WAGNER TITANUS PRO-SENS Technical Manual

WAGNER TITANUS PRO-SENS Technical Manual

Air sampling smoke detection system
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Air sampling smoke detection system
Fire Detection
PRO·SENS
TITANUS
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Technical Manual

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  • Page 1 Air sampling smoke detection system Fire Detection PRO·SENS TITANUS ® Technical Manual...
  • Page 3 Air sampling smoke detection system PRO·SENS TITANUS ® Technical Manual WAGNER Group GmbH Item Number 69-30-0226 Schleswigstraße 1 - 5 D-30853 Langenhagen Edition 06/13 Telephone +49 (0) 511 / 97383-0 Telefax +49 (0) 511 / 97383-140 Supersedes 04/09 E-Mail support@wagner.de Internet www.wagner.de...
  • Page 5: Table Of Contents

    PRO·SENS TITANUS ® Contents General Introduction Safety Information Guarantee Copyright Packaging Disposal Product Description PRO·SENS Features of the TITANUS ® Areas of Application Technical Description System Description 3.1.1 Function PRO·SENS TITANUS and accessories ® 3.2.1 Overview PRO·SENS 3.2.2 Basic device TITANUS ®...
  • Page 6 PRO·SENS TITANUS ® 3.3.4 Air filter for dusty areas 3.3.5 Air return for pressurised and dusty areas 3.3.6 Noise suppressor 3.3.7 Steam trap for humid areas 3.3.8 Detonation prevention device for endangered areas Technical Data PRO·SENS TITANUS ® PRO·SENS Pipe system – TITANUS ®...
  • Page 7 PRO·SENS TITANUS ® 5.3.2 Simplified pipe project design 5.3.2.1 I - Pipe system 5.3.2.2 U - Pipe system 5.3.2.3 M - Pipe system 5.3.2.4 Double - U - Pipe system 5.3.3 Project planning with branch pipes 5.3.4 Project planning with long intake lines > Ø 25 mm 5.3.5 Project planning with acceleration apertures 5.3.6...
  • Page 8 PRO·SENS TITANUS ® Installation of the reset board Mounting location PRO·SENS 6.5.1 Fixing of the TITANUS ® 6.5.2 Connection of the air sampling pipe Electrical connection 6.6.1 Connection to FAS, with reset button PRO·SENS 6.6.2 Connection of several TITANUS without FAS, ®...
  • Page 9 PRO·SENS TITANUS ® Air return Noise suppressor 3-Way ball valve 7.10 Steam traps 7.10.1 Steam trap type KA-DN-25 7.10.2 Steam trap type KA-1 7.11 Detonation prevention device 7.12 Test adapter Commissioning Adjustment Air Flow Sensor 8.1.1 Adjustment independent of the air pressure 8.1.2 Adjustment dependent on the air pressure Detector module and alarm transmission...
  • Page 10 PRO·SENS TITANUS ® Check of the air flow sensor adjustment Check air flow monitoring 9.10 Check fault signal transmission 9.11 Maintenance intervals Appendix Air Pressure Adjustment Tables Projection Tables System Product List Inspection Protocol Glossary Conformity certification pursuant to EU 06/13...
  • Page 11: General

    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 PRO·SENS...
  • Page 12: Guarantee

    ▪ force majeure 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 writ- ing from WAGNER.
  • Page 13: Disposal

    ▪ Take metal parts for scrapping. ▪ Take plastic parts to be recycled. ▪ Sort the remaining components by material quality and dispose of them. ▪ Give batteries to municipal collecting points, or send them back to WAGNER Group GmbH. 06/13...
  • Page 15: Product Description

    Patented detection points Depending on the required pipe design the air sampling points have defined hole diameters. For these exact airs sampling points WAGNER has devel- oped patented aspiration-reducing film sheets with marking tape and clips that permit an easy mounting and avoid secondary noise. Another advan- tage is the quick and easy retrieval and check of the air sampling point di- ameters.
  • Page 16 PRO·SENS TITANUS Product Description ® Choice of ventilator voltage The fan voltage can be set according to project planning by re-plugging the plug-in jumpers. PRO·SENS With TITANUS devices, the fan voltage can be set between ® 6.9 V and 9 V by means of the plug-in jumpers on the main board. PRO ·SENS The voltage with TITANUS -SL devices can be set by means...
  • Page 17: Areas Of Application

    PRO·SENS TITANUS Product Description ® Areas of Application The air sampling smoke detection system TITANUS 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 de- fined air sampling points and passed to the detector module.
  • Page 18 PRO·SENS TITANUS Product Description ® Figure 1: Scheme - room monitoring with the air sampling smoke detection system TITANUS ® Room monitoring Room monitoring takes place with air conditioning ▪ in air-conditioned rooms for servicing etc ▪ in ventilation ducts ▪...
  • Page 19 PRO·SENS TITANUS Product Description ® Figure 2: Monitoring possibilities of a convection air conditioning system or climatic duct (scheme) Equipment protection non-ventilated and power-ventilated devices/cabinets such as ▪ distribution cabinets, switch cabinets ▪ telephone switching equipment ▪ measuring and control units 06/13...
  • Page 20 PRO·SENS TITANUS Product Description ® Figure 3: Scheme - equipment monitoring with the air sampling smoke detection sys- tem TITANUS ® The air sampling system TITANUS can also be used for earliest fire detec- ® tion in rooms with special air conditioning. Valuable goods and installations can be reliably monitored due to the sys- tem’s high sensitivity.
  • Page 21: Technical Description

    PRO·SENS TITANUS Technical Description ® Technical Description System Description The air sampling smoke detection system TITANUS consists of the basic ® device and the pipe system. The most important components of the basic device include the sensitive de- tector modules for the detection of smoke aerosols and the aspiration unit to carry air samples to the detector module with integrated air flow sensor in order to monitor the pipe system for any fractures and blockages.
  • Page 22: Function

    PRO·SENS TITANUS Technical Description ® 3.1.1 Function The aspiration unit in the basic device takes air samples from the protected area via a pipe system with defined sampling points and carries them to the sensitive detector module. Detector module Dependent on the response sensitivity of the used detector module (up to PRO·SENS 0.5%/m, 0.1 %/m or 0.015 %/m light obscuration) TITANUS ®...
  • Page 23 PRO·SENS TITANUS Technical Description ® toring window can be adapted to the surrounding conditions. The dynamic air flow sensors are only activated when the air flow threshold is set to low. Following figure shows the signal curve of the air flow sensor. Figure 5: Signal curve of air flow sensor during fault Fault signal A fault in the detector module or air flow activates a fault signal which is dis-...
  • Page 24 PRO·SENS TITANUS Technical Description ® Air flow adjustment The air flow within TITANUS is automatically adjusted so that commission- ® ing is made easier. Initialisation can be made dependent or independent of the air pressure. In order to make adjustments to an air flow typical within the pipe network, a process called Air-Flow-Initialisation is used.
  • Page 25: Titanus Pro·sens ® And Accessories

    PRO·SENS TITANUS Technical Description ® PRO·SENS TITANUS and accessories ® 3.2.1 Overview Connections reset board FAS / power supply (optional) pipe systems ® TITANUS PRO·SENS air return to next air sampling smoke detection system device support (optional) fire alarm cable connection cable glands M25 response...
  • Page 26 PRO·SENS TITANUS Technical Description ® PRO·SENS 3.2.2 Basic device TITANUS ® PRO·SENS The basic device TITANUS consists of the following compo- ® nents: ▪ plastic housing – plastic connection piece – connection for pipe with 25 mm outside diameter – integrate pipe return ▪...
  • Page 27 PRO·SENS TITANUS Technical Description ® Figure 8: Displays of TITANUS PRO·SENS ® Numbers Function Explanation Displays ON (green LED) operation display alarm (red LED) alarm display fault (yellow LED) fault pipe system or failure fan or fault detector module connection for air return pipe to return the air cable duct 2 x M 25...
  • Page 28: Diagnostics

