Dorma Compact Slide CS Manual Download Page 3

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Emergency

(panic)

closing

The emergency

(panic) closing function must be adjusted

using

DIP

s'Nitch and hand terminal.

Initiate

a pules In the following

programme

switch

positions:

"AUTOMATIC", "EXIT ONLY", "PARTIAL OPENING" and
"PERMANENT

OPEN" (pushbutton).

• The door doses

immediately.

Interruption

of light barriers and pulse initiation from radar

detector should not open the door.

Canc~lIng emergency (panic)

closing

function:

Set programme

SlNitch to the -OFF'" position, then re-select the

required operating programme.

Then chock all other functions:

• opening by radar detector .

• change of direction

light barriers or radar detector.

The panic/emergency

closIng

function

Is governed

Lllspeclar

legal

requirements

and

statutory regulations.

Consequently

It Is Imperative

to ensure

compliance

with aU relevant

national

codes

of practice.

Setting

the OPENING

force limn to <15ON

Sliding

doors can be operated without hinged safety pocket

screens to protect the shear edges provided that the static
forces are limited to

<150N,

The torces can be limited in all new and old systems with

controls

entering the following settings using the Hand

Terminal (HT):

DORMA

.5-

Motor

Door type

CLOSING

fo",e

limn

max. force N

GR53x58

ST, FST

(max. input value)

OPENING fort:e limit setting

max. force N

140

In order to enhance the level of protection in the area

previously protected by safety sensors, a creep speed
distance in the OPENING

direction must be set at the doors of

67% (apprcx. 20 em).

The bottom line of the HT shows whether the terce limit of

150N has been exceeded or not.

The force limit can be set to < t

SON

by means of a key

function.

Reducing the 10rce limits restricts the permissible

motor

current with the result that door acceleration

and speed are

also reduced.

In order to limit the dynamic torces as per PR EN 12650, the

final version of which comes into force in

2001,

the creep

speed distance in tl1e

CLOSING

direction must be set to

100%, the CLOSING

speed must be set to 57%, the creep

speed in the CLOSING direction must be set to 53% and the

force limit in the CLOSING direction must be set to 85%.

These settings must, however, only be implemented

the door

is not equipped

with monitored

safety sensors (e.g. light

barrierslphotocells).

Summary of Contents for Compact Slide CS

Page 1: ...eaming cycle The two PhOnixconnectors on 1I1e right lland side have 1I1e following PIN nos end coding 1 TechnIcal data for the control system M81navobge Fua Motor connection Incremental encoder Upper I el 13 Lower Level Set Pin position To make the Interface connections In thecontrol unit Las 2 mm ftat tlppedacrewdrlver Is required 1 1 Terminal assignment input Input Input Output Output Output Out...

Page 2: ...riers are connected Components supplied separately such as programme switch activator and k cking mechanism are installed and connected The end stops are adjusted so that at maximum opening width both moving leaves are in contact with the stops when door is dosed neither moving leaves nor Inactive leaves toud l the sealing profile Commissioning Move the door leaf to half open position Move the pro...

Page 3: ...orces can be limited in all new and old systems with cs controls by entering the following settings using the Hand Terminal HT DORMA 5 Motor Door type CLOSING fo e limn max force N GR53x58 ST FST 88 max input value 96 OPENING fort e limit setting 60 max force N 140 In order to enhance the level of protection in the area previously protected by safety sensors a creep speed distance in the OPENING d...

Page 4: ...nternaVexternai radar detectors and nig tlbank activator Motor connections Joose or cable break Check wiring Cable break or short circuit on At the connector set wire jumper 10r programme switch PS AlJTOMATIC and in iate an opening pulse If the door opens check wiring Door does not open Internal external activator Remove activator connector Replace with Input jumper If this cures fault ched 24 V p...

Page 5: ...connessiooe 11 oN pin eead 12 Posjzione codificata F Schema de branehement Loglque de Comande II Sonen contact sans polentiel 1 Sonene contact sans potential Etal porte contad sans potenUel 1 Etat porte contact sans potenflel Fermeture panique 1 Masse OV 50s 1 Masse OV Commutateur ARR8 Commutateur AUTOMATIQUE CommUlateur SORTIE Commut OUVERTURE PARTIB LE Commut OUVERTURE PERMANETE Masse OV NuMlarq...

Page 6: ...ensor 5 Radar 1 External Sensor I GND 3 24 V 2 Presence Sensor GND lJl PNP J j NPN u PNP J I J NPN Schema de connexlon Platlne de connexlon 24V Raeepteur LS 2 I Raeepteur LS I Masse 1 24V Emetteur LS 2 Emetteur LS I D LED2 0 LEDI 1 24V 1 Verrouillage 1 Oeverrouillage 9 Retour 1 8 Retour 2 1 24V 8 Radar 2 Interieur 5 Radar I exterieur 4 Masse 3 24V 2 Capteur de presence ll Masse N PNP I J NPN u PNP...

Page 7: ...t bam GB Schema de connexlon 2 barrl re8 lumJneuses F Schema delle connessloe 2 Fotocellula dl slcurezza E E E E E E e a a Ul Ul Ul 100000001 119 1 17 1 1 14 1 i e e if if E E N N I l e i Scheda di connessione in in fl E E a a w w Ul Ul 100000001 1 1 17 1 1 14 131 Platina de connexion H H1 H 0 0 19 17 1 1 14 Connection print Without light barrier set jumper terminal 13 17 terminal 14 18 Sans cellu...

Page 8: ...barrier GB Schema de connexlon 1 barrieres lumineuaea Schema delle connesaloe 1 Fotocellula dl alcurezza U E Connection print Platina de connexion Scheda di connessione M o Wrthout light barrie sot jumper terminal 13 17 terminal 14 18 Sans cellule pholOOleclnique mett e en place Ie pont enfichable Borne 13 17 Borne 14 18 Sonza Fotocellule di Sicu ezza colk ca rew il ponticello Innestabile Terminal...

Page 9: ...l bloccaggJo con uneriore contatto di Jenno Diagrams de conexlones del bloqueo con el cantacta de bloquear adlclonal P1acade Bloqueo conexiones 24 V blanco Bloqooo mantln 2 DesbloqJOO rde m Info 1 blanco Inlo2 man6n Schema de branchement F du verroulllage avec Ie contact de verroulllage Bupph mentalre Platinade Verroullage connexion a crochet 24V bIanc VOrrouilla marron Devecrouilla wm 2 m Locking...

Page 10: ...0 Cl m01 lto lN N c Lock Motor OJ Platine de connexion n g fl I A IA l _ I t 0 1lIlC 8 CD c 3 0 0 0 0 I NulWa U8 8g 0 61 r c I mam 1 dJ 3 Ul I I I I ULJ I n o 7 13S matron ar i T iDo otOoo Commands c C oteur 0 0 0 c Verouillage acrochet IDlslnserllo 1Il 0 blanco t c I 0 3 0 en In io 0 0 In Nottel6aoca 1 Z 61 11 0 CO marrone 8 o c 0 dJ I CO I I l LJ 2 t lJ 0 c CD en I Units di comando g U a otore 0...

Page 11: ...S Steuerung Schema delle connes loe Modulo batterla con funzlone dllest p batten I 000 Schema de connexlon Module d accumulateur avec test de I accumulateur GB c i u E D 1 E E E 0 0 1 2 2 ron 8 0 1 9 0 2 Akku Modul 10 0 3 11 0 4 0 5 Softwareversion 0 6 V 1 03 12 br un 0 7 13 14 b1au Verrlegelung Wlnng Diagram rechargeable battery with battery lest function ...

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