RU51770U1 - SMOKE SENSOR - Google Patents

Abstract

The utility model relates to the field of fire fighting equipment, in particular, to means for signaling when smoke is present. The smoke sensor is installed in fire hazardous areas and works as follows. When installing the housing 2 on the base 1 and fixing the cover 10 on the housing 2, the smoke chamber becomes practically "light-tight" from the penetration of ambient light, therefore, the light detector 5 is sufficiently protected from external light exposure. From the internal direct or reflected light exposure by the radiation of the light source 4, the light detector 5 is sufficiently protected due to the presence of recesses 12 on the cover 10, ribs 9 and the light valve 8. Thus, in the absence of a light-scattering medium in the smoke chamber, light does not enter the light receiver 5, which eliminates false triggering of the smoke detector. In the event of the appearance of smoke in the room, it flows freely between the ribs 3 and fills the interior of the smoke chamber. In this case, the light from the light source 4 is scattered by smoke particles inside the smoke chamber and part of the scattered light falling on the light receiver 5 causes an electrical signal to appear on its contacts, which subsequently leads to a fire alarm.

Description

The utility model relates to the field of fire fighting equipment, in particular, to means for signaling when smoke is present in a room.

A known ignition sensor containing a light source and a light receiver, which are located under the flat part of the sensor body, and the optical axis of the light source and receiver intersect and lie in the plane parallel to the flat part of the body (PCT application WO 01/78031, G 08 B 17/107, 10/18/2001). In this device, a smoke chamber (pos. 22), where smoke is detected, and in which the optical axes of the light source and receiver intersect, is formed by a closed vertical wall (pos. 26) with recesses (pos. 27) and two openings (pos. 25 ) through which the optical axes of the light source and receiver pass. Smoke enters this chamber from the upper circulation part of the chamber (key 23), formed by perimeter-shaped V-shaped ribs through the opening 24. The disadvantage of this device is that the smoke chamber is a dead end, into which smoke enters from the circulation chamber, which, on the one hand, slows down the ingress of smoke into the smoke chamber, i.e., as a result, can lead to untimely operation of the sensor, and on the other hand, slows down the exit of smoke from the chamber in a situation where, for example, the cause of the smoke is already established anena and the sensor continues to signal the presence of smoke in the chamber.

A known smoke detector comprising a smoke chamber containing a housing, in the upper flat part of which holes are made, a light source and a light receiver located under the flat part of the housing, while the optical axis of the light source and light receiver pass through these holes, lie in the same plane perpendicular to the upper flat parts of the housing and intersect in the Central region of the smoke chamber, the housing cover, the housing cover latches mounted on the housing, the housing cover on its inner surface and provided with recesses, as well as a means of preventing ambient light from entering the smoke chamber, made in the form of V-shaped ribs arranged along the periphery of the smoke chamber uniformly in the circumferential direction (see US Pat. No. 2,6778091, US CI 340/628, 08/17/2004) . This device is accepted as the closest analogue.

The disadvantage of this device is, firstly, in the location of the means to prevent ambient light from entering the smoke chamber precisely on the housing cover, which, with inevitable manufacturing errors of parts, can cause the cover to skew (and therefore V-shaped ribs) relative to the housing when it is put on clamps and, as a result, the possibility of ambient light penetrating into the smoke chamber. In order to reduce this negative factor, additional ribs are compulsorily provided in the known device, which do not guarantee the exclusion of ambient light from entering the smoke chamber (key 46 in FIGS. 2, 3). Secondly, the concentric arrangement of the recesses on the inner side of the housing cover does not sufficiently effectively prevent the light source beam reflected from them from reaching the light receiver, as concentric recesses, even being partially illuminated by a light source, due to the curvature of the reflecting surface can cause the appearance of weak stray scattered light in a smoke chamber. These circumstances reduce the reliability of operation of the smoke detector, since the "light tightness" of the smoke chamber, both due to the possibility of penetration of ambient light, and due to the high probability of the occurrence of internal spurious light scattering is not guaranteed.

The technical problem to which the present utility model is directed is to reduce the likelihood of ambient light entering the smoke chamber and the appearance of internal spurious light scattering from the light source in it.

