WAGNER TITANUS SUPER-SENS Technical Manual
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WAGNER TITANUS SUPER-SENS Technical Manual

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  • Page 1 www.acornfiresecurity.com www.acornfiresecurity.com...
  • Page 2 www.acornfiresecurity.com www.acornfiresecurity.com...

  • Page 3: Technical Manual

    Air Sampling Smoke Detection System ® TITANUS SUPER·SENS Technical Manual Revision a WAGNER Group GmbH Schleswigstraße 1 - 5 D-30853 Langenhagen item number: 69-30-0176 Telephone +49 (0) 511 / 97383-0 dated: 02/09 Telefax +49 (0) 511 / 97383-140 supersedes:...
  • Page 4 www.acornfiresecurity.com www.acornfiresecurity.com...
  • Page 5 www.acornfiresecurity.com ® Contents TITANUS SUPER·SENS Contents General 0 – 1 Introduction Safety Information Guarantee Copyright Packaging Disposal Product Description 1 – 1 ® Characteristics of TITANUS SUPER·SENS Areas of Application Technical Description 2 – 1 System Description 2.1.1 Function 2.1.2 Features ®...
  • Page 6 www.acornfiresecurity.com ® TITANUS SUPER·SENS Contents Contents Design 4 – 1 General 4.1.1 Regulations 4.1.2 Pipe system 4.1.3 Air flow monitoring 4.1.4 Sensitivity 4.1.5 Project planning limits Project planning 4.2.1 Project planning guidelines 4.2.1.1 Determining the necessary accessories 4.2.2 Pipe accessories 4.2.3 Sensitivity and pipeline project planning 4.2.3.1...
  • Page 7 www.acornfiresecurity.com ® Contents TITANUS SUPER·SENS Contents Mounting Location ® 5.5.1 Fixing of the air sampling system TITANUS 5.5.2 Connection of the air sampling pipe Electrical Connection 5.6.1 Connection diagram 5.6.2 Connection without central fire panel 5.6.3 Connection to central fire panel with reset button or relay contact 5.6.4 Connection to central fire panel with reset board...
  • Page 8 www.acornfiresecurity.com ® TITANUS SUPER·SENS Contents Contents Air return Noise suppressor 3-Way ball valve Steam trap Test adapter Commissioning 7 – 1 Adjustment air flow sensor 7.1.1 Adjustment dependent on the air pressure 7.1.2 Adjustment independent of the air pressure Detector head and alarm transmission Air Flow Monitoring Fault signal transmission ®...
  • Page 9 www.acornfiresecurity.com ® Contents TITANUS SUPER·SENS Contents Appendix Air Pressure Adjustment Tables Projection Tables System Product List Certificate of Approval of Components and Systems EMC Declaration of Conformity Inspection Protocol Glossary Conformity certification pursuant to EU TSS_inhalt-en-e Data: 02/09 www.acornfiresecurity.com...
  • Page 10 www.acornfiresecurity.com ® TITANUS SUPER·SENS Contents TSS_inhalt-en-e Data: 02/09 www.acornfiresecurity.com...

  • Page 11: Safety Information

    For damage and faults resulting from the non-observance of this manual WAGNER Group GmbH, called WAGNER in the following, does not assume liability. This manual refers to the air sampling smoke detection systems TITANUS ®...
  • Page 12 • force majeure 0.4 Copyright The copyright in this Technical Manual remains with WAGNER. The manual is designed exclusively for the assembler and his colleagues. Reproduction of the manual, including extracts, is not allowed. Copying or distribution of the manual in any form is only allowed with permission in writing from WAGNER.
  • Page 13 www.acornfiresecurity.com ® TITANUS SUPER·SENS General 0.5 Packaging The individual air sampling smoke detection systems are packed in accordance with the anticipated transport conditions. Exclusively environmentally friendly materials were used for the packaging. The packaging is intended to protect the air sampling smoke detection system from being damaged until it is installed.
  • Page 14 www.acornfiresecurity.com ® General TITANUS SUPER·SENS 0 – 4 Data: 02/09 TSS_00_A-en-e www.acornfiresecurity.com...

  • Page 15: Product Description

    The unique air flow sensor technology used in all WAGNER-air sampling systems guarantees the detection of faults such as pipe fracture or blockage of single air sampling points.
  • Page 16 www.acornfiresecurity.com ® Product Description TITANUS SUPER·SENS Project Planning of Point-Type Detectors The air sampling points can be compared to point-type detectors. The monitoring areas comply with the valid national regulations. Choice of ventilator voltage The fan voltage can be set according to project planning by re-plugging the plug-in jumpers.

  • Page 17: Areas Of Application

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Product Description 1.2 Areas of Application ® The air sampling smoke detection system TITANUS SUPER·SENS is a technology used for early smoke detection and very early smoke detection for rooms and equipment. Principle Air samples are drawn from the protected area via a pipe system with defined air sampling points and passed to the detector module.
  • Page 18 www.acornfiresecurity.com ® Product Description TITANUS SUPER·SENS ® TITANUS is suitable for: Room protection Rooms such as: • floor voids, ceiling voids • tunnels, ducts, voids with difficult access • storage areas, high-rack storage, elevator shafts • museums, cultural centre’s • deep-freeze storage TI T R ·...
  • Page 19 www.acornfiresecurity.com ® TITANUS SUPER·SENS Product Description Room monitoring with air conditioning Room monitoring takes place • in air-conditioned rooms for servicing etc • in ventilation ducts • of floor voids, ceiling voids • in EDP rooms, E-distribution cabinets, transformer cells •...
  • Page 20 www.acornfiresecurity.com ® Product Description TITANUS SUPER·SENS 1 – 6 Data: 02/09 TSS_01_A-en-e www.acornfiresecurity.com...

