AU670082B2 - Improvements relating to smoke detection scanning apparatus - Google Patents

Description

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i, OPI DATE 13/12/93 APPLN. ID 40504/93 AOJP DATE 24/02/94 PCT NUMBER PCT/AU93/00208 IIII II llllllllllllll lI ll llllII I IAU AU9340504 INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) (51) International Patent Classification 5 (11) International Publication Number: WO 93/23736 GCON 21/53, F16K 11/22, 11/24 Al (43) International Publication Date: 25 November 1993 (25.11.93) (21) International Application Number: PCT/AU93/00208 (81) Designated States: AU, JP, US, European patent (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, MC, NL, (22) International Filing Date: 10 May 1993 (10.05.93) PT, SE).

Priority data: Published PL 2381 11 May 1992 (11.05.92) AU With international search report.

(71) Applicant (for all designated States except US): I.E.I. PTY.

LTD. [AU/AU]; 15-17 Normanby Road, Clayton, VIC 3168 6782 (72) Inventor; and Inventor/Applicant (for US onl') COLE, Martin, Terence [AU/AU]; 7 Loxwood Avenue, Keysborough, VIC 3173

(AU).

(74) Agent: WATERMARK; 2nd Floor, The Atrium, 290 Burwood Road, Hawthorn, VIC 3122 (AU).

(54)Title: IMPROVEMENTS RELATING TO SMOKE DETECTION SCANNING APPARATUS (57) Abstract 11 A smoke/pollution detection apparatus embodying a manifold clo j valve assembly (11) including four inlet ports leading into a spreader cone (12) for deflecting gas/airstream, drawn from a plurality of zones under surveillance through a pipe reticulation system comprising a plurality of pipes communicating with said zones, from the manifold (11) 14. 1 around the top of a dust filter A valve means including a reciprocating, rotating matching thin conical bell (14) situated over the cone (12) may be raised to an upward position where a hole (15) is arranged to be aligned with one of the ports such that the others are blocked, and o 12 gas/airstream from the particular pipe joined to the open port is sam- o oo o00 pled. Selective closing of the inlet ports to the assembly (11) allows the 0 °o 0 locality of a zone of any detected smoke/pollution to be quickly ident- 0ooo ified by the apparatus and in which all ports to the apparatus remain o0 o open under normal circumstances (no pollution detected) and all moni- ooo tored zones remain coupled to a detector and there is no power drawn o o nor any movement of any parts including the valve means in the inop- ooo oo erative condition, 0 o0oo 0 0 0 0 o o E 0 11 I I It. I Ir ~r WO 93/23736 PCT/AU93/00208 IMPROVEMENTS RELATING TO SMOKE DETECTION SCANNING

APPARATUS

The present invention relates to a pollution/smoke detection apparatus incorporating an aspirated gas reticulation system connected to a large number of sampling points in which gas from a number of monitored spaces is drawn for testing.

It is normal in such systems for the pipe reticulation system to be jointed at a manifold which incorporates a dust filter prior to exposure of the gas to smoke/pollution detection equipment in a sampling chamber.

A known multi-port manifold preferably includes four equally spaced ports receiving gas samples carried to the ports by a pipe reticulation system.

A search of prior art records reveal several attempts at early warning techniques by way of identifying the specific area or zone from which pollution is being sourced.

Australian Patent No. 624097 relates to a fire alarm system including a plurality of slave fire detectors and a master detector to transmit a signal to a central receiving unit.

U.S. Patent No. 2,660,052 (Uhl) relates to testing of successively withdrawn samples from a plurality of sources for testing and purging the system with clean air to avoid contamination between sources. This is a continuous process.

U.S. Patent No. 1,755,834 (Marr) provides for several observation cabinets allowing for visual determinaton of those cabinets through which i smoke is actually present. U.S. Patent No. 3,678,487 (Ludewig) discloses a rotary selector valve provided for continuously drawing off samples from zones and subjected to detection apparatus.

French Patent No. 2670010 (Cerberus) discloses detection devices in each supply line from different zones.

U.S. Patent No. 3,678,488 (Skala) discloses a condensate nuclei monitor which is selectively switched from one zone to another to monitor condensate in each zone respectively with individual adjustment of sensitivity for each zone.

