Rockwell Automation 442L-SFZNMN SafeZone Mini Safety Laser Scanner User Manual User Manual

Rockwell Automation Publication 10000337275 Ver 01—October 2014

31

Chapter 5

Mounting

Fig. 20: Stopping distance

Note

Take into account that the braking distance for a vehicle is not linear with increasing velocity, but increases in a square
function.

Fig. 21: Stopping distance as

a function of the vehicle velocity

How to calculate the stopping distance S

A

:

 Calculate the stopping distance S

A

using the formula:

S

A

= S

Br

+ S

AnF

+ S

AnS

Where …
S

Br

= Braking distance, to be found in the vehicle documentation

S

AnF

= Distance covered during the response time of the vehicle controller, to be found in the vehicle documentation

S

AnS

= Distance covered during the response time of the safety laser scanner

Distance covered during the response time of the safety laser scanner

The distance covered during the response time of the safety laser scanner depends on …
•

The response time of the safety laser scanner.

•

The maximum velocity of the vehicle in your mobile application.

The response time T

S

of the SafeZone Mini depends on …

•

The basic response time of the SafeZone Mini.

•

The multiple sampling set.

See Chapter 12, “OSSD response times” on page 55

How to calculate the distance S

AnS

covered during the response time of the safety

laser scanner:
 Calculate the distance S

AnS

using the formula:

S

AnS

= T

S

× V

max

Where …
T

S

= Response time of the safety laser scanner

V

max

= Maximum velocity of the vehicle from the related vehicle documentation

SafeZone Mini

S

AnF

S

AnS

S

Br

Stopping distance

Stopping distance +

safety supplements

Necessary protective

field length

Speed