  • Page 21: Technical Description

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description 2 Technical Description 2.1 System Description ® The air sampling smoke detection system TITANUS consists of the ba- sic device, the pipe system and accessories. The most important components of the basic device are the highly sensi- tive smoke detector to detect the smoke aerosols and the aspiration unit to pass the air samples to the smoke detector as well as the air flow sen- sor in order to monitor the pipe system for fracture and blockage.
  • Page 22 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS Detector Head If the detector head detects smoke aerosols in the air sample the current ® smoke level is indicated by TITANUS through the level display. The three alarm levels alert, action and fire alarm are indicated by LED’s and can be passed to the central fire panel via potential-free contacts.
  • Page 23 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description Fault Display A detector head or air flow fault causes a fault signal which is indicated at ® TITANUS . The fault display can be set to a latched (standard mode) or non-latched mode (refer to page 5.5). In case of a standard mode the fault is to be reset by means of a reset button after the cause has been eliminated.
  • Page 24 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS 2.1.2 Features Sensitivity The different sensitivities of the detector head can be pre-set through switch settings on the base board so that an optimum adaptation to the given application is possible. ® The standard setting of TITANUS is the display sensitivity 0.01% light obscuration/m (sensitivity level II, refer to F ig.
  • Page 25 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description Relay Outputs For each alarm threshold (alert, action, fire alarm) and for the collective ® fault TITANUS has a potential-free switching-over contact. Thus, the air sampling smoke detection system can be connected to collective and addressable detection lines of any central fire panel.
  • Page 26 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS ® Network System The danger management and information system VisuLAN serves the ® state control of all TITANUS in the network. Thus, the operator in the control room can centrally monitor the whole installation as far as smoke level, air flow values etc.
  • Page 27 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description ® 2.2 TITANUS and Accessories 2.2.1 Overview Connec t ions central fire panel / power supply front film sheet pipe systems reset board (option) ® TITANUS device support (option) fire detection pipe adapter cable connection cable (option) diagnostic...
  • Page 28 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS ® 2.2.2 Basic device TITANUS ® The basic device TITANUS consists of the following components: plastic housing highly sensitive detector head with the latest technology according to optical scattered light detectors air sampling unit with air flow monitoring optical displays for "smoke level", "alarm", "fault"...
  • Page 29 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description ® Numbers Function Explanation TITANUS F ig. 2.5 displays (refer to F ig. 2.6) smoke level display 1 to 10 current smoke level (20 yellow LEDs) fire alarm (red LED) level 10 level 7 action alarm (red LED) level 3.5 alert alarm (red LED)
  • Page 30 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS 2.2.3 Diagnostic tool DIAG+ DIAG+ 3 .5 "-disks with e valuation software conne ction cable diagnostic inte rface (pre -fabricate d cable ) conne ction cable for PC re ce iving diode 3 .5 "-disks with batte ry case e valuation software diagnostic de vice...
  • Page 31 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description The remote display unit has also an infrared-LED to transmit data to the diagnostic device. Thus, an easy reading out of the data is possible even ® if TITANUS is mounted so that it is not readily accessible. Through the ®...
  • Page 32 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS State and ® fault information TITANUS passes the following state information and fault information to the diagnostic device: Main Window Current State Measure/Help Text pipe fracture air flow value has ex- check for pipe fracture, if ceeded the set threshold necessary eliminate the pipe fracture...
  • Page 33 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description Main Window Current State Measure/Help Text fault set value storage storage faults initialize the air flow no set value stored initialize the air flow power ON reset base board has been set check the external voltage off and on again (Notice: supply Information only as stored...
  • Page 34 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS 2.2.4 Remote display units blind plate for 19"-subrack remote display unit in wall housing remote display unit for 19"-subrack Fig. 2.8: Remote display unit for 19“-subracks and wall mounting ® TITANUS has connectors for a maximum number of two remote display units per device.
  • Page 35 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description 2.2.5 Device supports rack support TITANUS ® ® Fig. 2.9: Support for the air sampling smoke detection system TITANUS ® TITANUS can be directly mounted on a wall. If required, additional supports are available e.g. for the fixing at racks. 2 –...

  • Page 36: Pipe System

    www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS 2.3 Pipe system 2.3.1 Overview of available pipe components C o n n ec t io n s ste am trap pipe syste m 9 0 ° arc sle e ve sam pling hose - spe cial filte r ce iling fe e d through...
  • Page 37 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description Blow-through system In areas where dust particles or icy conditions are possible it might be necessary to blow through the air sampling pipe system and aspiration points. Figs. 2.11 show the components of a manual blow-through sys- tem.
  • Page 38 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS 2.3.2 Air sampling points for room monitoring 2.3.2.1 Aspiration-reducing film sheets Fig. 2.12: Air sampling point with aspiration-reducing film sheet and marking tape An air sampling point is a 10 mm-hole in the air sampling pipe. This hole is sealed by means of a patented aspiration-reducing film sheet which has an opening of the required diameter.
  • Page 39 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description 2.3.2.2 Air flow reducer clips air flow reducer for deep freeze storage areas plastic clip for air flow reducer Fig. 2.13: Air flow reducer for dirty areas and deep freeze storage The air sampling points, when used in areas where blockages can occur, are equipped with a patented plastic clip, type AK-C, and a patented flexi- ble air flow reducer, type AK-x (refer to Fig 2.13).
  • Page 40 35 mm. The aspiration-reducing film sheets are available in two colours (pure white, RAL 9010 and papyrus white, RAL 9018) and come in special colours if required. calculation is made by WAGNER 2 – 20 Data: 02/09 TSS_02_B-en-e www.acornfiresecurity.com...
  • Page 41 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description 2.3.4 Air filter for dusty areas ® Fig. 2.15: TITANUS with air filter In highly dusty areas air filters are to be used in order to protect the de- tector head of the device. These soiling can occur e.g. in areas with fresh air supply.
  • Page 42 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS 2.3.5 Air return for pressurised and dusty areas ® Fig. 2.16: Air return with TITANUS ® If the air sampling smoke detection system TITANUS SUPER·SENS and the pipe system are installed in two areas P1 and P2 with different air pressures the air is to be returned to the pressure area of the pipe system (refer to F ig.
  • Page 43 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Description 2.3.6 Noise suppressor screw joint PG29 noise suppressor ® TI TANUS pipe adapter blind plug ® Fig. 2.18: TITANUS with noise suppressor By using the SD-1 noise suppressor, the noise level can be reduced by up to 10 db(A) for use in areas in which low noise emissions are required ®...
  • Page 44 www.acornfiresecurity.com ® Technical Description TITANUS SUPER·SENS 2.3.7 Steam trap for humid areas Fig. 2.19: Steam trap to eliminate water vapour from the pipe system and to collect the con- densate from the pipe system ® If TITANUS is used in environments with high humidity condensate can occur in the air sampling system.