L r -YL II WO 93/23736 PCT/AU93/00208 2 Because the air samples may be drawn from a relatively large area in a building or even from separate buildings, it is desirable in an early warning smoke/pollution detection system for early identification of the specific area or zone from which the smoke/pollution is sourced. This can be achieved by identifying the specific pipe or pipes attached to the manifold that are carrying smoke/polluted air and thereby narrows the search for the potential fire or fire.

The above-mentioned prior specifications make an attempt at such early identification and localisation. Such identification will also enable utilisation of a monitoring system in a number of small discrete independently located areas, the individual size of which may not justify their own individual detection system.

It is also desirable that the apparatus achieving these aims is of a low power consumption and has low maintenance requirements.

It is an objective of the present invention to provide a smoke/pollution detection apparatus incorporating a manifold valve device useful in quick identification of a zone in which smoke/pollution is detected.

There is provided according to the present invention, a smoke/pollution detection apparatus embodying a manifold valve device adapted to receive gas/air drawn from a plurality of zones under surveillance through a reticulation pipe system comprising a plurality of pipes communicating with said zones, said manifold valve device being connected to said plurality of pipes receiving said gas/air, valve means selectively closing one or some inlet ports to the inlet valve device, the arrangement being such that the locality of the zone of any detected smoke/pollution can be quickly identified, wherein all ports to the manifold valve apparatus remain open in normal circumstances such that all monitored zones remain coupled to the detector and the manifold means is inoperative drawing negligible or no power until such time as smoke/pollution is detected to activate said manifold valve device.

In a further aspect of the invention, there is provided a manifold valve apparatus for use in a smoke/pollution detection apparatus in which gas/air is drawn from a plurality of areas to a location adjacent to the manifold apparatus in which the manifold apparatus includes a plurality of inlet ports each connected to one of said plurality of zones by a gas/air conduit for receiving said Eli WO 93/23736 PCT/AU93/00208 3 gas/air, valve means for selectively closing one or some inlet ports of the manifold apparatus in rotation, the arrangement being such that the area source of any detected smoke/pollution can be identified when said smoke/pollution has been detected by said detection apparatus and wheroin the valve means remains inactive until such time as said smoke pollution has been detected.

If a predetermined smoke/pollution level is detected, the valve means is activated so that the contents of each of said plurality of pipes emanating from various designated areas are scanned by the detector to identify that or those pipes and therefore the designated areas carrying the polluted gas/air and therefore the area from which the sample is taken.

In a more specific form of the invention the manifold apparatus includes a valve device which is reciprocally and rotationally mounted relative to a plurality of manifold ports in which said valve device includes one port which is adapted to communicate with each of said plurality of manifold ports and series such that sample there is drawn into said manifold one port at a time to enable identification of the origin of any positive sample.

Thus, for example, in a four port manifold when smoke/pollution is detected the valve is actuated and adapted to close three of the ports at any one ii time so that only one selected port and monitored area is coupled to the detector.

Under normal conditions (that is no positive sampling detected by the detector), the valve means is de-energised and inoperative so that all four ports remain open for the detector to be exposed to all sampled areas and the operation of the valve does not draw any power.

The valve means is preferably solenoid operated and in such an instance the energy consumption must be kept to a minimum where battery operation is i used. Thus energy efficiency must be high requiring economy of movement of the valve with low friction losses and furthermore the device draws zero current until a search mode is initiated with activation of the solenoid.

It is preferable that the device is virtually maintenance free for a long period of time of at least two years and preferably up to ten years. In these 'YL L -n

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WO 93/23736 PCT/AU93/00208 4 circumstances it is necessary that lubrication is not required for moving parts or that the parts are sealed against possible dust contamination.

It is also desirable that the design is compact and can be utilised as a replacement part for existing prior art assemblies particularly in the manifold assembly.

Preferably the system operates with an aspirator of low energy and head and therefore the airflow through the manifold, scanner and dust filter must occur with minimal pressure (head) loss. Therefore it is essential that the system is aerodynamically efficient involving minimal deflection or acceleration of the airstream.

The invention will be described in greater detail with reference to the accompanying figures in which Figure 1 shows a side view of a prior art manifold and a filter.

Figure 1A is a plan view of the manifold arrangement.

