Precautions for All Safety Sensors

Installation Conditions

Detection Zone and Intrusion Path

Install a protective structure so that the hazardous part of a machine can only be reached by passing through the ensor's detection zone. Install the ensors so that part of the person is lways present in the detection zone when orking in a machine's hazardous areas.
If a person is able to step into the azardous area of a achine and remain behind the Safety Light Curtain's etection zone, configure the system with an interlock unction that prevents the machine from being restarted.
Otherwise it may result in heavy injury.

Correct Installation

A person can only reach the hazardous part of the machinery by passing through the sensor's detection zone.

Incorrect Installation

A person can reach the hazardous part of the machinery without passing through the sensor's detection zone.

Install the interlock reset switch in a location that provides a clear view of the entire hazardous area and where it cannot be activated from within the hazardous area.

The Safety Light Curtain cannot protect a person from an object flying from a hazardous area. Install protective cover(s) or fence(s).

Safety Distance

The safety distance is the distance that must be set between the Safety Light Curtain and a machine's hazardous part to stop the hazardous part before a person or object reaches it. The safety distance varies according to the standards of each country and the individual specifications of each machine. In addition, the calculation of the safety distance differs if the direction of approach is not perpendicular to the detection zone of the Safety Light Curtain.
Always refer to relevant standards.

Make sure to secure the safety distance (S) between the Safety Light Curtain and the hazardous part. Otherwise, the machine may not stop before a person reaches the hazardous part, resulting in serious injury.

Note:The response time of a machine is the time period from when the machine receives a stop signal to when the machine's hazardous part stops.
Measure the response time on the actual system. Also, periodically check that the response time of the machine has not changed.

How to calculate the safety distance specified by International standard ISO13855-2002 (European standard EN999-1999)
(Reference)

If a person approaches the detection zone of the Safety Light Curtain perpendicularly, calculate the safety distance as shown below.

S = K x T + C . . . Eq. (1)

S: Safety distance

K: Approach speed to the detection zone

T: Total response time of the machine and Safety Light Curtain

C: Additional distance calculated by the detection capability of the Safety Light Curtain

<System that has detection capability of 40 mm max.>

Use K = 2,000 mm/s and C = 8 x (d - 14 mm) in equation (1) for the calculation.

S = 2,000 mm/s x (Tm + Ts) + 8 x (d - 14 mm)

S = Safety distance (mm)

Tm = Machine's response time (s)

Ts = Response time of the Safety Light Curtain from ON to OFF (s) *

d = Size of Safety Light Curtain‘s detection capability (mm) *

*These values differ depending on the Switch. Refer to the “Precautions for Correct Use” for the Switch you are using.

[Calculation example]

When Tm = 0.05 s, Ts = 0.01 s, and d = 14 mm:
S = 2,000 mm/s x (0.05 s + 0.01 s) + 8 x (14 mm - 14 mm) = 120 mm . . . Eq. (2)
If the result is less than 100 mm, use S = 100 mm.
If the result exceeds 500 mm, use the following equation where K = 1,600 mm/s.
S = 1,600 mm/s x (Tm + Ts) + 8 x (d - 14 mm) . . . Eq. (3)
If the result of this Eq. (3) is less than 500 mm,
use S = 500 mm.

<Systems with a Smallest Detectable Object Size (Diameter) Greater than 40 mm or Systems Using Multi-beam Safety Sensors>

Assuming K = 1,600 mm/s and C = 850 mm, the following calculation is made using Eq. (1).

S = 1,600 mm/s x (Tm + Ts) + 850 ... Eq. 4,

S = Safety distance (mm)

Tm = Machine's response time (s)

Ts = Response time of the Safety Light Curtain from ON to OFF (s)

Calculation example:

When Tm = 0.05 s and Ts = 0.01 s,
S = 1,600 mm/s x (0.05 s + 0.01 s) + 850 mm = 946 mm

How to calculate the safety distance specified by American standard ANSI B11.19
(Reference)

<Systems with a Smallest Detectable Object Size (Diameter) Less than 64 mm>

If a person approaches the detection zone of the Safety Light Curtain perpendicularly, calculate the safety distance as shown below.

