLA ...

Страница 6: ...e to determine the maximum number of enclosures within an array or to assess the safety of a specific array configuration Mechanical modeling with SOUNDVISION The working load applied to each linking point along with the corresponding safety factor will depend on numerous variables linked to the composition of the array type and number of enclosures splay angles and the implementation of the flyin...

Страница 7: ...l of the main system or enclosure to get acquainted with the rigging procedures specific to the mixed main sub arrays Cardioid configuration The cardioid configuration is an array of 4 subwoofers with 1 reversed element Refer to the subwoofer user manual for details about the CARDIOID operating mode Any of the following arrangements can be set in cardioid configuration 3 1 Ground stacking Vertical...

Страница 8: ...by modeling the system in SOUNDVISION Vertical Place the first enclosure logo down Place and lock a second SB18m on top of the first one logo down Refer to PROCEDURE A to lock the SB18MRIG bars Remove the coupling bars from their storage location Place and lock the WIFOBUMP frame to the top enclosure Refer to SOUNDVISION for the frame position front or rear Refer to PROCEDURE A to lock the SB18MRI...

Страница 9: ...ing rails from the front of the array STORAGE Engage the bar into both storage pins Secure the bar with the locking tab a Accurately position the bar by pushing it into place b Pinch the spring tongue and slide the locking tab until it snaps into place When encountering difficulty try to slide the tab from the other side PROCEDURE A Locking a rigging bar SB18MRIG bars being slid into adjacent RIGG...

Страница 10: ... About site angle As many variables can affect the actual site angle it is recommended to use an inclinometer Secure a shackle or CLAMP250 to the identified hole a Attach the shackle or the CLAMP250 bar to the identified hole by driving the pierced bolt and securing the nut b Lock the pierced bolt with the safety pin c With CLAMP250 install safety slings between the WIFOBUMP and the truss PROCEDUR...

Страница 11: ...ARCSWIFO_RM_EN_1 0 w w w l a c o u s t i c s c o m 11 11 11 11 ...

Страница 12: ...ence SB18m_RM_EN_1 0 Distribution date September 25 2012 2012 L ACOUSTICS All rights reserved No part of this publication may be reproduced or transmitted in any form or by any means without the express written consent of the publisher ...

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