KR100983539B1 - Smoke alarm - Google Patents

Abstract

The present invention relates to a photoelectric fire detector, generating a traveling wave of light through a light emitting sensor and sensing the traveling wave of the light refracted by the smoke through a light receiving sensor on the sensor unit and the upper portion of the sensor unit Combined to provide a photoelectric fire detector comprising a cover unit to scatter the traveling wave of the light and induces the flow of smoke, not only improve the assembly and robustness of the fire detector, but also improve the efficiency and precision of the fire detection To make it possible.

Fire, smoke, refraction, light sensor, detection

Description

Photoelectric fire detector {Smoke alarm}

According to the present invention, a traveling wave emitted from a light emitting sensor is refracted by smoke particles generated in a fire and the traveling wave refracted by the smoke particles is detected by a light receiving sensor to send a detection signal to a central control disaster prevention system of a building or to generate an alarm alone. The present invention relates to a photoelectric fire detector for generating a fire, and to a photoelectric fire detector for improving assembly efficiency and robustness as well as improving efficiency and precision of fire detection.

In general, fire detectors are interlocked detectors that operate in conjunction with centralized disaster prevention systems in large-scale buildings such as buildings or apartments, and individual units that operate individually in large-area buildings such as single-family houses or townhouses. There is a sensor of eclipse structure.

The interlocking and single fire detectors are largely classified into a constant temperature detector that detects a room temperature according to a sensing method, and a photoelectric detector that detects smoke particles in a room by scattering of light. And it is installed on the ceiling or wall for easy sensing of smoke, and continuously detects the fire and in case of fire, alerts people who are staying indoors by generating alarm sound or self alarm sound. I would have to.

Although the above-mentioned constant temperature detector is simple in structure and circuit, but detects the designated temperature higher than room temperature, there is a delay time until the flame reaches the temperature sensor, so the detection efficiency at the initial stage of fire decreases and depending on the installed position While it is difficult to obtain uniform sensing efficiency, the photoelectric detector detects smoke generated in the early stage of the fire, and thus detects the fire faster than the constant temperature detector and obtains uniform sensing efficiency regardless of the installation location. In recent years, such photoelectric sensors have been widely used.

Briefly describing the general structure of the photoelectric sensor, a case having a space portion formed to allow the introduction of external air, a sensor assembly located in the space portion of the case for detecting smoke particles in the air in case of fire, and the case A display unit which is installed inside and displays a fire signal when a smoke particle is detected by the sensor assembly, an alarm unit for generating an alarm sound, and to supply electricity for the operation of the sensor assembly and the alarm unit in the case; It comprises an electricity supply made.

The sensor assembly may include a housing having a sensing space in which air is circulated while external light is blocked, and sensors for sensing smoke particles by emitting and receiving light in response to the sensing space of the housing; It is made of a structure including a shielding member is installed to enable the blocking of foreign matter in response to the sensing space of the housing.

That is, the sensor assembly, when the external smoke flows into the sensing space side of the housing when the fire is detected by the mutual sensing action of the light-emitting and light-receiving sensor to notify the fire occurrence through the alarm unit quickly will be.

However, the conventional photoelectric fire detector is not only complicated in the assembly process between the components, but also has low robustness, and the light from the light emitting sensor is irregularly reflected in the sensor assembly, resulting in the efficiency and precision of the fire detection. There was a problem such as decrease.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to provide a photoelectric fire detector having a structure capable of improving the efficiency and precision of fire detection by inducing regular scattering of light while improving assembly and robustness. .

In order to achieve the above object, the present invention generates a traveling wave of light through a light emitting sensor and senses a fire by sensing a traveling wave of light refracted by smoke particles through a light receiving sensor and an upper portion of the sensor unit. Is coupled to the scattering the traveling wave of the light, and provides a photoelectric fire detector comprising a cover unit for inducing the flow of smoke.

The photoelectric fire detector according to the present invention may be configured to further include a insect-proof unit configured outside the cover unit to protect the sensor unit and the cover unit from the external environment.

In addition, the sensor unit of the photoelectric fire detector according to the present invention, the lower scattering plate consisting of a uniform protrusion is provided in the central portion, the upper end of the upper support plate is provided with a light emitting sensor fixing for fixing the light emitting sensor, the support plate And a light blocking plate provided between an upper end of the light receiving sensor fixing part to fix the light receiving sensor, and between the light emitting sensor fixing part and the light receiving sensor fixing part to block the traveling wave of the light emitting sensor from being directly detected by the light receiving sensor. It can be configured.