Figure 2 is an elevation view showing the manifold scanning arrangement and filter of the present invention.

Figure 3 is a sectional view showing the configuration of the valve means.

Figure 4 is a plan view of the valve means.

Figures 5, 6 and 6A show manual and solenoid operated versions of the rotatable and reciprocal valve means.

With reference to Figures 1, 1A and 2, the manifold assembly 11 includes four.ports 11A leading into a spreader cone area 12 for gently deflecting the airstream from the manifold around the top of the dust filter 10. i With reference to Figure 2, a matching thin conical bell 14 is placed over the spreader cone 12 and in the down position shown in Figure 2 has no influence on the airflow entering the manifold ports 11 travelling down into the filter With reference to Figures 3 and 4, the conical bell 14 includes a single aperture 15 in its wall.

With reference to Figures 5, 6 and 6A, the conical bell member 14 may be raised from its lowered position to an upward position as shown in Figures 6 and ii WO 93/23736 PCT/AU93/00208 6A where the hole 15 is arranged to be aligned with one of the ports 11A in the manifold 11 such that the other three ports in the manifold are blocked.

Thus with the conical bell 14 in the raised position sampling into the detector not shown will occur from the particular pipe joined to the open port 11A only.

Vertical movement of the conical bell is conveniently achieved by means of a solenoid shown in Figure 6 or by a lifting lever 17 as shown in Figure With reference to Figures 6 and 6A, rotation of the conical bell 14 to the next port 11A is achieved by means of a double-acting sawtooth cam 20 which provides a 450 rotation for each solenoid actuated reciprocating movement up and down which results in the necessary 900 total rotation for each reciprocating activation of the solenoid for movement of the aperture to the next manifold port 11A. Figure 6A shows the conical bell 14 in the lowered position wherein gas is free to enter all four ports 11.

In the case of the manually-operated scanner shown in Figure 5, the conical bell 14 is retained in its downward fully-open position by means of the spring 22.

It will be appreciated that the entire assembly can, in fact, be operated successfully in any orientation with the spring and solenoid designed to take advantage of any gravitational forces.

In view of the fact that the manifold valve apparatus is normally inactive, no power is drawn and furthermore, there is no mechanical noise from moving parts and the solenoid operator. Furthermore, maintenance and supervision will be kept to a minimum since movement of the parts in the manifold valve arrangement is called upon only during a smoke detection phase.

The solenoid is electrically connected to the output of a smoke detection apparatus (not shown) but examples of which have been previously disclosed in U.S. Patent Nos. 4,665,311 and 4,670,741 both filed by the same inventor.

Claims (3)

1. In a smoke/pollution detection apparatus a manifold valve device adapted to receive gas/air through inlet ports drawn from a plurality of zones under surveillance through a reticulation pipe system comprising a plurality of pipes communicating with said zones, said manifold valve device being connected to said plurality of pipes for receiving said gas/air, valve means selectively closing one or some of said inlet ports to the manifold valve device, the arrangement being such that the locality of a zone of any detected smoke/pollution can be quickly identified, wherein all ports to the manifold valve device remain open in normal circumstances such that all monitored zones remain coupled to the detection apparatus and the manifold valve device is inoperative thereby drawing negligible or no power until such time as the smoke/pollution is detected, and wherein said valve device is reciprocally and rotationally mounted relative to the inlet ports in the manifold.

2. A manifold apparatus for use in a smoke/pollution detection apparatus in which gas/air is drawn from a plurality of areas to a location adjacent to the manifold apparatus in which the manifold apparatus includes a plurality of inlet ports each connected to one of said plurality of areas by a gas/air conduit for receiving said gas/air, valve device for selectively closing one or some inlet rports in rotation, the arrangement being such that the area source of any detected smoke/pollution can be quickly identified wherein under normal circumstances all ports to the manifold apparatus remain open such that all monitored areas are coupled to the detector and the valve means is inoperative, and wherein said valve device is reciprocally and rotationally mounted relative to the inlet ports in the manifold.

3. A manifold apparatus as claimed in Claim 1 or Claim 2, in which said valve device includes one port which is adapted to communicate with each of said plurality of manifold ports such that a sample is drawn into said manifold one port at a time to enable identification of any positive sample that has been SRA4 detected by said smoke detector. T