EP2694860A1

EP2694860A1 - Safety system comprising smoke detector and signaling means

Info

Publication number: EP2694860A1
Application number: EP12719297.9A
Authority: EP
Inventors: Bernd HÖLZER
Original assignee: PWI-Pure System AG
Current assignee: PWI-Pure System AG
Priority date: 2011-04-06
Filing date: 2012-04-10
Publication date: 2014-02-12
Anticipated expiration: 2032-04-10
Also published as: AU2012238577B2; RU2013148662A; EP2694860B1; DK2694860T3; HK1195354A1; ES2527671T3; ZA201307777B; PT2694860E; SMT201500034B; US20140049400A1; CY1115931T1; AU2012238577A1; AU2012238577A8; JP5847288B2; SI2694860T1; CN103688101B; AU2012238577B8; SG194061A1; RU2551108C1; HRP20141232T1

Abstract

The invention relates to a console (1) with lighting means (2) for combining with identical or different signaling means (3-6). The console (1) consists of at least one first frame element (1.0), which comprises an upper part (1.1) with a front face (1.10) and which comprises a lower part (1.2) with a rear face (1.20) for mounting on a mounting surface (9), and first lighting means (2) that are arranged directly or indirectly on the frame element (1.0). The function of the signaling means (3-6) should not be impaired by the lighting means, and simultaneously a modular combination of such systems should be possible, said combination improving the safety. For this purpose, the frame element (1.0) is designed in at least two parts in the direction of a central axis (M). At least one groove (1.3) that at least partly encircles the central axis (M) on the outer face (1.12) is provided between the front face (1.10) and the rear face (1.20). The lighting means (2) are arranged in the groove (1.3). The frame element (1.0) has a recess (1.5) with an inner face (1.4) that is used to receive electric signaling means (3-6), and the frame element (1.0) insulates the signaling means (3-6) from the conductive waste heat and from the convective waste heat of the lighting means (2) and shields the signaling means from said waste heat.

Description

Safety system with smoke detector and signaling devices

The invention relates to a modular security system with a console for receiving the same or different signal means, which can be used in particular in case of fire. The security system includes a console with a light source and a modular system for combining with different signal means. The console itself consists of a frame element. The frame element comprises an upper part with a front side, a lower part with a rear side for mounting on a mounting surface and the middle or directly on the frame element arranged bulbs.

A combination of a lamp with a signal means designed as a smoke detector has already been described in DE 200 02 364 U1 and shown in FIG. The frame member serves as a support for the lamps in which a lighting means is arranged and which are suspended on the frame member.

In AT 502655 A4 a ceiling lamp with built-in smoke detector is described which comprises a heat radiating light source. In this case, an air intake is provided, which leads into the interior of the ceiling lamp. A temperature difference along the Luftansaugstutzens leads to a chimney effect in the air intake.

In US 4,090,178 AI a combination of a fire detector and a lamp, consisting of a housing with a bottom and side walls is described. The housing is open on the ceiling side. Opposite the ceiling, a lamp socket is centrally located on the housing, which also houses the fire alarm circuit. The invention has the object of developing such security systems such that the signal means are not affected by the light source in their function and at the same time a modular and safety-enhancing combination of such systems is possible.

The object is achieved according to the invention in that the frame member is at least two parts in the direction of a central axis and between the front and the back at least one on the outside about the central axis at least partially circumferential groove. In the groove, the light source is arranged. The frame member has a parallel to the central axis extending recess with an inner side. The inside limits the recess in the radial direction to the central axis. The recess serves to receive an electrical signal means. According to the invention, the frame element isolates the signal means from the conductive and convective waste heat of the luminous means.

Due to the two-part design, the light source can be integrated into the frame element far enough that the signal means to be arranged centrally can be positioned entirely in the radiation shadow of the light source by the frame element. This is particularly advantageous if a smoke detector is used as the signal means. For this purpose, the recess is preferably formed as a continuous, coaxial to the central axis arranged opening, so that the signal means can be sunk in the direction of the central axis as far as possible in the frame member. For this purpose, the frame member according to the invention plate-like and set back relative to the signal means on the mounting surface ^¬ arranged. The lighting means may also be arranged around the frame member in whole or in segments umlau ^¬ fend by the arrangement in the umlau ^¬ fenden groove. The design of the arrangement of the luminous means is dependent on the task to be performed by the luminous means.

