SICK Safe Door Monitoring Safety system Operating instructions

Brand: SICK

Model: Safe Door Monitoring Safety system

Type: Operating instructions

O P E R A T I N G I N S T R U C T I O N S

Safe Door Monitoring

Safety system

Described product

afe Door Monitoring

Manufacturer

SICK AG

Erwin-Sick-Str. 1

79183 Waldkirch

Germany

Legal information

his work is protected by copyright. Any rights derived from the copyright shall be

reserved for SICK AG. Reproduction of this document or parts of this document is only

permissible within the limits of the legal determination of Copyright Law. Any modifica‐

tion, abridgment or translation of this document is prohibited without the express writ‐

ten permission of SICK AG.

The trademarks stated in this document are the property of their respective owner.

Original document

his document is an original document of SICK AG.

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Contents

1 Ordering information........................................................................ 5

1.1 Scope of delivery....................................................................................... 5

1.2 Safe Door Monitoring ordering data........................................................ 5

2 About this document........................................................................ 6

2.1 Purpose of this document........................................................................ 6

2.2 Scope......................................................................................................... 6

2.3 Target groups and structure of these operating instructions................ 6

2.4 Symbols and document conventions...................................................... 7

2.5 Further information................................................................................... 7

3 Safety information............................................................................ 8

3.1 Intended use............................................................................................. 8

3.2 Requirements for the qualification of personnel.................................... 8

3.3 Safe state.................................................................................................. 8

4 Product description........................................................................... 10

4.1 Product identification............................................................................... 10

4.2 Application description............................................................................. 10

4.3 Components of the safety system........................................................... 10

4.4 Limits of the safety system...................................................................... 10

4.5 Structure and function............................................................................. 11

4.6 Product characteristics............................................................................ 11

5 Project planning................................................................................ 12

5.1 Manufacturer of the machine.................................................................. 12

5.2 Operating entity of the machine.............................................................. 13

5.3 Safety Functions....................................................................................... 13

5.4 Design........................................................................................................ 15

5.5 Integrating the equipment into the electrical control............................. 15

5.6 Testing plan............................................................................................... 18

6 Mounting............................................................................................. 19

7 Electrical installation........................................................................ 20

7.1 Electrical installation SDM-RE1............................................................... 20

7.2 Electrical installation SDM-I10................................................................ 20

8 Configuration..................................................................................... 22

9 Commissioning.................................................................................. 23

9.1 Safety......................................................................................................... 23

9.2 Thorough check........................................................................................ 23

10 Maintenance...................................................................................... 24

CONTENTS

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11 Troubleshooting................................................................................. 25

12 Operation............................................................................................ 26

13 Technical data.................................................................................... 27

13.1 Data sheet................................................................................................. 27

14 Annex.................................................................................................. 28

14.1 Checklist for initial commissioning and commissioning........................ 28

CONTENTS

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1 Ordering information

1.1 Scope of delivery

Table 1: Safe Door Monitoring scope of delivery

Component Safe Door Monitoring variants

SDM-RE1 SDM-I10

DM-RE1 safety switch 1× –

DM-I10 safety locking device – 1×

SC-UE410 safety controller 1×

PM-ES11 emergency stop pushbut‐

1×

DSC-1208T000025KM0 T-piece 1× 2×

DSL-1208-G0M6C connection cable 1× 2×

STE–1208–G, Male connector, M12,

8-pin

1× 2×

DOS–1208–G, Female connector,

M12, 8-pin

2×

Operating instructions for download www.sick.com

1.2 Safe Door Monitoring ordering data

The Safe Door Monitoring variants differ in the component that they use for monitoring

he movable physical guard.

Table 2: Safe Door Monitoring ordering data

Component for monitoring

he movable physical guard

Locking function Type (Safe Door Mon‐

itoring variant)

Part number

DM-RE1 safety switch No SDM-RE1 1093037

DM-I10 safety locking device Yes SDM-I10 1093036

Table 3: Safe Door Monitoring accessories

Type Part number

Safety relay SR-UE10 1092502

ORDERING INFORMATION 1

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2 About this document

2.1 Purpose of this document

These operating instructions contain the information required during the life cycle of the

afety system. This document describes:

•

The individual components

•

The project planning

•

The mounting and electrical installation, insofar as special measures are neces‐

sary for the safety system

•

The configuration

•

The necessary thorough checks

•

The commissioning

•

The maintenance

•

The troubleshooting

2.2 Scope

These operating instructions contain information regarding the Safe Door Monitoring

afety system.