The specified technical problem is solved due to the fact that in the smoke detector including the smoke chamber containing the housing, in the upper flat part of which holes are made, the light source and the light receiver located under the flat part of the housing, the optical axes of the light source and light receiver passing through these the holes lie in the same plane perpendicular to the upper flat part of the housing and intersect in the central region of the smoke chamber, the housing cover, the housing cover latches fixed to the housing, and The housing tower on its inner surface is provided with recesses, as well as a means of preventing ambient light from entering the smoke chamber, made in the form of V-shaped ribs in plan arranged uniformly around the periphery of the smoke chamber in the circumferential direction, and a means of preventing ambient light from entering the smoke chamber , made on the body, recesses on the inside of the cover are made

in parallel rows, with at least four ribs made on the housing perpendicular to its flat part, located symmetrically relative to the plane formed by the optical axes of the light source and receiver, on the lid of the housing along the periphery there are V-shaped recesses in plan, arranged uniformly in the circumferential direction the number of V-shaped ribs and V-shaped recesses is the same, and the lids of the housing cover are mounted on the ribs of a V-shaped.

The utility model is illustrated by drawings, where, in a schematic view, Fig. 1 shows the body of the smoke chamber, Fig. 2 shows a section along A-A in Fig. 1 with the light source and receiver installed (one edge is conventionally shown), and in Fig. 3 - smoke chamber cover, Fig. 4 - section along BB in Fig. 3.

The smoke detector contains a base 1, in which the smoke chamber body 2 is installed, on the periphery of which ribs 3 are uniformly located in the circumferential direction, having a V - shape in plan, arranged with a step to prevent ambient light from entering the smoke chamber (Fig. 2 conditionally one rib is shown 3). On the base 1, a light source 4 (for example, an LED) and a light receiver 5 (for example, a photoelectric sensor) are installed. The electrical connections of the light source 4 and the light receiver 5 with elements of the electronic equipment of the smoke detector are not conventionally shown. Openings 6, 7 are made in the body of the smoke chamber 2, wherein the light source 4 and the light receiver 5 are located on the base 1 so that their optical axes lie in the same plane perpendicular to the upper flat part of the smoke chamber body 2 and intersect in its central region, excluding direct rays from the light source 4 to the light receiver 5. In addition, for this purpose, a light valve 8 and ribs 9 are installed in the smoke chamber body 2 and mounted on the smoke chamber body 2 symmetrically with respect to the plane formed by cal axes of the light source 4 and the light receiver 5.

The smoke detector is equipped with a lid 10, on the inner surface of which peripheral depressions 11 are V-shaped in plan, arranged uniformly in the circumferential direction, the number of ribs 3 and depressions 11 being the same, and their V-shaped forms are congruent. In addition, on the inner surface of the lid 10, recesses 12 are made parallel to each other, and on the ribs 3 there are latches 13 for fastening the lid 10, in which holes 14 are in turn made. The recesses 12

have a V-shape in cross section and are located on the lid 10 so that when you put it on the body 2 of the smoke chamber they are directed at an angle of 45 ° to the plane formed by the optical axes of the light source 4 and the light receiver 5.

The smoke detector is also equipped with a means of attaching it to the bearing surface of the room (not shown), which can be performed such as, for example, in US patent No. 6778091.

The smoke sensor is installed in fire hazardous areas and works as follows. When installing the housing 2 on the base 1 and fixing the cover 10 on the housing 2, the smoke chamber becomes practically "light-tight" from the penetration of ambient light, therefore, the light detector 5 is sufficiently protected from external light exposure. From the internal direct or reflected light exposure by the radiation of the light source 4, the light receiver 5 is sufficiently protected due to the presence of recesses 12 on the cover 10, ribs 9 and the light valve 8. Thus, in the absence of a light-scattering medium in the smoke chamber, light does not enter the light receiver 5, which eliminates false triggering of the smoke detector.

In the event of the appearance of smoke in the room, it flows freely between the ribs 3 and fills the interior of the smoke chamber. In this case, the light from the light source 4 is scattered by smoke particles inside the smoke chamber and part of the scattered light falling on the light receiver 5 causes an electrical signal to appear on its contacts, which subsequently leads to a fire alarm.

Claims (1)

A smoke detector comprising a smoke chamber containing a housing, in the upper flat part of which holes are made, a light source and a light detector located under the flat part of the housing, while the optical axes of the light source and light receiver pass through these openings, lie in the same plane perpendicular to the upper the flat part of the body and intersect in the central region of the smoke chamber, the body cover, the housing cover latches fixed to the body, and the housing cover on its inner surface is provided with and the recesses, as well as a means of preventing ambient light from entering the smoke chamber, made in the form of V-shaped ribs in plan arranged along the periphery of the smoke chamber uniformly in the circumferential direction, characterized in that the means of preventing ambient light from entering the smoke chamber on the case, the recesses on the inner side of the cover are made in parallel rows, while at least four ribs located symmetrically on the case perpendicular to its flat part On the periphery of the plane formed by the optical axes of the light source and receiver, V-shaped recesses are made in plan view, arranged uniformly in the circumferential direction, with the same number of V-shaped ribs and V-shaped recesses being the same, and the housing cover latches are installed on the edges of a V-shaped.