    PRO·SENS TITANUS Technical Description ® 3.2.3 Diagnostics Figure 9: Diagnostic software for reading out the device state For maintenance and service the diagnostic software is able to display the memorized and current device state as well as fault signals of TITANUS PRO·SENS on a PC or laptop.
  • Page 29: Response Indicators

    PRO·SENS TITANUS Technical Description ® 3.2.4 Response Indicators Figure 10: Response Indicators DJ1191 and DJ1192 For a hidden installation of the air sampling smoke detection system it is necessary to mount an alarm display in a clearly visible place. TITANUS offers the possibility to connect the response indicators DJ1191 ®...
  • Page 30: Device Support

    PRO·SENS TITANUS Technical Description ® 3.2.5 Device Support Figure 11: Support for the air sampling smoke detection system TITANUS PRO•SENS ® TITANUS can be directly mounted to the wall. If required, additional sup- ® ports are available, e.g. for fitting to racking. 06/13...
  • Page 31: Pipe System

    PRO·SENS TITANUS Technical Description ® Pipe system 3.3.1 Overview of available pipe components detonation Connections prevention 90° arc A pipe system steam trap sleeve sampling hose- ceiling feed through special filter air filter T-piece 45°- elbow air sampling pipe 90° elbow test adapter ®...
  • Page 32 PRO·SENS TITANUS Technical Description ® Free blow device In areas in which there is expected to be an increased occurrence of dust particles or ice formation, blowing through of the aspiration pipe system and aspiration apertures may be necessary. Figures each show the components of a manual and an automatic blowing-out system.
  • Page 33: Air Sampling Points For Room Monitoring

    PRO·SENS TITANUS Technical Description ® 3.3.2 Air sampling points for room monitoring 3.3.2.1 Aspiration-reducing film sheets Figure 15: Aspiration aperture with aspiration reduction film and banderol An air sampling point is a 10 mm-hole in the air sampling pipe covered with a patented aspiration-reducing film sheet with the appropriate opening diame- ter.
  • Page 34: Air Flow Reducer Clips

    PRO·SENS TITANUS Technical Description ® 3.3.2.2 Air flow reducer clips Figure 16: 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 flexible air flow reducer, type AK-x.
  • Page 35: Ceiling Feed-Through For Hidden Installations

    "Design". If - due to construction - hose lengths of more than 1 m are required, the air sampling pipe system must be calculated separately (calculation is made by WAGNER). The ceiling feed through is applicable for false ceiling panels with a thickness of up to approximately 35 mm.
  • Page 36 PRO·SENS TITANUS Technical Description ® Pipe cap Air flow reducer (Aperture plate) Hose connection Ceiling feed through (part) Air sampling hose Figure 18: Capillary hose Installation and upstream aperture For hidden installation in example lamps or stucco, the air sampling hose with upstream aspiration reduction in the tees (pipe caps) are used.
  • Page 37: Air Filter For Dusty Areas

    PRO·SENS TITANUS Technical Description ® 3.3.4 Air filter for dusty areas LF-AD Air sampling pipe Special filter Figure 19: TITANUS PRO•SENS with air filter ® In highly dusty areas air filters must be used in order to protect the unit’s de- tector.
  • Page 38 PRO·SENS TITANUS Technical Description ® Figure 20: Special Filter and LF-AD The filter life of special filter can be increased by the use of an upstream filter LF-AD. Figure 21: LF-AD filters in multiple sampling pipes In order to extend the maintenance intervals, one air filter can be installed in every output pipe instead of one air filter inside the main sampling pipe.
  • Page 39 PRO·SENS TITANUS Technical Description ® same design specifications shall apply as stated in the projection tables in the appendix. Figure 22: LF-AD filter in the main sampling pipe Furthermore, in order to extend the maintenance intervals, several air filters can be installed in parallel in the main sampling pipe. This requires the main sampling pipe to be split into one or several pipes and to be equipped with the same air filter or the combination of air filters.
  • Page 40: Air Return For Pressurised And Dusty Areas

    PRO·SENS TITANUS Technical Description ® 3.3.5 Air return for pressurised and dusty areas Figure 23: Principle of air return with TITANUS PRO·SENS ® If TITANUS and the pipe system are installed in two areas - P1 and P2 – ® each with different air pressures, the air must be returned to the pressure area of the pipe system.
  • Page 41: Noise Suppressor

    PRO·SENS TITANUS Technical Description ® 3.3.6 Noise suppressor Figure 25: TITANUS PRO•SENS 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 from the TITANUS (such as in offices or hospitals).
  • Page 42: Steam Trap For Humid Areas

    PRO·SENS TITANUS Technical Description ® 3.3.7 Steam trap for humid areas Figure 26: Steam trap to eliminate water vapour from the pipe system and to collect the condensate from the pipe system Figure 27: KA-1 to eliminate water vapour from the pipe system and to collect the condensate from the pipe system 06/13...
  • Page 43 PRO·SENS TITANUS Technical Description ® If TITANUS is used in environments with high humidity condensate can oc- ® cur in the air sampling system. In order to collect this condensate the steam trap is installed at the deepest point of the pipe system before the air filter and the air sampling smoke detection system.
  • Page 44: Detonation Prevention Device For Endangered Areas

    PRO·SENS TITANUS Technical Description ® 3.3.8 Detonation prevention device for endangered areas Figure 28: Detonation prevention device in the air sampling smoke detection system and air return system TITANUS can also be used in dangerously explosive areas by installing a ®...
  • Page 45 PRO·SENS TITANUS Technical Description ® To prevent the ignition of explosive mixtures by static discharge, the piping system must be grounded. Protection Type Nominal Gap Width Explosion Groups Approval EG IIA > 0,7 mm BAM* EG IIB3 > 0,5 mm IIB1 –...
  • Page 47: Technical Data

    PRO·SENS TITANUS Technical Data ® Technical Data NOTICE All listed power values relate to a surround temperature of 20ºC. PRO·SENS TITANUS ® TITANUS TITANUS ® ® PRO·SENS PRO·SENS Voltage supply voltage (Ue) 14 - 30 V DC nominal supply voltage 24 V DC Current = 6,9 V...
  • Page 48 PRO·SENS TITANUS Technical Data ® Displays at the device ® ® TITANUS PRO·SENS TITANUS PRO·SENS alarm red alarm display 2 red alarm displays fault yellow collective fault green operation display connection for response indicator: external alarm display type DJ 1191 / type DJ 1192 Connections device connector clamps for...
  • Page 49 PRO·SENS TITANUS Technical Data ® TITANUS TITANUS ® ® PRO·SENS PRO·SENS 2-SL Voltage supply voltage (Ue) 14 - 30 V DC Vnominal supply voltage 24 V DC Current Voltage with fan control board FC-2 6,5 V 6,9 V 6,5 V 6,9 V starting current (at 24 V) 300 mA...
  • Page 50: Pipe System - Titanus Pro·sens

    PRO·SENS TITANUS Technical Data ® type radial service life of fan (12 V) 43.500 h at 24°C Displays on the device ® ® TITANUS PRO·SENS TITANUS PRO·SENS alarm red alarm display 2 red alarm displays fault yellow collective fault green operation display connection for response indicator: external alarm display...
  • Page 51: Design