The sensor unit of the photoelectric fire detector according to the present invention may further include a pair of holders coupled to the light emitting sensor fixing unit so that the light emitting sensor is firmly fixed to the light emitting sensor fixing unit.

The sensor unit of the photoelectric fire detector according to the present invention may further include a shielding plate coupled to the light receiving sensor fixing part and blocking external electromagnetic waves.

In addition, the light emitting sensor fixing part and the light blocking plate of the sensor unit according to the present invention is composed of an angle of 40 ° with respect to the center of the support plate, and the light emitting sensor fixing part and the light receiving sensor fixing part is 130 around the support plate It can be configured to make an angle of °.

In addition, the cover unit of the photoelectric fire detector according to the present invention, the upper scattering plate consisting of a uniform protrusion is provided in the central portion, the lower end of the cover plate is provided to scatter the traveling wave of light by the light emitting sensor It is formed along the lower outer circumferential surface of the reflector and the cover plate, it may be configured to include a wall portion to block the light from the outside to induce the outside smoke while circulating in the sensor unit while circulating in the sensor unit.

In addition, the wall portion of the cover unit according to the present invention, the outer wall formed along the lower outer peripheral surface of the cover plate, between the first wall and the first wall is formed uniformly spaced apart by a predetermined interval inside the outer wall. It may be configured to include a second wall formed in.

In addition, the sensor unit and the cover unit of the photoelectric fire detector according to the present invention can be coupled or separated by a fixed hook.

In addition, the insect repellent unit of the photoelectric fire detector according to the present invention may be configured to include a insect repellent net configured on the outside of the cover unit and a supporter for supporting the insect repellent net.

According to the present invention, it is possible to obtain advantages such as not only improving the assemblability and robustness of the photoelectric fire detector, but also improving the efficiency and precision of the fire detection.

The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and effect of the preferred embodiment of the present invention.

1 is an exploded view of a photoelectric fire detector according to an embodiment of the present invention, showing the overall configuration of the present invention. That is, the present invention comprises a sensor unit 100, the cover unit 200 and the insect repellent unit 300.

2A illustrates an assembly view of the sensor unit 100 according to an embodiment of the present invention, FIG. 2B illustrates a perspective view of the sensor unit 100, and FIG. 2C illustrates the sensor unit 100 and a substrate ( The state where P) is coupled is shown and the whole structure of the sensor unit 100 which comprises the said photoelectric fire detector is shown.

The sensor unit 100 generates a traveling wave of light through the light emitting sensor S1 and senses a fire by sensing the traveling wave of the light refracted by the smoke particles through the light receiving sensor S2, and the support plate 10. ), And includes a light emitting sensor fixing part 11, a light receiving sensor fixing part 12, and a light blocking plate 13, and is coupled to a substrate P for controlling the light emitting sensor S1 and the light receiving sensor S2. .

The support plate 10 is a plate serving as a base of the sensor unit 100, and has a lower scattering plate 10a formed of a uniform protrusion at a central portion thereof.

The lower scattering plate 10a is a plate for preventing diffuse reflection of traveling waves of light through the light emitting sensor S1 and may have a structure protruding linearly from the surface.

On the other hand, if the lower scattering plate 10a is not formed, the traveling wave of light may be irregularly diffused by the surfaces of the plane, thereby reducing sensing accuracy or efficiency.

In addition, a plurality of, preferably three fixing hooks 10b and 10b 'are formed on upper and lower outer peripheral surfaces of the support plate 10, and the fixing hooks 10b and 10b' cover the substrate P or a cover to be described later. When assembling with the unit 300, it is possible to facilitate the assembly as well as to improve the robustness without a separate assembly tool.

On the other hand, the height of the fixing hook (10b ') coupled to the substrate (P) can be applied in various ways, but it is effective to maintain the appropriate firmness when fixing with the substrate (P) by 1mm, 1.2mm, 1.6mm. .

The light emitting sensor fixing part 11 is provided at an upper end of the support plate 10 to fix the light emitting sensor S1, and has a light emitting sensor firmly fixed by a pair of holders 11a. S1) is inserted into and coupled to the inside, and the light emitting sensor S1 is prevented from changing a fixed position and angle due to physical vibration or shock by the light emitting sensor fixing part 11 and the holder 11a. can do.

The light receiving sensor fixing part 12 is provided at an upper end of the support plate 10 to fix the light receiving sensor S2. After the light receiving sensor S2 is inserted and coupled, external electromagnetic waves are generated. The shielding plate 12a for blocking is coupled in a form surrounding the light receiving sensor S2.