For the installation of the frame member and for the mounting of the bulb, it is advantageous if the Tei ^¬ ment of the frame element is such that the upper part forms a first groove flank of the groove and the lower part of a two ^¬ te groove flank of the groove. Preferably, the upper part and the lower part are connectable to each other at least in the axial direction of the central axis, wherein the groove in a plane at right angles to the central axis is divisible by the compound.

The frame element is made of a material with a thermal conductivity of at most 1 W / (m * K) or at least 10 W / (m * K), so that metal but also plastic can be used. By a good ^{Wärmeleit ¬} property, the heat of the bulb is quickly absorbed by the frame element and released into the air. The frame element has an almost equal distribution of the surface temperature. Depending on the heat output, the frame element could additionally be designed with cooling ribs in order to increase the surface area and to be able to deliver even more heat with the same radius. By a low thermal conductivity is achieved that the frame element, the waste heat of the bulb isolated, so that the heat can not propagate in the direction of the recess to the signal means.

It can also be advantageous if the frame element ei ^¬ ne in the radial direction to the central axis between a Has inside the frame member and the light emitting means arranged insulating layer. As a result, the heat conduction in the direction of the signal means is interrupted independently of the thermal conductivity.

According to the invention, a light-conducting component is mounted in the groove, which extends in the radial direction to the central axis between the two planes of the front and back. The plane El runs on the front and the plane E2 on the back, each perpendicular to the central axis. As a result, the position of the light source is used to further propagate the light in the radial direction. In addition, the component also transports the heat away from the heat-sensitive signal means. The building ^¬ part is connected without or with a connection joint of a maximum of 0.2 mm both in the axial and in the radial direction to the central axis at the front of the frame member.

So that the signal means, in particular smoke or smoke alarms, are not influenced by the light source, the invention provides that the size of the front side and / or the mass of the frame element is dimensioned as a function of the heat introduced by the light source in such a way that at an ambient ^¬ temperature of up to 20 ° Celsius, the surface temperature of the frame element on the front is a maximum of 46 ° Celsius.

The modular structure includes the solution that the consoles via the components themselves or via intermediate components medium or direct mechanical and / or photoconductive are connected to each other. The components and the intermediate component are made of glass or of a translucent formed plastic. In the modular construction the lined and luminous construction and intermediate components form light corridors or signal lines to indicate a way of playing escape at ^¬ and lighting.

The safety system comprises a plurality of consoles as well as building and intermediate components and an electrical signal means positioned in the respective recess. The signaling means is preferably designed as a smoke detector, smoke detector, as a lamp, as a loudspeaker or as a camera. Between smoke detectors and smoke detectors is not distinguished according to the invention. Other electrical or hydraulic signaling means may be motion detectors or serve for fire extinguishing. Depending on the function of the signal means, it is flush with the front of the console in the axial direction with respect to the central axis, or ^{projects beyond} the front by a dimension of between 1 mm and 80 mm. Loudspeakers can be mounted flush, whereas smoke and smoke detectors are available for better detection of flue gases.

According to the module system is connected to an electronic control unit, wherein by at least a first signal means, an electronic signal to the electronic control unit is transferable and the electronic control unit causes an acoustic and / or op ^¬ tical signal to a second signal means. Since ^¬ is achieved by that individual signal means can be logically linked with each other. Preferably, in the recess of a frame member, a smoke detector and in the recess at least one other frame member a speaker arranged and an electronic signal from the smoke detector to the electronic control unit is an audible signal or a Voice command generated via the speaker. In case of fire, a smoke detector detects flue gases. A signal from the smoke detector to the electronic control unit provides information about where and, if so, what type of flue gases are detected. Depending on this, a voice command or an acoustic signal is generated in a speaker in another console by the electronic control unit. By the acoustic signal passers-by are warned. With the voice command, passersby are acoustically shown the shortest escape route.

When combining a console with a smoke or smoke detector, it is advantageous if an air gap between 0.5 mm and 1.2 mm is formed between the frame element and the smoke or smoke alarm in ^¬ arbitrary direction, so that the frame member and Thus, the bulb is physically separated from the smoke or smoke alarm.

For this purpose, it is advantageous if one or more lamps and / or lamps change their properties depending on one or more signals of a smoke detector. Properties are in particular the light color, the flashing frequency, the flashing phase and the brightness. With the help of bulbs and / or lamps, passers-by are visually signaled the escape route.

