User Manual

SAFETY

Safety handbook page - 34 -

PNSPO

Summary

general formula S = K x T +C

100mm ≤ S ≤ 500mm

S = ( 2000mm/s x T ) + 8 (d -14mm)

d ≤ 40mm

S > 500mm S = ( 1600mm/s x T ) + 8 (d -14mm)

40mm < d ≤ 70mm

S = ( 1600mm/s x T ) + 850mm

single beams S = ( 1600mm/s x T ) + 1200mm

7.1.1 Examples safety distance

Before calculating the safety distance S be sure that appropriate Type-C standard or

the risk assessment for the relevant machine will allow the chosen sensor.

Example 1:

Approach to detection zone: normal (vertical)

Stopping time of the machine: 60ms (t

)

Response time AOPD: 12.5ms (t

) typical value for F3SN-A

Detection capability: 14mm (d) finger protection

S = ( 2000mm/s x T ) + 8 ( d - 14mm )

S = ( 2000mm/s x ( 0,06s + 0,0125s )) + 8 ( 14mm-14mm )

S = 145mm

Example 2: The same machine but using AOPD with detection capability d = 30mm

(hand protection):

S = ( 2000mm/s x (0,06s+0,0125s ) + 8 (30mm-14mm)

S = 273mm

Example 3: AOPD with 4 beams

Stopping time of the machine: 300ms (t

)

Response time AOPD: 10ms (t

) max. value for F3SH-A

Beam height from floor: 300mm, 600mm, 900mm, 1200mm (table 1)

S = ( 1600mm/s x T ) + 850mm

S = ( 1600mm/s x ( 0,3s + 0,01s )) + 850mm

S = 1346mm

7.2 Finger and hand protection systems

How to choose the right AOPD for my application. EN 999 helps with a strategy:

1. Identify hazards and assess the risk (see EN 292-1 and EN 1050)

2. Type-C standard exists for the machine ?

if yes: apply the C-standard

if no: Select appropriate AOPD using Type-A and Type-B standards

3. Calculation of safety distance according EN 999

4. Incorporate the distance into machine design

5. Access to the danger zone without detection by AOPD possible ?