The shielding plate 12a may be a metal or synthetic resin capable of blocking electromagnetic waves, and the light receiving sensor S2 may include a photoelectric fire detector installed in a ceiling or a wall of a room, depending on the material and the bonding type. After that, since it is fundamentally blocked from interference from external electromagnetic waves generated from various electric devices or devices, electrical malfunction due to electromagnetic interference can be prevented in advance.

Meanwhile, in the above, the shielding plate 12a is installed only in the light receiving sensor S2, but the shielding plate structure as described above may be coupled to the light emitting sensor S1.

The light blocking plate 13 is provided between the light emitting sensor fixing part 11 and the light receiving sensor fixing part 12 to block the traveling wave of the light emitting sensor S1 from being directly detected by the light receiving sensor S2. As a result, the traveling wave of the light by the light emitting sensor S1 is formed to reflect the light within the range that is not directly detected by the light receiving sensor S2.

The light emitting sensor fixing part 11 and the light receiving sensor S2 coupled to the light emitting sensor S1 are fixed to the light receiving sensor fixing part 12 and the light blocking plate 13 fixed to each other to perform the above-described functions. The light emitting sensor fixing part 11 and the light blocking plate 13 may be formed at an angle of 40 ° based on the center of the support plate 10 in consideration of light emission, light receiving, and light blocking efficiency. The light emitting sensor fixing part 11 and the light receiving sensor fixing part 12 may be configured to have an angle of 130 ° with respect to the support plate 10.

Figure 3a shows the inside (upside down state) of the cover unit 200 according to an embodiment of the present invention, Figure 3b shows a state in which the cover unit 200 and the sensor unit 100 is coupled to 3C illustrates a horizontal cross-sectional view of FIG. 3B, and illustrates the overall configuration of the cover unit 200 constituting the photoelectric fire detector.

The cover unit 200 is coupled to the upper portion of the sensor unit 100 to scatter the traveling wave of the light, and induces the flow of smoke, the cover plate 21, the reflecting plate 22 and the wall portion ( 23).

The cover plate 21 is a plate serving as a base of the cover unit 200, and an upper scattering plate 21a having a uniform protrusion is formed at the center thereof.

The upper scattering plate 21a, like the lower scattering plate 10a of the sensor unit 100, prevents diffuse reflection of traveling waves of light through the light emitting sensor S1, and may have a structure protruding linearly from the surface. When the sensor unit 100 and the cover unit 200 are coupled to each other, the sensor unit 100 may be formed to face the lower scattering plate 10a to improve scattering efficiency.

The reflecting plate 22 is provided at the lower end of the cover plate 21 to scatter the traveling wave of the light by the light emitting sensor S1, and the lower scattering plate 10a and the upper scattering plate 21a and In addition, it is possible to maximize the scattering efficiency.

The wall portion 23 is formed along the lower outer circumferential surface of the cover plate 21, and blocks light from the outside to induce smoke outside while darkening the inside of the sensor unit 100. The outer wall 23a is formed along the lower outer circumferential surface of the cover plate 21, and the first wall 23b is uniformly spaced apart by a predetermined interval inside the outer wall 23a. ) And a second wall 23c formed between the first wall 23b and between the sense unit 100 and the cover unit 200 by the walls 23a, 23b, and 23c. A sensing space is created, and the sensing space is separably separated from the outside, while the interior is darkened, and smoke is efficiently induced into the darkened sensing space by the structure of the walls 23a, 23b, and 23c. Come. Specifically, as shown in Figure 3c, the wall portion 23, the outer wall 23a is formed uniformly spaced apart a predetermined interval along the lower outer peripheral surface of the cover plate 21; A first wall (23b) having an "I" shape formed at regular intervals in the radial direction and spaced uniformly in the circumferential direction between the spaced intervals of the outer wall (23a); And a second wall body 23c having a "-" shape which faces the outer wall body 21 and is formed between the first wall body 23b.

To this end, the wall portion 23 is effective to use a material excellent in durability and heat resistance, etc., it may be configured in a color that can further improve the darkroom effect on the inside.

4A and 4B are detailed views of the insect repellent unit according to an embodiment of the present invention, and show the overall configuration of the insect repellent unit 300 constituting the photoelectric fire detector.

The insect repellent unit 300 is configured to the outside of the cover unit 200 to protect the sensor unit 100 and the cover unit 200 from the external environment, the insect screen 30 and the supporter (30a) It is configured to include.