    PRO·SENS TITANUS Design ® Design General The following describes the project planning of the air sampling smoke de- tection system to EN 54-20 or ISO 7240-20. The basic conditions are de- scribed in Chapter 5.1. The basic conditions are described in Chapter 5.1. The project planning is to be conducted in accordance with Chapter 5.2.
  • Page 52: Regulations

    PRO·SENS TITANUS Design ® 5.1.1 Regulations The current respective national regulations in each particular country must also be complied with and project planning must be adjusted to such regula- tions. EN 54-20 or ISO 7240-20 The air sampling smoke detection systems shall be planned in accordance with the project planning guidelines described in Chapter 5.2.1 in order to be compliant with EN 54-20 or ISO 7240-20.
  • Page 53: Pipe System

    PRO·SENS TITANUS Design ® 5.1.2 Pipe system When planning the pipe system, it must be ensured that reliable fire detec- tion is guaranteed for any fire present in an installation or in a monitored area. The number of the intake apertures and the pipe system design depends on the size, ventilation and shape of the monitored area.
  • Page 54 PRO·SENS TITANUS Design ® Figure 29: Example of a symmetrical and an asymmetrical U-pipe system Figure „Example of a symmetrical and an asymmetrical U-pipe system” illus- trates exemplary a U-shape pipe system with symmetrical and asymmetrical pipe designs and according to chapter ´Standard Design´ the calculated di- ameters of the aspiration holes.
  • Page 55 PRO·SENS TITANUS Design ® I-pipe An air sampling smoke detection pipe system without branches. U-pipe An air sampling smoke detection pipe system which branches into 2 air sampling branches after the connection ® to the TITANUS M-pipe An air sampling smoke detection pipe system which branches into 3 air sampling branches after the connection ®...
  • Page 56 PRO·SENS TITANUS Design ® Figure 30: Pipe designs 06/13...
  • Page 57 Special cases If the pipe system does not match the project planning guidelines described here due to structural constraints. WAGNER should offer could provide indi- vidual calculations for such a case. Checking Check detection reliability with activation tests in cases where use of the sys- tem is critical.
  • Page 58 PRO·SENS TITANUS Design ® Figure 31: Pipe design for dual detector dependency 06/13...
  • Page 59: Air Flow Monitoring

    PRO·SENS TITANUS Design ® 5.1.3 Air flow monitoring EN 54-20 or ISO 7240-20 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 accomplish this, the air flow sensor system’s triggering threshold must be set to level II.
  • Page 60: Sensitivity

    PRO·SENS TITANUS Design ® 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. “Pipe project planning individual aperture monitor- ing”), ▪...
  • Page 61: Project Planning Limits

    PRO·SENS TITANUS Design ® NOTICE The fire sensitivity classes A, B and C can be achieved with each detector module available, depending on the number of aspiration apertures. The table shows the selectable sensitivity levels of the TITANUS PRO·SENS ®: Activation sensitivity (fire alarm) TITANUS PRO SENS®...
  • Page 62 PRO·SENS TITANUS Design ® – The minimum pipe length between 2 aspiration apertures is 4 m. – The maximum pipe length between 2 aspiration apertures is 12 m. – The maximum overall pipe length is 300 m (2 x 280 m with 2 pipe systems connected). –...
  • Page 63: Pipe Design

    NOTICE Components which have not been approved by WAGNER are used; CE conformity on the basis of EN 54-20 or ISO 7240-20 will not be possible. The following accessory components should be taken into consideration in the process: ▪...
  • Page 64: Pipe Accessories

    PRO·SENS TITANUS Design ® 5.2.2 Pipe accessories Air filters Type Application Examples LF-AD Coarse filter for separating Dust, insects, fibres, particles > approx. 15 µm hair, cinders, pollen LF-AD-1 Filter for separating As above. Additionally: particles > approx. 10 µm Colour pigments and fine dust LF-AD-2 Fine filter for separating...
  • Page 65: Sensitivity And Pipeline Project Design

    PRO·SENS TITANUS Design ® 5.2.3 Sensitivity and pipeline project design 5.2.3.1 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 ▪...
  • Page 66 PRO·SENS TITANUS Design ® Procedure In the following example, a project plan is supposed to fulfil class B require- ments without air filters, with 8 apertures and with the additional use of a steam trap. The red arrows show the possible project plans with varying pipe shapes and fan voltages.
  • Page 67 PRO·SENS TITANUS Design ® 06/13...
  • Page 68 PRO·SENS TITANUS Design ® Results: The following modules may optionally be used with the corresponding set- tings for class B or A: ▪ Module 0.015 % LT/m – with a sensitivity of min. 0.12 % LT/m ▪ Module 0.1 % LT/m – with a sensitivity of min. 0.2 % LT/m Possible system parameters: ▪...
  • Page 69: Aperture Diameter

    PRO·SENS TITANUS Design ® 5.2.4 Aperture diameter The aperture diameters of the aspiration apertures can be found in the cor- responding table for the respective pipe configuration: I-pipe Figure 32: I-pipe system Aspiration apertures Number of apertures Aspiration aperture ∅ in mm (1) (1) Press cut diameter in aspiration-reducing film sheet 06/13...
  • Page 70 PRO·SENS TITANUS Design ® U-pipe Figure 33: U-pipe system Aspiration apertures Number of apertures Aspiration aperture ∅ in mm (1) (1) Press cut diameter in aspiration-reducing film sheet M-pipe Figure 34: M-pipe system Aspiration apertures Number of apertures Aspiration aperture ∅ in mm (1) (1) Press cut diameter in aspiration-reducing film sheet 06/13...
  • Page 71 PRO·SENS TITANUS Design ® Double U-pipe Figure 35: Double U-pipe system Aspiration apertures Number of apertures Aspiration aperture ∅ in mm (1) (1) Press cut diameter in aspiration-reducing film sheet Quadruple U-pipe Figure 36: Quadruple U-pipe system 06/13...
  • Page 72 PRO·SENS TITANUS Design ® Aspiration apertures Number of apertures Aspiration aperture ∅ in mm (1) Acceleration aperture 2,5 * 3,0 * 3,0 * (1) Press cut diameter in aspiration-reducing film sheet * The distance of the acceleration aperture to the last sampling aperture is entirely elective. 06/13...
  • Page 73: Special Project Design

    PRO·SENS TITANUS Design ® Special project design 5.3.1 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 con- figuration. The specifications according to Chapter 5.2 apply to project planning. The following limit values and aperture diameters should also be taken into ac- count.
  • Page 74 PRO·SENS TITANUS Design ® Aspiration apertures Number of apertures Aspiration aper- tures∅ in mm*) *) Press cut diameter in aspiration-reducing film sheet I-pipe system triggering thresholds Triggering threshold Number of apertures 1 blocked aperture — — — — 2 blocked apertures —...
  • Page 75: U - Pipe System

    PRO·SENS TITANUS Design ® 5.3.1.2 U - Pipe system 1 pipe system and 2 pipe systems Pipe systems Figure 38: U-shape pipe system for area protection Limit values ® Min. distance from TITANUS to T-piece ® Max. distance from TITANUS to T-piece 20 m Max.
  • Page 76 PRO·SENS TITANUS Design ® Aspiration apertures Number of apertures Aspiration aper- tures∅ in mm*) *) Press cut diameter in aspiration-reducing film sheet U-pipe system triggering thresholds Triggering threshold Number of apertures 1 blocked aperture — — — — 2 blocked apertures —...
  • Page 77: M - Pipe System