NOTICE

he operating instructions of the components also apply. In the event of contradictions

between the operating instructions, the information specified in the operating instruc‐

tions for the safety system applies.

The relevant information must be made available to the employees for all work per‐

formed on the safety system.

The following documents contain information regarding the Safe Door Monitoring safety

ystem:

Table 4: Documents available for Safe Door Monitoring

Document type Title Part number

Operating instructions RE1

DM-R

8022123

Operating instructions i10 Lock

DM-I10

8022124

Operating instructions Flexi Classic

-FC1

8021964

Operating instructions ES11

M-ES11

8022327

Operating instructions UE10-30S

-UE10

8022170

This document is included with the following SICK part numbers (this document in all

vailable language versions):

8022322

2.3 Target groups and structure of these operating instructions

These operating instructions are intended for the following target groups: project devel‐

oper

s (planners, developers, designers), installers, electricians, operators, and mainte‐

nance personnel.

2 A

BOUT THIS DOCUMENT

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Subject to change without notice

These operating instructions are organized by the life phases of the safety system:

oject planning, mounting, electrical installation, commissioning, operation and main‐

tenance.

2.4 Symbols and document conventions

The following symbols and conventions are used in this document:

Safety notes and other notes

DANGER

Indic

ates a situation presenting imminent danger, which will lead to death or serious

injuries if not prevented.

WARNING

Indic

ates a situation presenting possible danger, which may lead to death or serious

injuries if not prevented.

CAUTION

Indic

ates a situation presenting possible danger, which may lead to moderate or minor

injuries if not prevented.

NOTICE

Indic

ates a situation presenting possible danger, which may lead to property damage if

not prevented.

NOTE

Indic

ates useful tips and recommendations.

Instructions to action

The arrow denotes instructions to action.

1. The sequence of instructions for action is numbered.

2. Follow the order in which the numbered instructions are given.

✓

The check mark denotes the result of an instruction.

2.5 Further information

www.sick.com

he following information is available via the Internet:

■

This document in other languages

■

Operating instructions and installation instructions of SICK components suitable

for the safety system

■

Example project data for SISTEMA for this safety system

■

Guide for Safe Machinery (“Six steps to a safe machine”)

ABOUT THIS DOCUMENT 2

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3 Safety information

3.1 Intended use

The Safe Door Monitoring safety system is used in testing/inspection machines for

whic

h all the following features apply:

•

The separation of man and machine by a physical guard (e.g., machine housing) is

the primary safety concept.

•

Access to dangerous areas is only possible through a movable physical guard (e.g.,

sliding door).

•

Neither people nor body parts can be situated in the hazardous area when the

access opening is closed (presence detection or protection against reaching

around).

•

The access opening has a maximum size of 600 mm × 1,500 mm.

•

Each access opening is secured with its own safety system.

•

The stopping time of the machine is short enough to ensure that the dangerous

state which is present when the movable physical guard is opened comes to an

end before it is possible to reach the hazardous area.

Safe Door Monitoring is used to protect people.

3.1.1 Improper use

•

Ris

k analysis results in a required performance level of PL e

3.2 Requirements for the qualification of personnel

The protective device must be configured, installed, connected, commissioned, and ser‐

iced by qualified safety personnel only.

Project planning

For project planning, a person is considered competent when he/she has expertise and

experience in the selection and use of protective devices on machines and is familiar

with the relevant technical rules and national work safety regulations.

Mechanical mounting, electrical installation, and commissioning

For the task, a person is considered qualified when he/she has the expertise and expe‐

rience in the relevant field and is sufficiently familiar with the application of the protec‐

tive device on the machine to be able to assess whether it is in an operationally safe

state.

Operation and maintenance

For operation and maintenance, a person is considered competent when he/she has

the expertise and experience in the relevant field and is sufficiently familiar with the

application of the protective device on the machine and has been instructed by the

machine operator in its operation.

3.3 Safe state

In the safe state, the accordingly configured safe output signal switching devices are in

he OFF state. The safe state is initiated in the following cases:

•

The movable physical guard is opened.

•

The emergency stop pushbutton is actuated.

3 S

AFETY INFORMATION

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•

he voltage supply of the safety controller is interrupted.