  • Page 45: Technical Data

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Data 3 Technical Data All listed power values relate to a surround temperature of 20ºC. INSTRUCTION ® 3.1 TITANUS ® TITANUS SUPER·SENS supply voltage (Ue) 14 to 30 V DC (at 12 V ventilator voltage) Voltage min.
  • Page 46 www.acornfiresecurity.com ® Technical Data TITANUS SUPER·SENS ® TITANUS SUPER·SENS material plastic (ABS) Housing color housing papyrus white, RAL 9018 ® TITANUS SUPER · SENS – 20° to +60°C Temperature Range construction type radial Ventilator Fan service life of the ventilator fan 65.000 h at 40°C (12 V) displays at the device...
  • Page 47 www.acornfiresecurity.com ® TITANUS SUPER·SENS Technical Data ® TITANUS SUPER·SENS Sensitivity Display Sensitivity Level 0.02% light obscuration/m 0.01% light obscuration /m 0.005% light obscuration /m 0.0025% light obscuration /m ® 3.2 Accessories – TITANUS Remote displays for ® TITANUS SUPER·SENS voltage 15 to 30 V DC Remote Displays current consumption (at 24 V)
  • Page 48 www.acornfiresecurity.com ® Technical Data TITANUS SUPER·SENS ® 3.3 Pipe system TITANUS Pipe system for ® TITANUS SUPER·SENS max. pipe length 200 m Pipe system max. number of air sampling points max. length of air sampling hose per ceiling lead through temperature range PVC-pipe 0°C.
  • Page 49 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4 Design 4.1 General The following describes the project planning of the air sampling smoke detection system to EN 54-20. The basic conditions are described in Chapter 4.1. The project planning is to be conducted in accordance with Chapter 4.2.
  • Page 50 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.1.1 Regulations The current respective national regulations in each particular country must also be complied with and project planning must be adjusted to such regulations. EN 54-20 The air sampling smoke detection systems shall be planned in accor- dance with the project planning guidelines described in Chapter 4.2.1 in order to be compliant with EN 54-20.
  • Page 51 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.1.2 Pipe system When planning the pipe system, it must be ensured that reliable fire de- tection is guaranteed for any fire present in an installation or in a moni- tored area. Fig. 4.1 depicts an example of a U-pipe system with symmet- rical or asymmetrical design and the diameters of the aspiration aper- tures calculated according to Chapter 4.6.2 “Standard planning.”...
  • Page 52 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS Longer pipe intake lines Pipes with a diameter of 32mm or 40mm may be used for long pipe in- take lines in accordance with the chapter "Special project planning". This reduces the air resistance of the pipe intake line or makes it possible to achieve a greater equilibrium for sampling via outgoing transmission lines.
  • Page 53 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design ® I-pipe syste m ® U-pipe syste m TITANUS ® M-pipe syste m ® Double -U-pipe syste m Fig. 4.2: Pipe designs Direction change Angles and bends in the pipe system increase flow resistance. For that reason, it is necessary to limit the number of them to the amount re- quired.
  • Page 54 TITANUS SUPER·SENS Special cases If the pipe system does not match the project planning guidelines de- scribed here due to structural constraints, WAGNER should make the in- dividual calculations for such a case. Checking Check detection reliability with activation tests in cases where use of the system is critical.
  • Page 55 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.1.3 Air flow monitoring EN 54-20 requires the recognition of a 20 percent change in the air flow volume by the detector module’s air flow sensor system. In order to ac- complish this, the air flow sensor system’s triggering threshold must be set to level III.
  • Page 56 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS Level I limitations The air flow monitoring may only be set to level I if: Project planning according to “Individual aperture monitoring” has been carried out (see Chap. 4.3.1 “Pipe project planning individual aperture monitoring”), the air flow sensor has been compensated depending on the air pres- sure (see Chap.
  • Page 57 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.1.4 Sensitivity According to EN 54-20, the sensitivity of a air sampling smoke detection system can be divided into particular fire sensitivity classes. These sensi- tivity classes describe particular example applications in which the sys- tems can be used.
  • Page 58 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.1.5 Project planning limits The following limit values must be complied with at all times with the ® TITANUS per pipe system connected: The minimum pipe length between 2 aspiration apertures is 4 m. The maximum pipe length between 2 aspiration apertures is 12 m.