In this case, the properties of the lighting means and / or the lamps of at least one console can be controllable in dependence on the properties of the lighting means and / or the lamps of another console. As a result, a running light signal can be generated, for example along several consoles along a path, because the lamps and / or lamps of a first console few Milliseconds before or after the adjacent console light or flash. A corresponding series circuit of more than 5 consoles causes current light signals.

The electrical signal means are designed to be received in the recess and due to their same or similar diameter in a console from ^¬ interchangeable.

Further advantages and details of the invention are explained in the patent claims and in the description and illustrated in the figures. It shows:

FIG. 1 shows a side view of a console mounted on a mounting surface with a lighting means and a light-conducting component;

Figure la detailed view of FIG. 1;

Figure 2 shows a console of Figure 1 with a smoke detector as a signal means and a spacer between the mounting surface and the smoke detector.

3 shows a console according to FIG. 1 with a central

Luminaire as signaling means and a light-conducting component in which the lighting means are integrated;

4 shows a console according to FIG. 3 with a central

Speaker;

Figure 5a shows a security system of two modularly combined consoles, which are connected via an intermediate component in a light-conducting manner; FIG. 5b shows a security system consisting of three modularly combined consoles, which are connected in a light-conducting manner via an intermediate component;

FIG. 5c shows a security system consisting of four modularly combined consoles, which are connected via an electronic control unit;

Figure 6 is a side view in the direction of the central axis according to cut VI-VI ^λ of FIG. 1.

In the figures 1 to 4 sectional views of various consoles 1 are shown. The respective console 1 has a frame element 1.0 with an upper part 1.1 and with a lower part 1.2. The upper part 1.1 has a front side 1.10 and the lower part 1.2 has a rear side 1.20. With the back 1.20, the frame member 1.0 is attached to a mounting surface 9 designed as a ceiling. By the front side 1.10 is a perpendicular to the central axis M extending plane El and defined by the back 1.20 also a right angle to the central axis M extending plane E2.

The frame member 1.0 is formed in two parts in the axial direction of the center ^¬ axis M. At the attached to the mounting surface 9 lower part 1.2, the upper part 1.1 is fixed in the axial direction down. The connection between the two parts 1.1, 1.2 consists of an outer thread provided on the lower part 1.2 1.21 and a corresponding, provided on the upper part 1.1 internal thread 1.11. The threads 1.11, 1.21 extend in the circumferential direction about the central axis M and the upper part 1.1 is screwed onto the lower part 1.2. Between the lower part 1.2 and the upper part 1.1 a circumferential and radially outwardly open groove 1.3 is formed. In this groove 1.3, the light sources 2 are positioned according to FIGS. 1-3 on an outer side 1.12 of the frame element 1.0, so that the light emits in the radial direction to the outside.

Coaxially with the central axis M, the frame element 1.0 has a central recess 1.5 (FIG. 1a), which is designed as a continuous opening. As also shown in detail in FIG. 1a, the recess 1.5 is bounded by an inner side 1.4 of the frame element 1.0. In the recess 1.5, a signal means 3-5 is positioned, as shown in Figures 2-4. The signal means 3-5 is thereby arranged centrally in the radial ^direction adjacent to the inside 1.4 of the frame element 1.0 in the frame element 1.0 and is fastened at the top to the same mounting surface 9 as the frame element 1.0. For clarity, the Montageflä ^¬ surface 9 in the sketch spaced to the back 1.20 of the frame member 1 is shown. In the figures la-4, the mounted position is shown.

The diameter 3.1 of the smoke detector 3 shown in Figure 2 is dimensioned for thermal reasons, that between the inside 1.4 of the frame member 1.0 and the smoke detector 3, an air gap 12 is formed between 0.5 mm and 1.2 mm. The smoke detector 3 has a slotted smoke cap 3.2 and an adjoining housing 3.3. With the housing 3.3 of the smoke detector 3 is also attached to the mounting surface 9. The smoke cap 3.2 protrudes downwards in the direction of the center axis M over the front side 1.10 of the frame element 1.0 by a dimension h of 34 mm. The smoke detector 3 is thus arranged in the radiation shadow of the lighting means 2. Characterized in that the bulbs 2 between the two through the front 1.10 and the back 1.20 defined planes El, E2 are arranged, a radiation direction in the radial direction away from the smoke detector 3 is easy to implement. The air gap 12 is also realized in all other modularly combined with the console 1 signal means 3-6, which are arranged in the recess 1.5 of the console 1.