    PRO·SENS TITANUS Design ® 5.3.1.3 M - Pipe system 1 pipe system and 2 pipe systems Pipe system3 Figure 39: M-shape pipe system for area protection Limit values ® Min. distance from TITANUS – T-piece ® Max. distance from TITANUS –...
  • Page 78 PRO·SENS TITANUS Design ® Aspiration apertures Number of apertures Aspiration aper- tures∅ in mm*) *) Press cut diameter in aspiration-reducing film sheet M-pipe system triggering thresholds Triggering threshold Number of apertures 1 blocked aperture — — 2 blocked apertures — —...
  • Page 79: Double U - Pipe System

    PRO·SENS TITANUS Design ® 5.3.1.4 Double U - Pipe system 1 pipe system and 2 pipe systems Rohrsysteme Figure 40: Double U pipe system for area protection Limit values ® Min. distance from TITANUS – to last T-piece ® Max. distance from TITANUS –...
  • Page 80 PRO·SENS TITANUS Design ® Aspiration apertures Number of apertures Aspiration aper- tures∅ in mm*) *) Press cut diameter in aspiration-reducing film sheet Double-U-pipe system triggering thresholds Triggering threshold Number of apertures 1 blocked aperture — — 2 blocked apertures — 3 blocked apertures 4 blocked apertures 5 blocked apertures...
  • Page 81: Simplified Pipe Project Design

    PRO·SENS TITANUS Design ® 5.3.2 Simplified pipe project design Simplified project planning is used for equipment protection and in rooms with small dimensions. The advantage in this project planning is the uniform diameters of the aspiration apertures. The specifications according to Chapter apply to project planning. The fol- lowing limit values and aperture diameters should also be taken into ac- count.
  • Page 82: U - Pipe System

    PRO·SENS TITANUS Design ® Aspiration apertures Number of apertures ∅ of all aspiration apertures in mm*) Number of apertures ∅ of all aspiration apertures in mm*) *) Press cut diameter in aspiration-reducing film sheet 5.3.2.2 U - Pipe system 1 pipe system and 2 pipe systems pipe systems Figure 42: U-pipe system, e.g.
  • Page 83: M - Pipe System

    PRO·SENS TITANUS Design ® Aspiration apertures Number of aper- tures ∅ of all aspiration apertures in mm*) *) Press cut diameter in aspiration-reducing film sheet 5.3.2.3 M - Pipe system 1 pipe system and 2 pipe systems pipe systems Figure 43: M-pipe system, such as for equipment protection Limit values ®...
  • Page 84: Double - U - Pipe System

    PRO·SENS TITANUS Design ® Aspiration apertures Number of aper- tures ∅ of all aspiration apertures in mm*) *) Press cut diameter in aspiration-reducing film sheet 5.3.2.4 Double - U - Pipe system 1 pipe system and 2 pipe systems pipe systems Figure 44: Double U-pipe system, e.g.
  • Page 85 PRO·SENS TITANUS Design ® Aspiration apertures Number of aper- tures ∅ of all aspiration apertures in mm*) *) Press cut diameter in aspiration-reducing film sheet 06/13...
  • Page 86: Project Planning With Branch Pipes

    PRO·SENS TITANUS Design ® 5.3.3 Project planning with branch pipes Project planning with branch pipe are suitable for sampling points which are located distantly from the main run of the pipe system..branch I krit. ® ..® I krit..
  • Page 87 PRO·SENS TITANUS Design ® figure must be copied to every single sampling branch of other pipe forms (U, M, double-U pipe system). . Referring to the project planning with burs please notice that the “critical length” (l ) of a project planning does not exceed the maximum total length krit.
  • Page 88: Project Planning With Long Intake Lines > Ø 25 Mm

    PRO·SENS TITANUS Design ® If the maximum distance is exceeded a correction by an additional aspira- tion aperture on a branch pipe can be done. In this connection please no- tice that two aspiration apertures in total can be projected on each branch pipe.
  • Page 89 PRO·SENS TITANUS Design ® A basis pipe from which spur-shaped sampling pipes extend can be installed for the project planning of high-bay storage shelves. Figure 49: Example of special project planning for high-bay storage shelves 06/13...
  • Page 90: Project Planning With Acceleration Apertures

    PRO·SENS TITANUS Design ® 5.3.5 Project planning with acceleration apertures It may be necessary to increase the system's transport time in order to meet individual requirements. For this purpose, acceleration apertures can be planned at the end of the pipe branch, which will increase the transport rate. For the design of pipe systems with acceleration apertures, please refer to the following table for aspiration holes and particular pipe configuration.
  • Page 91 PRO·SENS TITANUS Design ® Number of apertures Sampling aperture type Ax-x.x a = Acceleration apertures = 7.0 mm U-Pipe Figure 51: U- Pipe with acceleration apertures Number of apertures Sampling aperture type Ax-x.x 06/13...
  • Page 92 PRO·SENS TITANUS Design ® a = Acceleration apertures = 7.0 mm Number of apertures Sampling aperture type Ax-x.x a = Acceleration apertures = 7.0 mm M-Pipe Figure 52: M - Pipe with acceleration apertures Number of apertures Sampling aperture type Ax-x.x 06/13...
  • Page 93 PRO·SENS TITANUS Design ® a = Acceleration apertures = 7.0 mm Number of apertures Sampling aperture type Ax-x.x a = Acceleration apertures = 7.0 mm Double-U-Pipe Figure 53: Double-U- Pipe with acceleration apertures Number of apertures Sampling aperture type Ax-x.x 06/13...
  • Page 94 PRO·SENS TITANUS Design ® a = Acceleration apertures = 7.0 mm Number of apertures Sampling aperture type Ax-x.x a = Acceleration apertures = 7.0 mm 06/13...
  • Page 95: Project Design For Forced Air Flow

    PRO·SENS TITANUS Design ® 5.3.6 Project design for forced air flow Monitoring air conditioning ducts Air conditioning plants are divided into low-speed and high-speed plants (see table below). The information given in this chapter applies only to low- speed plants. There is insufficient information from experience with high- speed plants.
  • Page 96 PRO·SENS TITANUS Design ® Figure 55: Duct direction change without baffle plates Figure 56: Sound dampers in a duct When a pipe system is built into air conditioning ducts, the following must be observed: ▪ As the TITANUS and the pipe system are in different pressure areas, ®...
  • Page 97 PRO·SENS TITANUS Design ® Figure 57: Air recirculation Air recirculation The air recirculation must take place at a distance of at least 2 m from the sampling. The open end of the air recirculation should be bevelled at a 45° angle.
  • Page 98 PRO·SENS TITANUS Design ® If a distance of 2 m cannot be maintained, the pipes will have to be arranged in an offset manner. This make makes it possible to achieve a drop of pres- sure between the intake airs and exhaust air, since the pipes are located in different flow rate areas.
  • Page 99: Project Design With Air Sampling Hose

    PRO·SENS TITANUS Design ® 5.3.7 Project design with air sampling hose The application of an air sampling hose can be useful if several direction changes on a short distance of a pipe system is required, e.g. for avoiding any obstacles. As the transport time can be manipulated negatively by application of an air sampling hose, the influence of the used air sampling hose is to be deter- mined on the allowed total length of pipe as follows.
  • Page 100: Project Planning With Air Return

    PRO·SENS TITANUS Design ® ning scale, the allowed total length of pipe can be 120 m for the complete pipe project planning. The result for the maximum length of the complete air sampling hose of type SCH-P25, which can be integrated within the pipe project planning, after formula adjustment is: Length of the air sampling hose = (Total pipe length - Air sampling pipe length) / Factor b...
  • Page 101 PRO·SENS TITANUS Design ® Consideration of air returns: For calculation the maximum length of air sampling pipe, the length of the air return must be multiplied by the certain factor and deducted from the allowed total length of pipe. Air sampling pipe length = Total pipe length – (Length of the air return * Factor a) Factors to calculate the lengths of air return (∅...
  • Page 102: Mains Supply