  • Page 59: Project Planning

    Components which have not been approved by WAGNER are used, CE conformity on the basis of EN 54-20 will not be possible. INSTRUCTION...
  • Page 60 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.2.2 Pipe accessories Air filters Type Application Examples LF-AD Coarse filter for separating Dust, insects, fibres, hair, particles > approx. 15 µm cinders, pollen LF-AD-1 Filter for separating particles As above. Additionally: > approx. 10 µm Colour pigments and fine dust LF-AD-2...
  • Page 61 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.2.3 Sensitivity and pipeline project planning 4.2.3.1 Pipeline project planning with pipe accessories The following project planning tables for pipeline project planning can be found in the appendix for each previously selected pipe accessory. Project planning without filter Project planning with LF-AD air filter Project planning with LF-AD-1 air filter...
  • Page 62 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS Procedure In the following example, a project plan is supposed to fulfil class B re- quirements without air filters, with 8 apertures and with the additional use of a condensation separator. The red arrows show the possible project plans with varying pipe shapes and fan voltages.
  • Page 63 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4 – 15 TSS_04_A-en-e Data: 02/09 www.acornfiresecurity.com...
  • Page 64 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS Results: The following modules may optionally be used with the corresponding settings for class B or A: setting the sensitivity on 0,025 % LT/m setting the sensitivity on 0,05 % LT/m setting the sensitivity on 0,1 % LT/m setting the sensitivity on 0,2 % LT/m Possible system parameters: U- pipe system...
  • Page 65 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.2.4 Aperture diameter The aperture diameters of the aspiration apertures can be found in the corresponding table for the respective pipe configuration: I-Pipe Fig. 4.3: I –pipe system Number of Aspiration apertures apertures Sampling aperture ∅...
  • Page 66 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS U-Pipe ® TITANUS Fig. 4.4: U –pipe system Number of aper- Aspiration apertures tures Sampling aperture ∅ in mm — — — — — — — — — — — — — — — —...
  • Page 67 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design Double-U-pipe ® Fig. 4.6: Double-U-pipe system Aspiration apertures Number of apertures Sampling aperture ∅ in — — — — — — — — — — — — — — — Press cut diameter in aspiration-reducing film sheet 4 –...
  • Page 68 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3 Special project planning 4.3.1 Project planning for individual aperture monitoring The following system parameters apply to the detection of an individual or a particular number of blocked aspiration apertures, depending on pipe configuration. The specifications according to Chapter 4.2 apply to project planning.
  • Page 69 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design Number of aper- Aspiration apertures tures Sampling aperture ∅ in mm — — — — — — — — — — — — — — — — — — — — — — — —...
  • Page 70 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3.1.2 U-Pipe system ® TITANUS Fig. 4.8: U-Pipe system for area protection ® Min. distance from TITANUS to T-piece Limit values ® Max. distance from TITANUS to T-piece 20 m Max. Branch length 60 m Max.
  • Page 71 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design U-pipe system triggering thresholds Number of aper- per pipe system tures 1 blocked aperture — — — — 2 blocked apertures — — 3 blocked apertures — 4 blocked apertures 5 blocked apertures 6 blocked apertures 7 blocked apertures 8 blocked apertures …...
  • Page 72 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3.1.3 M-Pipe system ® TITANUS ® TITANUS Fig. 4.9: M-Pipe system for area protection ® Min. distance from TITANUS to T-piece Limit values ® Max. distance from TITANUS to T-piece 20 m Max. Branch length 50 m Max.
  • Page 73 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design M-pipe system triggering thresholds Number of apertures per pipe system 1 blocked aperture — 1 0 F 2 blocked apertures 1 1 F 3 blocked apertures 4 blocked apertures 5 blocked apertures 6 blocked apertures …...
  • Page 74 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3.1.4 Double-U-Pipe system ® TITANUS Fig. 4.10: Double -U-Pipe system for area protection ® Min. distance from TITANUS to T-piece Limit values ® Max. distance from TITANUS to T-piece 20 m Max. Branch length 30 m Max.
  • Page 75 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design Double U-pipe system triggering thresholds Number of apertures per pipe system 1 blocked aperture — — 1 3 F 2 blocked apertures — 4 blocked apertures 1 4 F 6 blocked apertures 8 blocked apertures …...
  • Page 76 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3.2 Simplified pipe project planning Simplified project planning is used for equipment protection and in rooms with small dimensions. The advantage in this project planning is the uni- form diameters of the aspiration apertures. The specifications according to Chapter 4.2 apply to project planning.
  • Page 77 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.3.2.2 U-pipe system ® TITANUS ® TITANUS Fig. 4.12: U-pipe system, such as for equipment protection ® Min. distance from TITANUS to 1st sampling aperture Limit values ® Max. distance from TITANUS to 1st sampling aperture 10 m Max.
  • Page 78 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3.2.3 M-pipe system ® TITANUS ® TITANUS Fig. 4.13: M-pipe system, such as for equipment protection ® Min. distance from TITANUS to 1st sampling aperture Limit values ® Max. distance from TITANUS to 1st sampling aper- 10 m ture Max.
  • Page 79 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.3.2.4 Double U-pipe system ® TITANUS ® TITANUS Fig. 4.14: Double U-pipe system, such as for equipment protection ® Limit values Min. distance from TITANUS to 1st sampling aperture ® Max. distance from TITANUS to 1st sampling aperture 10 m Max.
  • Page 80 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3.3 Project planning with long intake lines Project planning for long pipe intake lines may only be carried out under use of pipes with a diameter of 32 mm or 40 mm. Observe national regulations during project planning! INSTRUCTION The pipe intake line here refers to the pipe system between the air sam- pling smoke detection system and the last T-piece (U- and double U-...
  • Page 81 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design 4.3.4 Project planning for forced air flow In case of project planning with forced air flow, please select the highest alarm level according to the international specifications. INSTRUCTION 4.3.4.1 Detection of climatic cabinets with circulating air Fig.
  • Page 82 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS Fig. 4.17: Monitoring possibilities of a climatic cabinet with circulating air A room as illustrated in Fig. 4.17 is monitored by mounting a pipe system at the air inlet of the climatic cabinet with circulating air (refer to type 1).
  • Page 83 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design ® TITANUS climatic cabinet with circulating air front view ® TITANUS pipe system with air sampling points pipe air sampling point of the climatic cabinet support plan view Fig. 4.18: Pipe system in front of the air inlet of a climatic cabinet with circulating air High aspiration potential If the climatic cabinets have a high aspiration potential the flow speed near the air inlets or air outlets is very high.
  • Page 84 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS Fig. 4.19: Monitoring of climatic cabinets (scheme) Air Sampling Points The air sampling points of the pipe system have to point towards the air flow (refer to Fig. 4.19). The optimum angle to the air flow direction is to be determined through a smoke test.
  • Page 85 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design ® Fig. 4.20: Monitoring of 2 climatic cabinets with two TITANUS Several climatic cabinets ® with several TITANUS If the conditions (same design of the climatic cabinets, tandem operation ® etc.) cannot be fulfilled a separate pipe system and one TITANUS is to be installed at each climatic cabinet (refer to Fig.
  • Page 86 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.3.4.2 Detection of air conditioning ducts Air conditioning duct monitoring Air conditioners are distinguished between low-speed and high-speed systems (see table below). The specifications provided in this chapter apply only to low-speed systems. There are not enough empirical val- ues available for high-speed systems.
  • Page 87 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design If it is absolutely necessary to attach the pipe system directly behind baf- fles, sound suppressers or angles, the main flow speed areas will have to be monitored (see Fig. 4.22/23). Fig. 4.22: Change in direction of a duct without baffles sound absorption hole air conditioning duct...
  • Page 88 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS Fig. 4.24: Air return Air return The air return must take place at a distance of at least 2 m from the sam- pling. The open end of the air recirculation should be bevelled at a 45° angle (see Fig.
  • Page 89 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design The distances of the aspiration apertures to each other and to the wall of the duct are represented in the following table. Duct cross section Duct cross section Bore distance ≤ 0.5 m² > 0.5 m² Distance from aspiration 100 to 200 mm 200 to 300 mm...