In the groove 1.3, a light-conducting component 7 is mounted between the upper part 1.1 and the lower part 1.2 in the groove 1.20. The two parts 1.1 1.2 form a first groove flank and a second groove flank 1.31 1.32 Zvi ^¬ rule which the component is mounted. 7 The component 7 can be formed from glass, plastic, natural stone or any other light-conducting material. Glass is preferably used, because it is very good heat conducting and thus transports the heat from the bulbs 2 in a direction away from the smoke detector 3.

In the embodiment according to FIG. 3, the lighting means 2 are arranged in the component 7. The light sources 2 shown on both sides of the central axis M and positioned within the groove 1.3 can not emit light directly on the signal means 4, because the signal means 4 is arranged in the radiation shadow through the groove 1.3. The heat of the luminous means 2, which may be disadvantageous for the signal means 4, regardless of the generated radiation shadow, is absorbed by the frame element 1.0 and released into the air. The light sources 2, which are further away in the radial direction from the signal means 4, are unproblematic with respect to the light emitted to the signal means 4. The disadvantageous influence of heat also decreases with increasing ^{distance of} the luminous means 2 from the signal means 4. In In an exemplary embodiment which is not illustrated, the lighting means 2 according to one of FIGS. 1 to 2 are combined with the lighting means 2 according to FIG. 3 in a frame element 1.0.

In a further embodiment, not shown, the upper part 1.1 is attached instead of a thread by attaching to the lower part 1.2 in the axial direction on the lower part 1.2 and thereby secured the component 7 in the groove 1.3. The lamps 2 may be positioned in this embodiment or in the embodiment described above on the lower part 1.2 or on the upper part 1.1.

The system combines with a smoke detector 3 according to FIG.

2 additionally comprises a spacer 8, the interim ^¬ rule the mounting surface 9 and the smoke detector 3 is arranged. By the spacer 8, the smoke detector 3 can be adjusted in its position relative to the front side 1.10 or the plane El in the axial direction to the central axis M.

In addition, in the embodiment of FIG. 2, an insulating layer 14 is provided in the lower part 1.2. For this purpose, the lower part 1.2 is constructed in several parts in the radial direction, so that heat conduction from the light sources 2 in the radial direction through the surrounding insulating layer 14 to the inside is prevented by the insulating layer 14.

In Fig. 6 is a view of the console 1 after the cutting guide VI-VI ^{Λ of} FIG. 1 with a smoke detector

3 shown in FIG 2. The component 7 is shown cut in the radial direction with respect to its as a freehand line Darge ^¬ presented circumferential contour. The conversion catching contour can have any symmetrical and asymmetrical shape taking into account the thermal properties.

Several consoles 1 are connected in a modular fashion via the component 7 or via an intermediate component 13 in a light-conducting manner. The signal means 3-6 are logically linked to one another via an electronic control unit. In the figures 5a-5c, for example, several such consoles 1, 1 1 ^{> shown} with different signal means 3-5 in the recesses 1.5 and form a security system for the case of fire.

According to Figure 5a, a first console 1 is combined with a smoke detector 3, which passes an electronic signal to a control unit, not shown, via which then a speaker 5 in a second console 1 ^{λ is} controlled for an announcement. According to Figure 5b, the module is extended by a further console 1 ^{Λ x} with a component 7 and by a fourth bracket 1 ^λ with an intermediate member 13. The intermediate member 13 connects all parts construction ^¬ 7 light-conductive. The smoke detector 3 is arranged in Zwi ^¬ rule component 13, for a console 1 takes a lamp 4 and the other console 1 ^λ a camera 6 on.

According to the embodiment shown in FIG 5c are simultaneously a plurality of lamps 4, 4, 4 ^Λ> arranged in a plurality of consoles 1, 1 ', ^{1, λ.} The lamps 4, 4 ^{^λ,} flash at different frequencies in such a way that in the direction of the escape route (arrow) is optionally generated oriented flashing sequence as lau ^¬ fendes light signal with a color change. Such current light signals form light corridors or signal lines, which are used for orientation of the Escape route serve. In a further console ΐ ^{, λ} , a camera 6 is used as a signal means for monitoring the emergency situation ^¬ .

In Figs. 1 to 6 the same parts are numbered with the same reference numerals. Unless all the same parts are numbered, the numbering has been omitted for reasons of clarity.