    PRO·SENS TITANUS Design ® 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 (80% load in 24 hours).
  • Page 103 PRO·SENS TITANUS Design ® NOTICE The higher figure of the total current calculated (I ) is used to design the total power supply! The power consumption of the TITANUS can be found in Chapter, "Techni- ® cal Data". Line calculation The maximum line length results from the permitted line drop on the feed.
  • Page 105: Installation

    PRO·SENS TITANUS Installation ® Installation General The regulations, guidelines and instructions given in chapter "Design" are valid. When installing the TITANUS air sampling system, the following must be ® taken into consideration: 1. there should be no changes made to the equipment. Where this is un- avoidable the operator, manufacturer and/or supplier must be in-formed (written approval 2.
  • Page 106: Opening The Titanus Pro·sens

    PRO·SENS TITANUS Installation ® PRO·SENS Opening the TITANUS ® Figure 60: Opening the TITANUS ® WARNING The components on the base and circuit board must be protected from damage with an anti-static set. To open TITANUS follow the steps below: ®...
  • Page 107: Settings

    PRO·SENS TITANUS Installation ® Settings 6.3.1 Detector module Figure 61: Standard settings on the detector module of TITANUS PRO·SENS ® 6.3.1.1 Setting of the response sensitivity The sensitivity of the detector module is set via the switch S1 (1, 2) on the PRO·SENS detector module (refer to Detector module) from TITANUS ®...
  • Page 108: Activating Threshold Of The Air Flow Monitoring

    PRO·SENS TITANUS Installation ® transmitted if the alarm remains activated. Thus, a false alarm can be avoided in case of short interferences (dust). Alarm switch S1 switch S1 Delay Period contact 3 contact 3 0 seconds 10 seconds (Standard) 30 seconds 60 seconds The alarm delay period should be set to 0 seconds for test purposes only.
  • Page 109: Fault Display

    PRO·SENS TITANUS Installation ® 6.3.1.5 Fault display The display for collective faults (air flow and detector module fault) can either be set latched (standard) or non-latched. The setting is made via the switch S1 contact 9 (refer to "Standard settings on the detector module ") of the de- tector modules of TITANUS ®...
  • Page 110: Setting Of The Fan Voltage Titanus Pro·sens

    PRO·SENS TITANUS Installation ® The contact type (break contact or make contact) of the collective fault is set using the jumper JU2 and JU3. Adjust with jumper JU2 the contact type of the 1. fault contact and with jumper JU3 the of the 2. fault contact. The fol- lowing table shows the positioning of the jumpers.
  • Page 111: Connect The Fan At Titanus Pro·sens

    PRO·SENS TITANUS Installation ® WARNING Re-initialise the air flow if you change the ventilator voltage. Close or open the jumper JU1 only when the device is switched off. PRO·SENS 6.3.1.9 Connect the fan at TITANUS ® The electrical connection of the fan is made via terminal block X5 (FAN) on PRO·SENS the base board of TITANUS ®...
  • Page 112: Setting Of Fan Voltage At Titanus Pro·sens ® -Sl

    PRO·SENS TITANUS Installation ® PRO·SENS 6.3.1.10 Setting of fan voltage at TITANUS ® Figure 64: Switching the fan voltage and fan connection terminal board on the FC-2 or FC-3 fan control circuit board The default setting for the fan voltage is 6.9 V. The fan voltage can be ad- justed according to project planning by plugging or removing the BR 1 and/or BR 2 bridges.
  • Page 113: Connecting The Fan At Titanus Pro·sens ® -Sl

    PRO·SENS TITANUS Installation ® WARNING The JU 1 bridge on the main board must always be removed. WARNING Conduct the air flow initialisation again if you change the fan voltage. Only close or open the BR 1 and BR 2 bridges when the device is turned off. PRO·SENS 6.3.1.11 Connecting the fan at TITANUS...
  • Page 114: Installation Of The Reset Board

    PRO·SENS TITANUS Installation ® Installation of the reset board PRO·SENS The reset board can be installed into TITANUS as an option. If ® PRO·SENS several TITANUS are connected to one detection line the reset ® PRO·SENS board is only installed to the last TITANUS on the detection ®...
  • Page 115 PRO·SENS TITANUS Installation ® with = end-of-line resistor on the reset board in Ω = line voltage in V = quiescent current of the line in [A] Figure 65: Installation in TITANUS PRO•SENS ® TOP·SENS Installation in TITANUS In order to install the reset board in TITANUS the following ®...
  • Page 116 PRO·SENS TITANUS Installation ® 7. Re-attach the display board cable to the main board and place the lid on the housing. 8. Tighten the lid using the snap-in closures. NOTICE Due to its height, the reset board can only be installed in the position shown in fig."Installation of reset board".
  • Page 117: Mounting Location

    PRO·SENS TITANUS Installation ® Mounting location PRO·SENS 6.5.1 Fixing of the TITANUS ® When choosing the mounting location, make sure that the displays are clearly visible. Screw the air sampling smoke detection system either directly to the wall with its bottom casing or mount it with a special support (see chapter Technical Description "Device Support").
  • Page 118 PRO·SENS TITANUS Installation ® Installation Material ® TITANUS cylinder of flat head screws – thread diameter: max. 6 mm head diameter: max. 10 mm Support cylinder or flat head screws (type MT-1) – thread diameter: 4 mm washer – diameter: 9 mm –...
  • Page 119 PRO·SENS TITANUS Installation ® Figure 68: Borehole spaces of the support type MT-1 06/13...
  • Page 120: Connection Of The Air Sampling Pipe

    PRO·SENS TITANUS Installation ® 6.5.2 Connection of the air sampling pipe Figure 69: Connection of the air sampling pipe to the air sampling smoke detection system TITANUS PRO·SENS ® Connection of air 1. To connect the air sampling pipe to TITANUS attach the pipe to the cor- ®...
  • Page 121: Electrical Connection

    PRO·SENS TITANUS Installation ® Electrical connection In order to prepare the electrical connections follow the steps below: 1. Break through the required cable entries e.g. by means of a screw- driver. 2. Attach the plastic connection pieces M 20 or M 25 to the cable entries. 3.
  • Page 122: Connection To Fas, With Reset Button

    PRO·SENS TITANUS Installation ® 6.6.1 Connection to FAS, with reset button The relay contacts on the base board can be used to e.g. connect TITA- to a central fire panel, to trigger signalling devices, security manage- ® ment systems etc. It is also possible to connect a response indicator. NOTICE The reset input must not be permanently connected to +24 V.
  • Page 123 PRO·SENS TITANUS Installation ® Figure 70: Example of the connection of TITANUS PRO·SENS with FAS and reset ® button 06/13...
  • Page 124: Pro·sens

    PRO·SENS TITANUS Installation ® PRO·SENS 6.6.2 Connection of several TITANUS without ® FAS, with reset button Figure 71: Example of the connection of several TITANUS PRO·SENS without FAS, ® with reset button 06/13...
  • Page 125: Connection To Fas, With Reset Board

    PRO·SENS TITANUS Installation ® 6.6.3 Connection to FAS, with reset board Figure 72: Example of the connection of TITANUS PRO·SENS with FAS and reset ® board 06/13...
  • Page 126 PRO·SENS TITANUS Installation ® WARNING The fault display is to be set to "non-latched" (refer to section "Settings fault display"). 06/13...
  • Page 127: Installation Of The Second Detector Module