  • Page 90: Mains Supply

    www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4.4 Mains supply The alarm-ready status in the fire protection system and the aperture of an alarm are taken into account when rating the external mains supply. In the system's alarm-ready status, the mains supply must supply standby current to the air sampling smoke detection systems and ensure that the emergency power batteries are charging in accordance with DIN VDE 0833 Part 1.
  • Page 91 www.acornfiresecurity.com ® TITANUS SUPER·SENS Pipe Design Line calculation The maximum line length results from the permissible drop in voltage on the input line. The permissible drop in voltage is the difference of the final discharging voltage of the emergency power battery (21.5 V) and the low- ermost operating voltage limit of the air sampling smoke detection sys- tems.
  • Page 92 www.acornfiresecurity.com ® Pipe Design TITANUS SUPER·SENS 4 – 44 Data: 02/09 TSS_04_A-en-e www.acornfiresecurity.com...
  • Page 93 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation ® 5 Installation of TITANUS 5.1 General The regulations, guidelines and instructions given in chapter 4.1 are valid. ® When installing the TITANUS air sampling system, the following must be taken into consideration: there should be no changes made to the equipment. Where this is unavoidable the operator, manufacturer and/or supplier must be in- formed (written approval) any changes in the supply network (230 V/400 V supply) and exter-...
  • Page 94 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS ® 5.2 Opening the TITANUS air sampling smoke detection system ® Fig. 5.1: Opening the TITANUS air sampling smoke detection system The components on the base board are not allowed to be touched with- out an antistatic set (except for DIL-switches and buttons)! ATTENTION ESD- protective mat set, e.g.

  • Page 95: Base Board

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.3 Settings 5.3.1 Base board ® Fig. 5.2: Settings on the base board of TITANUS Contact I (9) of the switch S2 has no function. 5.3.1.1 Delay Period of the Air Flow Fault Delay Period Set the delay period for the transmission of the fault signal via the ®...
  • Page 96 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.3.1.2 Activating Threshold of the Air Flow Monitoring Set the activating threshold of the air flow fault via the switch S2 (C, D) ® on the base board (refer to F ig. 5.2) of TITANUS Activating Thresholds Switch S2 Switch S2...
  • Page 97 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.3.1.4 Setting of the Response Sensitivity The sensitivity of the detector head is usually set via the switch S2 (G, H) ® on the base board (refer to F ig. 5.2) of TITANUS . The following table ®...
  • Page 98 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.3.1.6 Alarm Thresholds ® TITANUS has three alarm thresholds, to which a defined bargraph-level as threshold value belongs. The sensitivity at the smoke level display 10 depends on the chosen response sensitivity (refer to tables in chapter 5.3.1.4).
  • Page 99 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.4 Installation of the reset board ® As an option the reset board can be installed into TITANUS . If several ® TITANUS SUPER · SENS are connected to one detection line the reset board is only installed into the last device on the detection line (refer to F ig.
  • Page 100 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS ® Fig. 5.4: Installation of the reset board in TITANUS ® ® Installation in TITANUS In order to install the reset board in TITANUS the following steps are to be followed (refer to F ig. 5.4): ®...

  • Page 101: Mounting Location

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.5 Mounting Location ® 5.5.1 Fixing of the air sampling system TITANUS arcs/elbows 90° pipe adapter type RA-AD2 air sampling pipe Fig. 5.5: Protection against impurities and dripping water during the installation of ® TITANUS Mount the air sampling system so that the displays are clearly visible.
  • Page 102 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS Distances of the Holes The distances of the holes are given in the following figures (all dimensions in mm). ® Fig. 5.6: Hole distances TITANUS without support Fig. 5.7: Hole distances of the support type H-AD2 5 –...
  • Page 103 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.5.2 Connection of the air sampling pipe ® Fig. 5.8: Connection of the air sampling pipe to the TITANUS ® In order to connect the air sampling pipe to TITANUS , attach the Connection of air sampling pipe pipe to the corresponding jack (refer to F ig.

  • Page 104: Electrical Connection

    www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.6 Electrical Connection In order to prepare the electrical connections follow the steps below: 1. Break through the cable entries e.g. by means of a screw driver. 2. Attach the plastic connection pieces PG16 or PG11. 3.

  • Page 105: Connection Diagram

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.6.1 Connection diagram ® Fig. 5.9: Overview of terminals of TITANUS 5 – 13 TSS_05_B-en-e Data: 02/09 www.acornfiresecurity.com...
  • Page 106 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.6.2 Connection without central fire panel ® Fig. 5.10: Example of the connection of several TITANUS without central fire panel, with reset button and switch to change-over to 2 sensitivity Prefer shielded cables in order to increase the safety against faults. INSTRUCTION 5 –...
  • Page 107 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.6.3 Connection to central fire panel with reset button or relay contact ® Fig. 5.11: Connection of several TITANUS with central fire panel, reset button and switch to change over to 2 sensitivity Prefer shielded cables in order to increase the safety against faults. INSTRUCTION 5 –...
  • Page 108 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.6.4 Connection to central fire panel with reset board ® Fig. 5.12: Connection of several TITANUS with central fire panel, reset board and switch to change over to 2 sensitivity Prefer shielded cables in order to increase the safety against faults. INSTRUCTION 5 –...
  • Page 109 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation ® 5.7 Application of TITANUS and fire detc- ® tion system AlgoRex In general, there are different possibilities to connect the potential-free alarm and fault contacts of the air sampling smoke detection system ® ® TITANUS to the smoke detection system AlgoRex •...
  • Page 110 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.7.1.1 Connection diagram collective interne Beschaltung Leitungswiderstand max. 250 max. 150 Grundplatine TITANUS ® Leitungskapazität max. 4 F max. 4 F RE (E3M080 Index < BD EOL22 Transzorb 20V o. SW<V4.4x) RE (E3M080 Index > BD Z-Diode 18V Transzorb 20V u.
  • Page 111 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation ® ® 5.7.2 Application of TITANUS with AlgoRex line modules ® ® TITANUS can be connected to the AlgoRex -smoke detection system ® through specific line modules (AnalogPLUS or interactive). The installa- ® tion of max three line modules directly into the housing of TITANUS possible.
  • Page 112 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS B. Mounting of up to three modules: Fix the mounting sheet steel by means of the two included sheet metal screws at the bottom of the housing. Place the module on the insert nuts of the mounting sheet steel and fix it by means of the two distance bolts and the plain wash- ers.
  • Page 113 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation ® 5.7.2.2 TITANUS and AnalogPLUS-Technology Fig. 5.15: Connection with AnalogPlus-technology Pay attention to the installation instructions delivered together with each line module. INSTRUCTION 5 – 21 TSS_05_B-en-e Data: 02/09 www.acornfiresecurity.com...
  • Page 114 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS ® 5.7.2.3 TITANUS and interactive Technology Fig. 5.16: Connection with interactive technology Pay attention to the installation instructions delivered together with each line module. INSTRUCTION 5 – 22 Data: 02/09 TSS_05_B-en-e www.acornfiresecurity.com...
  • Page 115 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation ® 5.8 Application TITANUS and SigmaSys-Technology ® The use of the Siemens SigmaSys-technology in TITANUS requires the installation of the contact coupler SPF 5300 into the air sampling smoke detection system. The installation of this coupler is necessary in order to integrate alarm and fault messages into the detection loop.
  • Page 116 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.8.1 Mounting of the contact coupler SPF 5300 for the extension Fig. 5.18: Mounting of the contact coupler SPF 5300 ® Mounting in TITANUS In order to install the contact coupler SPF 5300 into the air sampling ®...