•

An internal fault is detected on the safety controller, on one of its components, or

in the wiring.

When the safety system initiates the safe state, the machine manufacturer and user

mus

t ensure that the safe output signal switching devices are evaluated appropriately

and that the hazard is rectified.

SAFETY INFORMATION 3

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4 Product description

4.1 Product identification

The part number of the safety system is located on the packaging.

4.2 Application description

The Safe Door Monitoring safety system is used on stationary machines to reduce the

risk of someone being injured.

The safety system is used so that people can reach safely through the access opening

of the machine. It ensures that the dangerous state of the machine comes to an end as

soon as the movable physical guard is opened.

If the movable physical guard is opened, the machine is prevented from restarting unex‐

pectedly. The machine can only be restarted once the movable physical guard is closed.

An emergency switching off function with reset pushbutton is also integrated. Auto‐

mated restart of the machine is not possible if the emergency switching off function is

triggered. Restart is only possible once a manual reset has been performed.

The DSM-I10 variant also features a locking function for process protection.

4.3 Components of the safety system

•

C-UE410 safety controller

•

PM-ES11 emergency stop pushbutton

•

Depending on variant: DM-RE1 safety switch or DM-I10 safety locking device

•

Optional: SR-UE10 safety relay

Implementing all the safety functions for the application requires a complete system

consisting of sensors, a controller, actuators, and control switches. This safety system

comprises sensors and a controller only and is therefore only a subsystem. The user is

responsible for the safe design of the complete system and all safety functions.

4.4 Limits of the safety system

The safety system ends at all inputs and outputs that are not used to wire the compo‐

nent

s of the safety system.

The limits of the safety system are presented in abstract and general terms in the figure

below:

4 5

Figure 1: Limits of the safety system

Sensors and safety capable input devices

Logic (safety relay or safety controller)

Sub-safety function

Wiring between sensors and logic

4 PRODUCT DESCRIPTION

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Wiring between safety system components and components outside the safety system

Limit of the safety system

Components outside the safety system, e.g., actuators or higher-level controller

4.5 Structure and function

If the movable physical guard is opened, the machine is stopped by the signal from the

afety switch or the safety locking device.

As soon as all work in the hazardous area is complete and the movable physical guard

is closed, the machine is automatically restarted.

A stop command can be triggered manually in every operational status.

In the case of the SDM-I10 Safe Door Monitoring variant, the movable physical guard

can be locked by a signal from the higher-level control. The locking device is not moni‐

tored during this process and is used for process protection (not safe).

4.6 Product characteristics

4.6.1 Locking principle

Operating current locking principle

•

ocking the locking device: apply voltage to magnet

•

Unlocking the locking device: disconnect voltage from magnet

If voltage is disconnected at the magnet, the locking device is unlocked and the protec‐

tive device can be opened immediately.

DANGER

azard due to lack of effectiveness of the protective device

In the event of a voltage drop, the safety locking device unlocks regardless of whether

the dangerous state of the machine has ended.

Do not use the locking device for personal protection. It is designed solely for

process protection.

PRODUCT DESCRIPTION 4

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5 Project planning

5.1 Manufacturer of the machine

DANGER

azard due to lack of effectiveness of the protective device

In the case of non-compliance, it is possible that the dangerous state of the machine

may not be stopped or not stopped in a timely manner.

Use of the safety system requires a risk assessment. Check whether additional

protective measures are required.

Comply with the applicable national regulations derived from the application (e.g.,

work safety regulations, safety rules, or other relevant safety guidelines).

The safety system was developed under consideration of typical application cases. A

par

tial safety function can be implemented with the safety system in these application

cases. The manufacturer must check whether the safety system is suitable for its spe‐

cific application case (risk assessment).

If the thorough check shows that the safety system is not suitable for the specific appli‐

cation case, the safety system can be used as a basis for an individualized develop‐

ment suitable for the specific application case. This case will not be considered further

in this document.

In any event, additional work is necessary for the safety system to be used, e.g. subse‐

quent configuration of the safety controller.

The manufacturer has the following duties:

Executing a risk assessment.

Verifying and validating the safety functions.

Integrating the individual components in accordance with the appropriate stan‐

dards.

Please note that C standards have priority compared to statements about this

safety system.