    PRO·SENS TITANUS Installation ® Installation of the second detector module Figure 73: Installation of the second detector module 1. Only carry out the following work if the device is current-free. 2. With a slot screwdriver, carefully undo the snap-in closures of the hous- ing by simultaneously pressing in the clips located on one side.
  • Page 128 PRO·SENS TITANUS Installation ® 7. Connect the detector module to the main board via the ribbon cable. Connection: X3 HEAD 2 (see fig."Connections for base board X3, X4 and JU4") NOTICE Ensure that the position of the marker is correct before plugging the flat cable into the main board.
  • Page 129: Response Indicator - Electrical Connection

    PRO·SENS TITANUS Installation ® Response indicator - electrical connection Connect the response indicator via the terminal block X6 on the main board PRO·SENS in TITANUS ® Note the permissible cable cross sections of the corresponding screw joints and the permissible wire cross sections of the terminals (refer to chapter "Technical Data").
  • Page 130: Data Log

    PRO·SENS TITANUS Installation ® Data Log The device can be tested with the diagnostic software DIAG 3. Besides the current air flow sensor data, different status values can be read out, which help the service technician to easily recognise modified operating conditions. Air flow and smoke level values can be read out on site with a lap-top.
  • Page 131: Installation Pipe System

    PRO·SENS TITANUS Installation pipe system ® Installation pipe system Installation general The pipes, hoses 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 132: Installation Pipe System

    PRO·SENS TITANUS Installation pipe system ® WARNING Take note of the temperature range specified in the “Technical data” chap- ter under “Pipe system” when configuring the pipe system. 7.1.1 Installation pipe system The pipe system must be designed according to the requirements of the pro- ject and the pipe design guidelines (see chapter Design "Pipe Design").
  • Page 133: Installation Air Sampling Hose

    PRO·SENS TITANUS Installation pipe system ® 4. The pipes must be installed in such a way that they do not sag or move. They are fixed with pipe clips without rubber core. The space between the pipes clips should be no more than 80 cm. Reduce the space be- tween clips to no more than 30 cm if there are high temperature varia- tions.
  • Page 134 PRO·SENS TITANUS Installation pipe system ® WARNING Adhesives and cleaning products contain solvents and are flammable. It is essential to observe the supplier’s safety information before processing. Glue the air sampling hose as follows: Type SCH-PG16 Stick the air sampling hose by ABS glue into the hose bolting type SCH-PG- 16-VO.
  • Page 135: Linear Expansion Of The Pipe System

    PRO·SENS TITANUS Installation pipe system ® 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 lengthen- ing of the pipe, a decrease in temperature shortens the pipe. It is very impor- tant to take this into consideration if the installation temperature differs con- siderably in comparison to the operating temperature.
  • Page 136 PRO·SENS TITANUS Installation pipe system ® Figure 77: Pipe clips There are two fixing points for the plastic pipe clip CLIC-PA when installing the pipes: Position 1 (first locking into place) Fixes the pipe so that a linear expansion is possible (used in deep freeze ar- eas, if necessary).
  • Page 137: Patented Aspiration Apertures

    PRO·SENS TITANUS Installation pipe system ® Patented aspiration apertures Figure 78: Example of an aspiration aperture with aspiration-reducing film sheet Aspiration aperture Design aspiration apertures (bore holes) and their positioning according to project requirements and pipe design guidelines. Air sampling holes 1.
  • Page 138 PRO·SENS TITANUS Installation pipe system ® Figure 79: Attaching the aspiration-reducing film sheet 06/13...
  • Page 139: Ceilings Feed-Through

    PRO·SENS TITANUS Installation pipe system ® Ceilings feed-through 7.4.1 Ceilings feed-through for false ceiling Figure 80: Installation of ceiling feed-through To install the ceiling feed-through use the following steps: 1. Before gluing remove dirt and grease with the recommended cleaner. 2.
  • Page 140: Other Ceilings Feed-Through

    PRO·SENS TITANUS Installation pipe system ® the T-piece of the air sampling pipe. If necessary soften the hose ends with a hot air fan. 6. Stick the correct aspiration-reducing film sheet (according to pipe design guidelines) to the ceiling feed-through. The aspiration-reducing film sheets are available in two colours.
  • Page 141 PRO·SENS TITANUS Installation pipe system ® 4. For each ceiling feed-through drill a hole of ・ 12 mm through the false ceiling. 5. Calculate the necessary length for air sampling hose and cut it. Tuck the cut hose through the intermediate ceiling and on the hose pin at the pipe cap of the air sampling pipe.
  • Page 142: Monitoring In Forced Air Flow Systems (Ventilation Or Climatic Applications)

    PRO·SENS TITANUS Installation pipe system ® Monitoring in forced air flow systems (ventilation or climatic applications) 7.5.1 Detection at air inlets/outlets NOTICE If aspiration takes place in a forced air flow system (ventilator, climatic sys- tems), the air sampling points must be positioned in the air flow. Place the air sampling points as shown in following figure.
  • Page 143 PRO·SENS TITANUS Installation pipe system ® Figure 83: Positioning of air return, example of a climatic duct (bypass) For the pipe design of TITANUS in these areas refer to chapter design ® "Pipe Design for Forced Air Flow". 06/13...
  • Page 144: Filter

    PRO·SENS TITANUS Installation pipe system ® Filter 7.6.1 Installation of the air filter type LF-AD-x Figure 84: Spacing for bore holes on base of air filter housing Air filter LF-AD-x 1. To connect to the air sampling pipe with the air filter, insert the air sam- pling pipe in the provided pipe connectors of the filter.
  • Page 145: Mounting Of The Special Filter Type Sf-400/650

    PRO·SENS TITANUS Installation pipe system ® 7.6.2 Mounting of the special filter type SF-400/650 Figure 85: Mounting of the special filter into the pipe system Special filter SF-x 1. To install or un-install the special filter use the two PVC reducer screw joints at both filter ends.
  • Page 146 PRO·SENS TITANUS Installation pipe system ® Figure 86: TITANUS with special filter and LF-AD ® To mount the air filter LF-AD, perform the steps of the assembly instructions (see chapter Installation of the pipe system „ Installation of air filter, type LF- AD-x“).
  • Page 147: Air Return

    PRO·SENS TITANUS Installation pipe system ® Air return Figure 87: Mounting of the air return 1. Remove the pre-punched pipe lead-through in the protection grid of the air outlet (e.g. with a small side cutter). 2. Pass the air return through the opened feed-through in the protection grid and fix it with the existing pipe collar in the air outlet of device.
  • Page 148: Noise Suppressor

    PRO·SENS TITANUS Installation pipe system ® Noise suppressor Figure 88: Mounting of noise suppressor 1. Remove the pre-punched pipe lead-through in the protection grid of the air outlet (e.g. with a small side cutter). 2. Pass the pipe (Ø 25 mm) through the opened feed-through in the protec- tion grid and fixes it with the existing pipe collar in the air outlet of TITA- .
  • Page 149 PRO·SENS TITANUS Installation pipe system ® Installation material Noise suppressor Cylinder or flat-head screws – thread diameter: max. 4 mm – head diameter: 5 to 7 mm 06/13...
  • Page 150: 3-Way Ball Valve

    PRO·SENS TITANUS Installation pipe system ® 3-Way ball valve Figure 89: Installation of 3-way ball valve The ball valve is used for blowing through with compressed air (preferably) or pressed air. Switching occurs between detection (position 0º) and blow- through (position 180º). Connect the ball valve to the pipe system via reduc- ing screw-joints.
  • Page 151 PRO·SENS TITANUS Installation pipe system ® Connections During installation, ensure that the correct connections are made (see dia- gram): ▪ Connect the air sampling pipe system to C. ▪ Connect device to A or B and the com-pressed/pressed air to the re- maining connection.
  • Page 152: Steam Traps