  • Page 117: Electrical Connection

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.8.2 Electrical Connection The contact coupler is connected via the terminal blocks X1/ X2 on the ® connection board of TITANUS and via the terminal block of the contact coupler SPF 5300. Pay attention to the permitted cable cross sections of the corresponding screw joint and the permitted wire cross sections of the terminals (refer to chapter 3 "Technical Data").
  • Page 118 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS ® 5.9 TITANUS in the network system ® As an option several TITANUS can be connected to form a network. This network system permits the operator to monitor the states of all con- ® nected TITANUS .
  • Page 119 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.9.2 Connecting the network module ® The network module connects the bus system with TITANUS . Fig. 5.23 shows the electronic connections which must be carried out. ® To operate TITANUS within the network, further data about the bus sys- tem and PC software are required.

  • Page 120: Remote Display Units

    www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.10 Remote display units ® 5.10.1 Connection of the remote display unit to TITANUS connector X2, connector X2, External display base board ® TITANUS ® Fig. 5.22: Connection remote display to TITANUS In order to install the remote display follow the steps below (refer to F ig.
  • Page 121 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.10.2 Remote display housing design Application of the front film sheet Fig. 5.23: Application of the front film sheet to the remote display The lid of the remote display can be turned by 180°. This allows the cable entries to be placed either on the top or on the bottom (refer to F ig.
  • Page 122 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.10.3 Remote display unit for 19" sub-rack Fig. 5.25: Remote display and blind plate for 19"-subrack To prepare the remote display and the blind plate for the installa- tion lock the included quick acting closures into the rectangular perforations of the front plate.
  • Page 123 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation 5.10.4 Electrical Connection The remote displays – mounted either in a housing or in a 19“-subrack – ® are connected via the terminal block X2 on the base board in TITANUS ® The power is either supplied by TITANUS or, for longer distances, by external units.
  • Page 124 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5.11 Data Log The device can be tested by means of a diagnostic device. Besides the current air flow sensor data different status values can be read out, which helps to register modified operating conditions during service. In addition, air flow values can be directly read out by means of a laptop.
  • Page 125 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Via the terminal block X4 on the base board air flow and smoke level val- ® ues of TITANUS can be recorded by means of the line recorder (refer to F ig. 5.28). Fig. 5.28: Connection of the line recorder to the base board The bridge BR5 has to be open in order to record data! INSTRUCTION 5 –...
  • Page 126 www.acornfiresecurity.com ® Installation TITANUS SUPER·SENS 5 – 34 Data: 02/09 TSS_05_B-en-e www.acornfiresecurity.com...
  • Page 127 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System 6 Installation of the pipe system The pipes and fittings used for the pipe system must always meet re- quirements for Class 1131 in accordance with EN 61386-1, 2004. Class 1131 puts the following requirements on the pipe system used: characteristics severity code compression resistance...
  • Page 128 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS Installation instructions The pipe system must be designed according to the requirements of the project and the pipe design guidelines (see chapter 4 "Pipe Design"). 1. Cut the pipes with a pipe cutter or a metal saw. Chips must be re- moved and rough edges trimmed.
  • Page 129 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System Do not use pipe clips with rubber cores as these do not expand length- wise and the pipes would sag or crack. INSTRUCTION 5. Close open pipe ends with end cap. After pipe installation is complete, check for the following: - air tightness (e.g.
  • Page 130 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS 6.1 Linear expansion of the pipe system Linear expansions (lengthening or shortening) of the pipe system are caused by variations in temperature. An increase in temperature results in lengthening of the pipe, a decrease in temperature shortens the pipe. It is very important to take this into consideration if the installation tempera- ture differs considerably in comparison to the operating temperature.
  • Page 131 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System There are two fixing points for the plastic pipe clip CLIC-PA when install- ing the pipes: Position 1 (first locking into place): Fixes the pipe so that a linear expansion is possible (used in deep freeze areas, if necessary).
  • Page 132 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS 6.2 Patented air sampling points Fig. 6.2: Example of an air sampling point with aspiration-reducing film sheet Air sampling point Design air sampling points (bore holes) and their positioning according to project requirements and pipe design guidelines. Air Sampling Holes Bore a hole with a 10mm drill at a right angle to the pipe.
  • Page 133 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System Fig. 6.3: Attaching the aspiration-reducing film sheet 6 – 7 TSS_06_A-en-e Data: 02/09 www.acornfiresecurity.com...
  • Page 134 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS 6.3 Ceiling lead through Fig. 6.4: To install the ceiling feed-through use the following steps: Before gluing remove dirt and grease with the recommended cleaner. Glue the hose connector to the corresponding T-piece with Tangit glue.
  • Page 135 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System The aspiration-reducing film sheets are available in two colours. Depend- ing on the colour of the ceiling, either type AFW-x (pure white, RAL 9010) or type AF-x (papyrus white, RAL 9018) are used. On request, film sheets in special colours are produced.
  • Page 136 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS 6.4 Monitoring in forced air flow systems (ventilation or climatic applications) 6.4.1 Detection at air inlets/outlets If aspiration takes place in a forced air flow system (ventilator, climatic systems), the air sampling points must be positioned in the air flow. Place the air sampling points as shown in fig.
  • Page 137 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System 6.5 Filter 6.5.1 Installation of air filter, type LF-AD-x Fig. 6. 7: Spacing for bore holes on base of air filter housing Air Filter LF-AD-x To fit the filter into the pipe system, use the two PG29 filter screw- joints.
  • Page 138 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS 6.5.2 Mounting of the special filter type SF-400/650 clamp type NG 23 elbow 45° special filter for ADx and TITANUS ® type SF-650 type SF-400 elbow 45° clamp type NG 23 PVC-reducing screw joints Fig.