Claims

claims

Console (1) with light sources (2) for combining with the same or with different signal means (3-6), comprising at least a first Rahmenele ^¬ ment (1.0) with an upper part (1.1) with a front (1.10) and a lower part ( 1.2) with a rear side (1.20) for mounting on a Montageflä ^¬ che (9) and a first medium or directly on the frame element (1.0) arranged light source (2) characterized in that the frame element (1.0) a) in the direction of Central axis (M) is formed at least in two parts and between the front (1.10) and the back (1.20) at least one on the outside (1.12) about the central axis (M) at least partially circumferential groove (1.3) and b) in the groove ( 1.3) the lamp (2) is arranged and

c) the frame element (1.0) has a recess (1.5) with an inner side (1.4), which serves to receive an electrical signal means (3-6), wherein the frame element (1.0) the signal means (3-6) before the conductive waste heat and isolated and shielded from the convective waste heat of the illuminant (2).

Console (1) according to claim 1, characterized in that the upper part (1.1) has a first groove flank (1.31) of the groove (1.3) and the lower part (1.

2) forms a second groove flank (1.32) of the groove (1.3).

3. console (1) according to any one of the preceding claims, characterized in that the upper part (1.1) and the lower part (1.2) at least in the axial direction of the central axis (M) are connectable to each other, wherein by the compound, the groove (1.3) divisible is.

4. console (1) according to any one of the preceding claims, characterized in that the frame element (1.0) is formed of a material having a thermal conductivity of at most 1 W / (m * K) or at least 10 W / (m * K) ,

5. console (1) according to any one of the preceding claims, characterized in that the frame element (1) in a radial direction to the central axis (M) between an inner side (1.4) and the lighting means (2) arranged insulating layer (14).

6. console (1) according to any one of the preceding claims, characterized in that in the groove (1.3) a light-conducting component (7) is mounted, extending in the radial direction to the central axis (M) between the two planes (El, E2) the front and back (1.10, 1.20) extends.

7. console (1) according to any one of the preceding claims, characterized in that the size of the Vordersei ^¬ te (1.10) and / or the mass of the frame member (1.0) in response to the heat introduced by the light source (2) is dimensioned such in that, at an ambient temperature of up to 20 ° Celsius, the surface temperature of the frame element (1.0) on the front side (1.10) is at most 46 ° Celsius.

8. module system consisting of a plurality of consoles (1, 1 ^λ ) according to one of the preceding claims, characterized ge ^¬ indicates that the consoles (1.1 ^λ ) on the components (7, 7) medium or direct mechanical and / or photoconductive can be connected to each other.

9. modular system comprising a plurality of brackets (1, 1 ^λ ) according to one of the preceding claims 1 to 7, characterized in that between at least two brackets (1, 1 ^Λ ) βίη intermediate component (13) is provided, via which at least two components ( 7, 7 ^Λ ) are mechanically and / or light-conducting connected to each other.

10. Security system consisting of one or more consoles (1, 1) or a modular system according to one of the preceding claims and in the recess (1.5) positionable electrical signaling means (3), wherein the signal means (3) is designed as smoke or smoke alarm ,

11. Security system according to claim 10, characterized in that between the frame element (1.0) and the smoke or smoke alarm (3) in any direction an air gap (12) is formed between 0.5 mm and 1.2 mm.

12. Security system according to one of claims 1 to 9, characterized in that the signaling means (4-6) as a lamp (4) or as a loudspeaker (5) or as Ka ^¬ mera (6) or as another electrical or hydraulic signal means , wherein the lamp (4) or the speaker (5) or the camera (6) comprises a housing having a diameter corresponding to a diameter (3.1) of the housing (3.3) of the flue ^¬ or smoke detector (3).

13. Security system according to one of claims 10 to 12 with an electronic control unit, wherein by at least a first signal means (3), an electronic signal to the electronic control unit is transferable and the electronic control unit an acoustic and / or optical signal to a second signal means (4 -6).

14. Safety system according to one of claims 10 to 13, characterized in that one or more lamps (2, 2) and / or lamps (4, 4 ^λ ) in response to one or more signals of a smoke detector (3) change their properties.

15. Security system according to one of claims 10 to 14, characterized in that the properties of the lighting means (2) and / or the lamps (4) at least one console (1) in dependence of the properties of the lighting means (2 ^λ ) and / or the Lamps (4 ^Λ ) another console (1) are controllable.