    PRO·SENS TITANUS Installation pipe system ® 7.10 Steam traps 7.10.1 Steam trap type KA-DN-25 Figure 90: Mounting of the steam trap type KA-DN-25 to the pipe system Install the steam trap at the lowest point of the pipe system behind the air fil- ter and TITANUS - device and fasten it with PG screw joints.
  • Page 153: Steam Trap Type

    PRO·SENS TITANUS Installation pipe system ® 7.10.2 Steam trap type KA-1 Figure 91: Mounting of the steam trap type KA-1 to the pipe system Install the steam trap at the lowest port of the pipe system behind the air fil- ter and TITANUS –...
  • Page 154: Detonation Prevention Device

    PRO·SENS TITANUS Installation pipe system ® 7.11 Detonation prevention device Plastic pipe for air return Angele 45° Aspiration pipe steel Aspiration pipe steel Angele 45° Plastic pipe for air return Figure 92: Mounting of the detonation prevention device with grounding 06/13...
  • Page 155 PRO·SENS TITANUS Installation pipe system ® Detonation prevention devices are installed at a minimum distance of 1m from the air sampling system into the pipe system and air return pipes. The device is attached to these with a reducing screw-joint at the side of the pipe, and is connected by a steel pipe to TITANUS (see figure “Installation of ®...
  • Page 156: Test Adapter

    PRO·SENS TITANUS Installation pipe system ® 7.12 Test adapter Figure 93: Mounting of the test adapter at the pipe system The test adapter is stuck into the pipe system immediately next to the air sampling smoke detection system. The test adapter must always be closed during normal operation and is only opened for maintenance and service purposes, to introduce test gas or smoke.
  • Page 157: Commissioning

    PRO·SENS TITANUS Commissioning ® Commissioning NOTICE During commissioning, the inspection protocol must be filled out (see ap- pendix). This will be needed for later evaluation of data such as air flow value, type of adjustment (see section "Air flow sensor adjustment"), com- missioning temperature, air pressure and height above sea level.
  • Page 158: Adjustment Air Flow Sensor

    PRO·SENS TITANUS Commissioning ® Adjustment Air Flow Sensor NOTICE To correctly adjust TITANUS for the connected pipe system, the device ® must have been in operation for at least 30 minutes. Adjustment Types ▪ Adjustment can be made independent of the current air pressure (see chapter ”Adjustment Independent of Air Pressure”).
  • Page 159: Adjustment Independent Of The Air Pressure

    PRO·SENS TITANUS Commissioning ® 8.1.1 Adjustment independent of the air pressure Figure 95: Adjustment independent of the air pressure of the air flow sensor of TITA- NUS PRO·SENS ® 1. Make sure the device has been in operation for at least 30 minutes. 2.
  • Page 160: Adjustment Dependent On The Air Pressure

    PRO·SENS TITANUS Commissioning ® 8.1.2 Adjustment dependent on the air pressure Figure 96: Adjustment dependent on the air pressure of the air flow sensor of TITA- NUS PRO·SENS ® For the adjustment dependent on the air pressure of the air flow sensor a ba- rometer (Recommendation: digital precision pocket barometer GPB 1300, Greisinger electronic) and a multimeter are necessary.
  • Page 161 PRO·SENS TITANUS Commissioning ® 5. Connect the multimeter to the measuring points MP1 (+), MP4 (-) (refer to Fig. „Adjustment dependent on the air pressure of the air flow sen- sor“). Pay attention to the polarity. Choose the "V-DC" range of the measuring device.
  • Page 162: Detector Module And Alarm Transmission

    PRO·SENS TITANUS Commissioning ® Detector module and alarm transmission Activate the detector module and check the transmission value to the CFDU as follows: 1. Spray test aerosol either into the first air sampling point or the test adapter of the TITANUS pipe system.
  • Page 163: Check Air Flow Monitoring

    PRO·SENS TITANUS Commissioning ® Check air flow monitoring Pipe Fracture Verify the detection of a pipe fracture: Loosen the connection between pipe and TITANUS or open the test ® adapter. 2. Check that the fault display of the air sampling smoke detection system is lit.
  • Page 164 PRO·SENS TITANUS Commissioning ® If no faults are detected, operation of TITANUS ® or the air flow sensor can ® be checked by using the test pipe or diagnostic software (see chapter "Op- erational Check of TITANUS "). ® 06/13...
  • Page 165: Check Fault Signal Transmission

    PRO·SENS TITANUS Commissioning ® Check fault signal transmission NOTICE The following steps can only be carried out after the air flow adjustment was made according to chapter ”Air Flow Sensor Adjustment”. 1. Check the fault signal transmission. Check air flow monitoring (according to the following section) and verify that the fault signal is still lit on TITANUS and, if applicable, on the central fire ®...
  • Page 166: Operational Check Of Titanus Pro·sens

    PRO·SENS TITANUS Commissioning ® PRO·SENS Operational check of TITANUS ® If it is not possible to adjust TITANUS check the functionality by means of ® the test pipe and a digital manometer or the diagnostic software. For this check TITANUS must have been in operation for at least 30 minutes.
  • Page 167: Operational Check

    PRO·SENS TITANUS Commissioning ® 8.5.2 Operational check The operational check can be effected with or without a digital manometer. In the following the complete check is described. If during the operational check of TITANUS the values vary from those given in the following the de- ®...
  • Page 168 PRO·SENS TITANUS Commissioning ® If no fault on the air sampling smoke detection system occurred during the operational check, the pipe system must be checked. Connection check Check that: the pipe system is firmly connected to the pipe connection of TITA- ®...
  • Page 169 PRO·SENS TITANUS Commissioning ® NOTICE After commissioning is completed, the setting values must be recorded and saved. A print-out of the setting values must be filed in the project folder for future reference. 06/13...
  • Page 171: Maintenance

    PRO·SENS TITANUS Maintenance ® Maintenance Visual check Check that ▪ the pipe system is easily accessible, undamaged and firmly installed. ▪ the air sampling points on the pipe system are not blocked. ▪ air sampling pipe and connection cable are tight. ▪...
  • Page 172: Check Detector Module And Alarm Transmission

    PRO·SENS TITANUS Maintenance ® Check detector module and alarm transmission Proceed according to chapter Commissioning "Detector Module Alarm Re- lay". Also check the detector module in a visual check for external soiling or dam-age and exchange it if required. NOTICE A hardware defect of the sensor module is indicated by a permanently lit detector module LED.
  • Page 173: Exchange Of Detector Module

    PRO·SENS TITANUS Maintenance ® Exchange of detector module Figure 99: Exchange of detector module 1. Carry out the following steps only if the device is powered down. Carefully unlock the snap-in closures of the housing using a screwdriver by simultaneously pressing in both clips located at one side of the hous- ing lid.
  • Page 174 PRO·SENS TITANUS Maintenance ® NOTICE A calibration of the detector module is not required. 06/13...
  • Page 175: Changing The Air Filter Lf-Ad-X

    PRO·SENS TITANUS Maintenance ® Changing the air filter LF-AD-x Figure 100: Change the filter inserts To clean or change the filter inserts, carry out the following steps: 1. Loosen the four screws and remove the housing lid. 2. Remove the filter inserts and checks how soiled they are. The inserts can be cleaned if there is a small amount of soiling and must be replaced if soiling is heavy.
  • Page 176 PRO·SENS TITANUS Maintenance ® NOTICE Opening the housing lid of the air filter LF-AD-x causes an air flow fault in TITANUS ® 06/13...
  • Page 177: Changing Special Air Filter