5.1.1 Calculating the performance level

The performance level can be calculated with the SISTEMA files that are available

online f

or this safety system. A separate SISTEMA file is available for each of the two

Safe Door Monitoring variants.

5.1.2 Calculating the stopping time

The stopping time T

top time

is calculated based on the safety system response time

response

and the machine delay time T

deceleration

stop time

= T

response

+ T

deceleration

The safety system response time T

response

is based on the sum of the response times of

the individual components.

response

= T

sensor

+ T

safety controller

+ T

relay/contactors

Formula Meaning

sensor

DM-RE1 or DM-I10 response time

0 ms in e

ach case

afety controller

SC-UE410 response time in program 6

29 ms

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Formula Meaning

elay/contactors

SR-UE10 response time

20 ms

dece

leration

Time period between the safety relay or the

safe digital output signal switching devices

dropping out and the dangerous state coming

to an end (application-dependent).

The stopping time is therefore calculated as follows:

•

ith SR-UE10 safety relay:

stop time

= 49 ms + T

deceleration

•

With another safety relay:

stop time

= 29 ms + T

relay/contactors

+ T

deceleration

5.1.3 Reference standards

•

O 13849-1 Safety of machinery – Safety-related parts of control systems – Part

1: General principles for design

•

ISO 13849-2 Safety of machinery – Safety-related parts of control systems – Part

2: Validation

•

IEC 60204-1 Safety of machinery – Electrical equipment of machines – Part 1:

General requirements

•

ISO 13857 Safety of machinery – Safety distances to prevent hazard zones being

reached by upper and lower limbs

•

ISO 13855 Safety of machinery – Positioning of safeguards with respect to the

approach speeds of parts of the human body

•

ISO 14119 Safety of machinery – Interlocking devices associated with guards –

Principles for design and selection

•

ISO 13850 Safety of machinery – Emergency stop function – Principles for design

5.2 Operating entity of the machine

DANGER

azard due to lack of effectiveness of the protective device

In the case of non-compliance, it is possible that the dangerous state of the machine

may not be stopped or not stopped in a timely manner.

Changes to the electrical integration of the safety system in the machine control

and changes to the mechanical mounting of the safety system necessitate a new

risk assessment. The results of this risk assessment may require the entity operat‐

ing the machine to meet the obligations of a manufacturer.

Changes to the safety system’s configuration may impair the protective function.

The effectiveness of the safety system must be checked after any change to the

configuration. The person carrying out the change is also responsible for maintain‐

ing the protective function of the safety system.

5.3 Safety Functions

5.3.1 Initiating a stop

A safety-related stop function places the machine in a safe state on demand (e.g.,

openin

g of the movable physical guard).

This safety function consists of the following sub-functions:

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•

he state of the movable physical guard is monitored

•

The state of the external devices connected via external device monitoring (EDM)

is monitored

Table 5: Initiating a stop

Trigger Movable physical guard opens

Reaction The safety-related semiconductor outputs are in the OFF state. The machine

is stopped.

Safe state No dangerous movement

Table 6: Expected frequency of requesting the safety function

2,160 times per

ay (every 40 s)

Replacement of the test material

Total

788,400 times

per y

ear

Request for the safety function

NOTE

he expected frequency of the safety function request influences the SISTEMA calcula‐

tion. If other frequencies are to be expected – more frequent requests in particular –

the SISTEMA calculation must then be adjusted accordingly.

5.3.2 Emergency stop

Emergency stop is a complementary protective measure; it is not a primary means of

educing risk.

The safety function is available at all times and has priority before other functions.

Stopping in the event of an emergency must be designed as follows:

•

At the time of triggering, the dangerous movements and states of the machine are

ended in an appropriate manner

•

Aside from triggering the emergency stop function, no other action is needed from

a person to create a safe status

•

No additional dangers are created when ending the dangerous movement and sta‐

tuses

Table 7: Emergency stop

Trigger The emergency stop pushbutton is actuated.

Condition At any time

Reaction The safety-related semiconductor outputs are in the OFF state.

Safe state No dangerous movement

Table 8: Expected frequency of requesting the safety function

Once per day The emergency stop pushbutton is actuated.

Total

365 times per

year

Request for the safety function

Implementing all the safety functions for the application requires a complete system

consis

ting of sensors, a controller, actuators, and control switches. This safety system

comprises sensors and a controller only and is therefore only a subsystem. The user is

responsible for the safe design of the complete system and all safety functions.