  • Page 139: Air Return

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System 6.6 Air return Fig. 6.9: Mounting of the pipe adapter The pipe adapter for the air return is mounted onto the air outlet ® openings of TITANUS . To fix the pipe adapter use the two jacks next to the air outlet openings.
  • Page 140 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS 6.7 Noise suppressor ja c k s TI TANUS ® noise suppressor pipe adapter blind plug PG-screw joint Fig. 6. 10: Mounting of noise suppressor The pipe adapter for the noise suppressor is mounted onto the air ®...
  • Page 141 www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System 6.8 3-Way ball valve 3 -way sle e ve ball valve (option) type 3 MKH (m ax.1 6 bar) air fi lter (option) sch eme of th e ball valve: ® TITANUS position 0° position 90°...
  • Page 142 www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS The following steps should be taken for the blow-through process: 1. Connect the compressed air supply (compressor or mobile blow- through device) for the blow-through of the pipes to the 3-way sleeve ball valve via the quick-acting coupling sleeve. 2.

  • Page 143: Steam Trap

    www.acornfiresecurity.com ® TITANUS SUPER·SENS Installation Pipe System 6.8 Steam trap Fig. 6.12: Installation of steam trap to pipe system Install the steam trap at the lowest point of the pipe system before the air ® filter and TITANUS and fasten it with PG screw joints Two 45º...

  • Page 144: Test Adapter

    www.acornfiresecurity.com ® Installation Pipe System TITANUS SUPER·SENS 6.9 Test adapter Fig. 6.13: Mounting of the test adapter at the pipe system The test adapter is glued into the pipe system close to the air sampling system. It must always be closed during normal operation and is only opened for repair and maintenance in order to introduce test gas or smoke.
  • Page 145 www.acornfiresecurity.com ® TITANUS SUPER·SENS Commissioning 7 Commissioning For a later verification of the air flow value register the commissioning temperature, air pressure and height above sea level in the commission- ing protocol. INSTRUCTION ® Check of Settings Before the commissioning check the settings of TITANUS (chapter 5.3 ®...
  • Page 146 www.acornfiresecurity.com ® Commissioning TITANUS SUPER·SENS 7.1 Adjustment air flow sensor ® In order to adjust TITANUS correctly to the pipe system, the device must be in operation for at least 30 minutes. INSTRUCTION Adjustment Types The air flow sensor adjustment depends on the current air pressure (refer to chapter 7.1.1 "Adjustment Dependent on the Air Pressure").
  • Page 147 www.acornfiresecurity.com ® TITANUS SUPER·SENS Commissioning For the adjustment dependent on the air pressure of the air flow sensor a barometer is necessary. Follow the steps below: Determine the height above sea level of the mounting location of the air sampling smoke detection system and register the value in the commissioning protocol.
  • Page 148 www.acornfiresecurity.com ® Commissioning TITANUS SUPER·SENS 7.1.2 Adjustment independent of the air pressure ® Fig. 7.3: Adjustment independent of the air pressure of the air flow sensor of TITANUS In order to adjust the air flow sensor independently of the air pressure ®...
  • Page 149 www.acornfiresecurity.com ® TITANUS SUPER·SENS Commissioning 7.2 Detector head and alarm transmission Trigger the alarm of the smoke detector and check the transmission to the central fire panel as follows: Spray test aerosol either into the first air sampling point or into the ®...
  • Page 150 www.acornfiresecurity.com ® Commissioning TITANUS SUPER·SENS Trouble Shooting If faults in the air flow are not correctly detected by the device do the fol- lowing: Check to see if... 1. all air sampling points are free. 2. the pipe system has fractures or cracks. 3.
  • Page 151 www.acornfiresecurity.com ® TITANUS SUPER·SENS Commissioning ® 7.5 Operational check of TITANUS ® If it is not possible to adjust TITANUS check the functionality by means of the testing pipe and a digital manometer or the diagnostic device. Dur- ® ing this check TITANUS is to be operated.
  • Page 152 www.acornfiresecurity.com ® Commissioning TITANUS SUPER·SENS ® Fig. 7.4: Operational check of TITANUS Connect the test pipe. Connect the pressure measuring hose to the adapter connector Connect the 4-pole plug of the adapter to the digital manometer and switch it on. 7.5.2 Operational Check The operational check can be effected with or without a digital manome-...
  • Page 153 www.acornfiresecurity.com ® TITANUS SUPER·SENS Commissioning Close the 4.2 mm-air sampling points of the test pipe by means of adhesive tape after the learning phase. ® has to start After approximately 75 s the fault display of TITANUS flashing. Open the 4.2 mm-air sampling points. ®...
  • Page 154 www.acornfiresecurity.com ® Commissioning TITANUS SUPER·SENS 7 – 10 Data: 02/09 TSS_07_A-en-e www.acornfiresecurity.com...