    PRO·SENS TITANUS Maintenance ® Changing special air filter SF-400/650 Figure 101: Exchange of filter element To change the filter insert follow these steps: 1. Loosen the two PVC reducing couplings on the special filter 1a. Loosen the two PVC reducing couplings on the special filter 1b. 2.
  • Page 178 PRO·SENS TITANUS Maintenance ® Check of the air flow sensor adjustment Functioning Principle During initialisation of the connected pipe system, the device firstly stores the measured current value of the air flow as a rated value, using the inte- grated air flow sensor technology. This rated value serves as a reference value for further evaluation of any air flow fault.
  • Page 179 PRO·SENS TITANUS Maintenance ® Independent of air pressure If the sensor adjustment was made independent of the air pressure, varia- tions can lead to unwanted air flow faults. This type of adjustment must only be made if it can be ensured that there are not going to be any air pressure fluctuations in the immediate surroundings.
  • Page 180 PRO·SENS TITANUS Maintenance ® NOTICE It is essential to enter in the inspection protocol the adjustment type (de- pendent or independent on air pressure), air pressure values, height above sea level and set voltage on MP2/MP3. Monitor the current air flow value during maintenance work or, at the latest, check it during the next inspection.
  • Page 181 PRO·SENS TITANUS Maintenance ® Check air flow monitoring A pipe fracture or blockage is indicated for each sensor module on the elec- trics board via a flash code LED. Proceed according to chapter Commissioning “Air Flow Monitoring”. 9.10 Check fault signal transmission A fault will be indicated on TITANUS and the central control panel.
  • Page 183 Appendix Air Pressure Adjustment Tables Projection Tables System Product List Inspection Protocol Glossary Conformity certification pursuant to EU...
  • Page 185 Air Pressure Correction Table for Adjustment of TITANUS PRO · SENS® and TITANUS PRO · SENS® 2 Equipment Protection Height [m 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 186 Air Pressure Correction Table for Adjustment of TITANUS PRO · SENS® and TITANUS PRO · SENS® 2 Room Protection (I-shaped pipe system) Height [m above sea level] Air Pressure [hPa] at a height of 973 978 983 988 993 998 1003 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...
  • Page 187 Air Pressure Correction Table for Adjustment of TITANUS PRO · SENS® a nd TITANUS PRO · SENS® 2 Room Protection (U-shaped, double U-shaped and H-shaped pipe system) Height [m above sea level] Air Pressur [hPa] at a Heigt 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 189 ® Classification TITANUS PRO·SENS Projection without filter S = Sensitivity (% Lt/m) HA = Fire alarm Module Number of points 0,015 0,03 0,015 0,06 0,12 without pipe accessories Pipe shape ≥9 ≥9 ≥9 ≥9 Double U Quad--U ≥9 (1 DM) Quad--U (2 DM) with detector box and/or VSK...
  • Page 190 ® Classification TITANUS PRO·SENS Projection with air filter LF-AD M = Module S = Sensitivity (% Lt/m) HA = Fire alarm Number of points 0,015 0,03 0,015 0,06 0,12 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with detector box and/or VSK Pipe shape ≥9...
  • Page 191 ® Classification TITANUS PRO·SENS Projection with air filter LF-AD-1 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm Number of points 0,015 0,03 0,015 0,06 0,12 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with detector box and/or VSK Pipe shape ≥9...
  • Page 192 ® Classification TITANUS PRO·SENS Projection with air filter LF-AD-2 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm Number of points 0,015 0,03 0,015 0,06 0,12 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with detector box and/or VSK Pipe shape ≥9...
  • Page 193 ® Classification TITANUS PRO·SENS Projection with air filter SF-400 / SF-650 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm Number of points 0,015 0,03 0,015 0,06 0,12 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with detector box or air filter LF-AD...
  • Page 195 ® Classification TITANUS PRO·SENS with acceleration points and without filter M = Module S = Sensitivity (% Lt/m) HA = Fire alarm Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U (1 DM) Double U...
  • Page 196 ® Classification TITANUS PRO·SENS with acceleration points and without filter M = Module S = Sensitivity (% Lt/m) HA = Fire alarm Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U (1 DM) Double U...
  • Page 197 ® Classification TITANUS PRO·SENS with acceleration points with LF-AD M = Module S = Sensitivity (% Lt/m) HA = Fire alarm M = Module Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U...
  • Page 198 ® Classification TITANUS PRO·SENS with acceleration points with LF-AD M = Module S = Sensitivity (% Lt/m) HA = Fire alarm M = Module Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U...
  • Page 199 ® Classification TITANUS PRO·SENS with acceleration points with LF-AD-1 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm M = Module Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U...
  • Page 200 ® Classification TITANUS PRO·SENS with acceleration points with LF-AD-1 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm M = Module Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U...
  • Page 201 ® Classification TITANUS PRO·SENS with acceleration points with LF-AD-2 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm M = Module Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U...
  • Page 202 ® Classification TITANUS PRO·SENS with acceleration points with LF-AD-2 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm M = Module Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U...
  • Page 203 ® Classification TITANUS PRO·SENS with acceleration points with SF-xxx M = Module S = Sensitivity (% Lt/m) HA = Fire alarm M = Module Number of points 0,015 0,03 Tx-05 0,06 0,12 Tx-10 Tx-50 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U...
  • Page 205 <Z> type FS-TP-2 <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...
  • Page 206 < > type DM-TP-50-L-U <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...
  • Page 207 < > type DM-TP-50-L-F-U <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...
  • Page 208 M25-MS (PU=100 Pcs.) <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...
  • Page 209 DC 1157-AA, VdS-no.: G 299 031 <1> <AM> <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...
  • Page 210 DJ 1192 <1> <AM> <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...
  • Page 211 <Z> type DIAG-Case <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...
  • Page 212 CP-HS-1 (VE=10 pc.) <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...
  • Page 213 < > type DM-TP-25-L-F <2> <AM> <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...
  • Page 214 < > type DM-TP-80-L-F <2> <AM> <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...
  • Page 215 ® ® Commissioning Protocol for Air Sampling System Type TITANUS PRO · SENS and TITANUS PRO · SENS device number serial number Commissioning (/ –) visual check depression [Pa] sensitivity [%/m] alarm delay [sec] fault delay [min] (small/medium/ large/very large) activating threshold fault latched (yes/no)
  • Page 217 ® TITANUS PRO · SENS Glossary Glossary Technical Term Definition aerosol An aerosol is a floating particle in the microscopic also: smoke aerosol or submicroscopic particle size range. They consist of unburned parts of the fire load, intermediate products of the oxidation and finely divided carbon (soot).
  • Page 218 ® TITANUS PRO · SENS Glossary collective fault A non-differentiated, i.e. non-localizable →fault signal which is indicated at a superior system. detection line Monitored transmission line (→primary line) through which the smoke detectors are connected to the →central fire panel. detection reliability The detection reliability is the measure of reliability with which phenomena are detected and indicated...
  • Page 219 ® TITANUS PRO · SENS Glossary head control The head control is an electronic board in the detector module and contains the control electronics for the detector module. It provides the smoke signal for further processing. interactive detector Detector series with highest detection reliability of the evaluation and decision logics with interactive signal processing based on programmable algorithms.
  • Page 220 ® TITANUS PRO · SENS Glossary quiescent current Current on the →detection line in its normal operational state, →alarm current response sensitivity The response sensitivity describes the sensitivity at which an alarm is activated (→detector module sensitivity). scattered light smoke detectors Scattered light smoke detectors are optical smoke detectors.
  • Page 223 PRO·SENS TITANUS ® 06/13...
  • Page 224 PRO·SENS TITANUS ®...

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