Banner MSA Series Stands User Manual
Msa series stands, Overview, Models
Printed in USA
10/04
P/N 43687 rev. C
MSA Series Stands
For Optical Safety System Sensors or Corner Mirrors
Banner MSA Series stands are designed specifically for use with Banner optical safety
system emitters and receivers, and corner mirrors. The poles are constructed of strong,
lightweight extruded aluminum, and have a dual-channel design that allows easy and
accurate height adjustment using the supplied “T” nuts.
Each stand includes two major parts:
1. A welded steel base, and
2. An aluminum pole; 24", 42", 66", or 84" in length.
Hardware is included for attaching either a MICRO-SCREEN
®
or MINI-SCREEN
®
sensor, an SFP.. Safety Point, or a corner mirror to the pole. (EZ-SCREEN™ or
MACHINE-GUARD™ sensors, and SSM-Series mirrors require an adapter bracket; refer
to the appropriate data sheet.) A post level also is included with each stand for accurate
installation.
The pole is held securely in its base by four bolts (included). The base bolts to a flat
surface with user-supplied 5/16" or M8 hardware. The base plate has four threaded
holes for leveling bolts (also included, see Figure 2).
Figures 3, 4 and 5 detail how a sensor or mirror attaches to the post using the supplied
hardware. This mounting design allows the sensor or mirror to easily slide up or down
the pole and then lock into position by tightening four screws.
Overview
(4) M10 Bolt
Pole
40 mm
(1.58") Square
Height L
(see Models
table)
Base
6.4 mm (0.25")
127 mm
(5")
Model
Part
Number
For Use
With
Height “L”
(Figure 1)
Useable Stand
Height
MSA-S24-1
43174
Light Screens
and Mirrors as
Noted Below
24"
19"
MSA-S42-1
43175
42"
37"
MSA-S66-1
43176
66"
61"
MSA-S84-1
52397
84"
79"
SPKA-AG12-1
73229
SFP12
Safety Point
42"
37"
SPKA-AG30-1
73230
SFP30
Safety Point
42"
37"
Models
Figure 1. Assembled stand
Features
• Easy to assemble
• Available in four pole heights
• Solidly supports emitter, receiver or corner mirror
• Strong extruded and anodized aluminum poles
• Dual-channel design for accurate sensor/mirror adjustment