S = K x (Ts + Tc + Tr + Tbm) + Dpf

S: Safety distance

K: Approach speed to the detection zone (the value recommended by OSHA standard is 1,600 mm/s)

Approach speed K is not specified in the ANSI B.11.19 standard. To determine the value of K to apply, consider all factors, including the operator's physical ability.

Ts = Machine's stop time (s)

Tr = Response time of the Safety Light Curtain from ON to OFF (s)

Tc = Machine control circuit's maximum response time required to activate its brake (s)

Tbm = Additional time (s)

If a machine has a brake monitor, "Tbm = Brake monitor setting time - (Ts + Tc)". If it has no brake monitor, we recommend using 20% or more of (Ts + Tc) as additional time.

Dpf = Additional distance

According to ANSI's formula, Dpf is calculated as shown below:
Dpf = 3.4 x (d - 7.0): Where d is the detection capability of the Safety Light Curtain (unit: mm)

[Calculation example]

When K = 1,600 mm/s, Ts + Tc = 0.06 s, brake monitor setting time = 0.1 s, Tr = 0.01 s, d = 14 mm:
Tbm = 0.1 - 0.06 = 0.04 s
Dpf = 3.4 x (14 - 7.0) = 23.8 mm
S = 1,600 x (0.06 + 0.01 + 0.04) + 23.8 = 199.8 mm

Method for Calculating the Safety Distance as Provided by ANSI/RIA R15.06 (USA)
(Reference)

<Systems with a Smallest Detectable Object Size (Diameter) Greater than 64 mm and Less than 600mm>

The safety distance is calculated based on the following concepts when the human body intrudes perpendicular to the detection zone of the Safety Light Curtain.

S = K x (Ts + Tc + Tr ) + Dpf

S: Safety distance

K = Intrusion speed into detection zone (1,600 mm/s min. recommended by OSHA)

Ts = Stop time of machine/equipment (s)

Tr = Light curtain ON-to-OFF response time (s)

Tc = Maximum response time of the machine/equipment braking circuit required to operate the brake (s)

Dpf = Additional distance (mm)

If the Sensor is installed with the lowest beam height above the floor at 300 mm or lower and the highest beam height above the floor at 1,200 mm or higher, the Dpf will be 900 mm.
If the Sensor is installed with the lowest beam height above the floor at 300 mm or lower and the highest beam height above the floor at 900 mm or higher, the Dpf will be 1,200 mm.

[Calculation example]

K = 1,600 mm/s, Ts + Tc = 0.06s,
If Tr = 0.01 s and Dpf = 900 mm:
S = 1,600 x (0.06 + 0.01) + 900 = 1,012 mm

Height of the lowest beam
= 300 mm or less Height of the highest beam
= 1,200 mm or greater
Dpf=900mm

Distance from Glossy Surface

Install the sensor system so that it is not affected by reflection from a glossy surface. Failure to do so may hinder detection, resulting in serious injury.

Install the sensor system at distance D or further from highly reflective surfaces such as metallic walls, floors, ceilings, or workpieces, as shown below.

<Side View>

Others

To use the Safety Light Curtain in PSDI mode (restart of cycle operation by the sensor), you must configure an appropriate circuit between the Safety Light Curtain and the machine. For details about PSDI, refer to OSHA1910.217, IEC61496-1, and other relevant standards and regulations.

Do not try to disassemble, repair, or modify this product.
Doing so may cause the safety functions to stop working properly.

Do not use the Safety Light Curtain in environments where flammable or explosive gases are present. Doing
so may result in explosion.

Perform daily and 6-month inspections for the Safety Light Curtain. Otherwise, the system may fail to work properly, resulting in serious injury.

Installation

Prevention of Mutual Interference

The emitter and the receiver to be set facing each other should be a pair of the same set. Erroneous combination may create a zone where objects cannot be detected.

Do not use a sensor system in a reflective configuration.
Doing so may hinder detection.
Mirrors can be used change the optical route.

When using more than 1 set of Safety Light Curtain, install them so that mutual interference does not occur, such as by configuring series connections or using physical barriers between adjacent sets.