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5.4 Design

This chapter contains information about implementing the design of the safety system.

y design-related contents of the relevant operating instructions also apply.

5.4.1 Emergency stop pushbutton

The emergency stop pushbutton must be integrated in accordance with ISO 13850.

5.5 Integrating the equipment into the electrical control

NOTE

veral safety functions are generally necessary in order to ensure a safe design for the

entire application. This requires additional components that are not part of the safety

system, such as switches, fuses, and contactors. The circuit diagrams contain informa‐

tion on wiring the safety system with additional components within an application.

5.5.1 Requirements for the electrical installation work

•

Ensur

e equipotential bonding between the safety system and higher-level control.

If equipotential bonding is not possible, ensure galvanic separation between

safety the system and higher-level control using other means.

•

The signal “estop activated” is a pulsed signal (test pulse width 12 ms; test pulse

interval 40 ms). Ensure that the higher-level control interprets the pulsed signal as

a static 24 V signal (filtering).

5.5.2 interfaces

Table 9: Interfaces for higher-level control

Designation according to circuit

dia

gram

Type Description

“Signal light reset” command Input signal This signal can be used to control the reset

pushbutton light. Lights are controlled at the

signal level HIGH (24 V)

“Reset required” status Output HIGH signal level (24 V) indicates that the

eset pushbutton has been activated.

“Estop activated” status Output LOW signal level (0 V) indicates that the emer‐

gency stop pushbutton has been activated.

The HIGH signal level (24 V) is assigned a test

pulse.

Test pulse interval: 40 ms

Test pulse width: 12 ms

Due to the test pulse, the evaluation signal

must be filtered. Only the signal level LOW (0 V)

> 12 ms indicates activation of the emergency

stop pushbutton.

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5.5.3 SDM-RE1 circuit diagram

The communication between the

standard plc with the safety plc

requires equipotential bonding.

Safety PLC Setting:

- Restart interlock for Estop

- Automatic restart for safety

switch

The communication between the

standard plc with the safety plc

requires equipotential bonding.

DSC-1208T/6058647

-XD1

PM-ES11/6044629

-SF1

Estop

Signal light

"reset required"

Push button

"reset"

DM-RE1/1090444

-BG1

M12

SR-UE10/1092502

-KF2

Function

Delay

SC-UE410/1090480

-KF1

1 2

-FC1

Circuit-Breaker

Power supply

Option

732 541 6 8

/ 1.6

Testpuls

/ 1.6

Testpuls

/ 1.6

Estop Ch1

/ 1.6

Estop Ch2

/ 1.7

EDM

24V

/ 1.5

/1.5

1.4

Testpuls

1.4

1.6

Testpuls

/1.4

Estop Ch1

/1.4

Estop Ch2

/ 1.6

Channel 1

/ 1.6

Channel 2

/ 1.4

Reset

/ 1.7

Reset

/ 1.7

EDM

/1.7

Channel 1

/1.7

Channel 2

/1.6

Testpuls

/ 1.5

24V

1.6

1.7

1.4

1.7

24V

/ 1.5

24V

/1.5

/ 1.6

Channel 1

/ 1.6

Channel 2

/ 1.6

/1.4

Channel 1

/1.4

Channel 2

OUT1

Command "signal light reset" from PLC

IN2

Status "reset required" to PLC

IN1

Status "estop activated" to PLC

24V

/ 1.5

+24VDC

0VDC

Figure 2: SDM-RE1 circuit diagram

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5.5.4 SDM-I10 circuit diagram

The communication between the

standard plc with the safety plc

requires equipotential bonding.

Safety PLC Setting:

- Restart interlock for Estop

- Automatic restart for safety

switch

The communication between the

standard plc with the safety plc

requires equipotential bonding.

The communication between the

standard plc with the safety plc

requires equipotential bonding.