  • Page 155: Maintenance

    www.acornfiresecurity.com 8 Maintenance 8.1 Visual Check Check to see if the pipe system is mounted tightly, undamaged and easily accessible. the air sampling points of the pipe system are unblocked. the air sampling pipe and the connection cable are connected tightly. the device support is fastened properly –...
  • Page 156 www.acornfiresecurity.com 8.4 Exchange of the Detector Head Fig. 8.1: Exchange of the detector head ® Loosen the four screws on the housing lid of TITANUS and lift it carefully. Pull the connection cable of the display board off the base board. Now remove the housing lid.
  • Page 157 www.acornfiresecurity.com ® In order to adjust TITANUS correctly to the pipe system, the device must be in operation for at least 30 minutes. INSTRUCTION www.acornfiresecurity.com...
  • Page 158 www.acornfiresecurity.com 8.5 Exchange of the air flow sensor filter Fig. 8.2: Exchange of the air flow sensor filter ® Open TITANUS by loosening the four screws on the housing lid. Then open the lid carefully. Detach the cable of the display board from the base board (X6). Now the lid can be removed.
  • Page 159 www.acornfiresecurity.com 8.4 Changing the air filter LF-AD –x prim ary filter coarse dust filter air sampling pipe Fine dust filter air filter for Adx and TITANUS, type LF-AD Fig. 8.3: change the filter inserts To clean or change the filter inserts, carry out the following steps (see fig. 8.4): Loosen the four screws and remove the housing lid.
  • Page 160 www.acornfiresecurity.com 8.7 Changing special air filter SF-400/650 ® air sam pling pipe special filter Adx & TITANUS type SF-400 type SF-650 Fig. 8.4: Exchange of filter element To change the filter insert follow these steps: Loosen the two PVC reducing couplings on the special filter remove it Remove the two screw-in plugs on the filter housing.
  • Page 161 www.acornfiresecurity.com 8.8 Check of the Air Flow Sensor Adjustment Close the housing of the air sampling smoke detection system before the air flow sensor adjustment check. Check the air flow sensor value by means of the diagnostic device. Independent of Air Pressure The standard ranges of the air flow variations for the small threshold are ±...

  • Page 162: Air Flow Monitoring

    www.acornfiresecurity.com 8.9 Air flow monitoring Proceed according to chapter 7.3 "Air Flow Monitoring". 8.10 Fault signal transmission Proceed according to chapter 7.4 "Fault Signal Transmission". 8.11 Maintenance intervals Maintenance includes regular inspection. The air sampling smoke detec- tion systems are checked during commissioning and then every three months (quarterly).
  • Page 163 www.acornfiresecurity.com Appendix Air Pressure Adjustment Tables Projection Tables System Product List Certificate of Approval of Components and Systems EMC Declaration of Conformity Inspection Protocol Glossary Conformity certification pursuant to EU www.acornfiresecurity.com...
  • Page 164 www.acornfiresecurity.com www.acornfiresecurity.com...
  • Page 165 FSBT-SUPER·SENS/a <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, <P>=compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier www.acornfiresecurity.com...
  • Page 166 DIAG-Pipe <0> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, <P>=compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier www.acornfiresecurity.com...
  • Page 167 RTT-1 <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, <P>=compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier www.acornfiresecurity.com...
  • Page 168 CC-NU <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, <P>=compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier www.acornfiresecurity.com...
  • Page 169 www.acornfiresecurity.com ® Air Pressure Adjustment Chart TITANUS SUPER · SENS Adjustment TITANUS SUPER · SENS Equipment Monitoring (opening in percent: 15% up to 24%) height above Air Pressure [hPa] at a Height of sea level 973 978 983 988 993 998 1003 1008 1013 1018 1023 1028 1033 1038 1043 967 972 977 982 987 992 997 1002 1007 1012 1017 1022 1027 1032 1037 961 966 971 976 981 986 991 996 1001 1006 1011 1016 1021 1026 1031...
  • Page 170 www.acornfiresecurity.com ® Air Pressure Adjustment Chart TITANUS SUPER · SENS Adjustment TITANUS SUPER · SENS Room Monitoring (I-Shape Pipe System) (opening in percent: 19%) height above sea level Air Pressure [hPa] at a Height of 973 978 983 988 993 998 1003 1008 1013 1018 1023 1028 1033 1038 1043 967 972 977 982 987 992 997 1002 1007 1012 1017 1022 1027 1032 1037 961 966 971 976 981 986 991 996 1001 1006 1011 1016 1021 1026 1031...
  • Page 171 www.acornfiresecurity.com ® Air Pressure Adjustment Chart TITANUS SUPER · SENS Adjustment TITANUS SUPER · SENS Room Monitoring (U-Shape and H-Shape Pipe System) (medium opening in percent: 22%) height above sea level Air Pressure [hPa] at a Height of 973 978 983 988 993 998 1003 1008 1013 1018 1023 1028 1033 1038 1043 967 972 977 982 987 992 997 1002 1007 1012 1017 1022 1027 1032 1037 961 966 971 976 981 986 991 996 1001 1006 1011 1016 1021 1026 1031...
  • Page 172 www.acornfiresecurity.com www.acornfiresecurity.com...
  • Page 173 www.acornfiresecurity.com Projection without filter Number of apertures Sensitivity (% obs/m) 0,025 (HA) 0,05 (HA) (HA) (HA) without pipe accessories Number of apertures Pipe shape Double with detector box Number of apertures Pipe shape Double with detector box and OXY·SENS or with steam trap Number of apertures Pipe shape...
  • Page 174 www.acornfiresecurity.com Projection with air filter LF-AD Number of apertures Sensitivity (% obs/m) 0,025 (HA) 0,05 (HA) (HA) (HA) without additional pipe accessories Number of apertures Pipe shape Double with detector box Number of apertures Pipe shape Double with detector box and OXY·SENS or with steam trap Number of apertures Pipe shape...
  • Page 175 www.acornfiresecurity.com Projection with air filter LF-AD -1 Number of apertures Sensitivity (% obs/m) 0,025 (HA) 0,05 (HA) (HA) (HA) without additional pipe accessories Number of apertures Pipe shape Double with detector box Number of apertures Pipe shape Double with detector box and OXY·SENS or with steam trap Number of apertures Pipe shape...
  • Page 176 www.acornfiresecurity.com Projection with air filter LF-AD -2 Number of apertures Sensitivity (% obs/m) 0,025 (HA) 0,05 (HA) (HA) (HA) without additional pipe accessories Number of apertures Pipe shape Double with detector box Number of apertures Pipe shape Double with detector box and OXY·SENS or with steam trap Number of apertures Pipe shape...
  • Page 177 www.acornfiresecurity.com Projection with air filter SF X00 Number of apertures Sensitivity (% obs/m) 0,025 (HA) 0,05 (HA) (HA) (HA) without additional pipe accessories Number of apertures Pipe shape Double with detector box and OXY·SENS or with steam trap Number of apertures Pipe shape Double...

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