PM-ES11/6044629

-SF1

Estop

Signal light

"reset required"

Push button

"reset"

Function

Delay

SC-UE410/1090480

-KF1

SR-UE10/1092502

-KF2

DSC-1208T/6058647

-XD1

DSC-1208T/6058647

-XD2

1 2

-FC1

Circuit-Breaker

Power supply

Option

DM-I10/6033754

-BG1

Door monitor

Door locking

Lock monitoring

732 541 6 8

/ 2.6

Testpuls

/ 2.6

Testpuls

/ 2.6

Estop Ch1

/ 2.6

Estop Ch2

/ 2.7

EDM

24V

/ 2.5

/2.5

2.4

Testpuls

2.4

2.6

Testpuls

/2.4

Estop Ch1

/2.4

Estop Ch2

/ 2.6

Channel 1

/ 2.6

Channel 2

/ 2.4

Reset

/ 2.7

Reset

/ 2.7

EDM

/2.7

Channel 1

/2.7

Channel 2

/2.6

Testpuls

/ 2.5

24V

2.4

2.6

2.7

2.4

2.7

24V

/ 2.5

24V

/2.5

/ 2.6

Channel 1

/ 2.6

Channel 2

/ 2.6

/2.4

Channel 1

/2.4

Channel 2

IN3

Status "door locked" to PLC

OUT2

Command "lock door" from PLC

IN4

Status "door closed" to PLC

OUT1

Command "signal light reset" from PLC

IN2

Status "reset required" to PLC

IN1

Status "estop activated" to PLC

24V

/ 2.5

24V

/ 2.5

+24VDC

0VDC

Figure 3: SDM-I10 circuit diagram

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5.6 Testing plan

The safety system must be thoroughly checked by appropriately qualified safety person‐

l during commissioning, after changes at regular intervals.

The regular thorough checks serve to assess the effectiveness of the safety system and

to identify defects as a result of changes or other influences (e.g., damage or manipula‐

tion).

The manufacturer and user must define the type and frequency of the thorough checks

on the basis of the application conditions and the risk assessment. Determination of

the thorough checks must be documented in a traceable manner.

•

A thorough check must be carried out during commissioning and following modifi‐

cations.

•

The regular thorough checks of the safety system must fulfill certain minimum

requirements. The minimum requirements for the thorough check of the safety

system comply at least with the sum of the minimum requirements for the thor‐

ough check of the components of the safety system (see operating instructions of

the components).

•

In many cases, depending on the application conditions, the risk assessment can

determine that further thorough checks are required.

Further chapters

•

horough check, see "Commissioning", page 23

•

Checklist for initial commissioning and commissioning, see "Annex", page 28

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6 Mounting

Important information

NOTICE

Incor

rect mounting and unsuitable ambient conditions may damage the safety switch.

Arrange the sensor and actuator in a way that prevents damage from foreseeable

external influences.

Do not use the sensor and actuator as a stop.

The holder and mounting method for the sensor and actuator must be stable

enough to ensure that correct operation can take place.

Always use reliable mounting elements that can only be removed using tools.

If misalignment results in an opening on the physical guard, this must not impair

the protection that is provided.

Approach

NOTE

Inf

ormation is included in the operating instructions for the components.

MOUNTING 6

8022320/2018-04-12 | SICK O P E R A T I N G I N S T R U C T I O N S | Safe Door Monitoring

Subject to change without notice

7 Electrical installation

7.1 Electrical installation SDM-RE1

Prerequisites

or the electrical installation, observe the following:

•

All connections must comply with the requirements of the selected category

according to ISO 13849 (e.g., protected cable laying or shielded cable sheaths).

•

OSSDs and external device monitoring (EDM) must be wired inside the control cab‐

inet.

•

The control cabinet and the wiring it contains must meet the requirements of IEC

60204.

Approach

Interconnect the components as follows:

Figure 4: Electrical installation of Safe Door Monitoring

DM-ES11

DSL-1208-G0M6C connection cable

6058647 T-connector

SC-UE410

DM-RE1

Connection to the higher-level control or to the SC-UE410 safety controller must be

arried out by the customer: see "SDM-RE1 circuit diagram", page 16. Appropriate

plug connectors are included in the scope of delivery.

Complementary information

NOTE

dditional information is included in the operating instructions for the components.

Further topics

•

"SDM-R

E1 circuit diagram", page 16

7.2 Electrical installation SDM-I10

Prerequisites

or the electrical installation, observe the following:

7 ELE

CTRICAL INSTALLATION

O P E R A T I N G I N S T R U C T I O N S | Safe Door Monitoring 8022320/2018-04-12 | SICK

Subject to change without notice

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SICK Safe Door Monitoring Safety system Operating instructions

SICK Safe Door Monitoring Safety system Operating instructions

SICK Safe Door Monitoring Safety system Operating instructions

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