The insect screen 30 may be formed in the shape of a band having a circular or polygonal shape so as to block external foreign substances such as dust or insects, and the elastic repulsive force to return to its original shape when heat resistance and physical external force are applied. A thin metal plate that can be easily generated may be used, and a plurality of through holes (not shown) may be formed on the outer surface by photo etching, corrosion processing, punching, precision injection, etc. It is effective to ensure that the blockage is effective and that the smoke is well ventilated.

The supporter 30a is a component that supports the screen 30 so that the screen 30 can be located on the outer surface of the cover unit 200. The screen 30 is connected to the upper side of the supporter 30a, and the lower side of the supporter 30a is connected to the substrate. It is coupled to (P) to support the insect screen 30.

In addition, the case 400 is coupled to the upper portion of the sensor unit 100, the cover unit 200 and the insect repellent unit 300 of the present invention configured as described above, according to the smoke detection signal of the sense unit 100 An alarm unit (not shown) that sounds an alarm sound and an electric supply unit (not shown) for operating the substrate P, the sense unit 100, and the like are provided.

In addition, the present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope of the technical idea of the present invention. It will be apparent to those of ordinary skill in the art.

1 is an exploded view of a photoelectric fire detector according to an embodiment of the present invention.

2A to 2C are detailed views of a sensor unit according to an embodiment of the present invention.

3A to 3C are detailed views of a cover unit according to an embodiment of the present invention.

4a and 4b is a detailed view of the insect repellent unit according to an embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

S1: Light emitting sensor S2: Light receiving sensor P: Substrate

100: sensor unit 10: support plate 10a: lower scattering plate

10b, 10b ': Fixed hook 11: Luminescence sensor fixing part 11a: Holder

12: light receiving sensor fixing part 12a: shielding plate 13: light shielding plate

200: cover unit 21: cover plate 21a: upper scattering plate

22 reflector 23 wall portion 23a outer wall

23b: first wall 23c: second wall 300: insect repellent unit

30: Insect Screen 30a: Supporter 400: Case

Claims (10)

In the photoelectric fire detector for detecting the fire by sensing the light scattering action by the smoke particles, A sensor unit which generates a traveling wave of light through a light emitting sensor and senses a fire by sensing the traveling wave of light scattered by the smoke particles through a light receiving sensor; And Is coupled to the upper portion of the sensor unit to block the external light, including a cover unit for inducing the flow of smoke, The cover unit A cover plate having a top scattering plate formed of a uniform protrusion and having a central portion; A reflection plate provided at a lower end of the cover plate to scatter traveling waves of light by the light emitting sensor; And It is formed along the lower outer peripheral surface of the cover plate, and comprises a wall portion for blocking the light from the outside to induce smoke outside while guiding the inside of the sensor unit to circulate in the sensor unit, The wall portion An outer wall uniformly spaced apart from each other along a lower outer circumferential surface of the cover plate; A first wall of “I” type spaced apart from each other by a predetermined distance radially inwardly and spaced evenly in the circumferential direction between the spaced intervals of the outer wall; And A second wall of a “-” shape, which faces the outer wall and is formed between the first walls; Photoelectric fire detectors. The method of claim 1, The photoelectric fire detector is It is configured to the outside of the cover unit further comprises a insect repellent unit for protecting the sensor unit and the cover unit from the external environment Photoelectric fire detectors. The method of claim 1, The sensor unit A support plate having a lower scattering plate formed of a uniform protrusion and having a central portion; A light emitting sensor fixing part provided at an upper end of the support plate to fix the light emitting sensor; A light receiving sensor fixing part provided at an upper end of the support plate to fix the light receiving sensor; And A light blocking plate provided between the light emitting sensor fixing part and the light receiving sensor fixing part to block a traveling wave of the light emitting sensor from being directly detected by the light receiving sensor; Photoelectric fire detectors. The method of claim 3, wherein The sensor unit The light emitting sensor further includes a pair of holders coupled to the light emitting sensor fixing portion to be firmly fixed to the light emitting sensor fixing portion. Photoelectric fire detectors. The method of claim 3, wherein The sensor unit It is coupled to the light receiving sensor, and further comprises a shielding plate for blocking external electromagnetic waves Photoelectric fire detectors. The method of claim 3, wherein The light emitting sensor fixing part and the light shielding plate are formed at an angle of 40 ° based on the center of the support plate, The light emitting sensor fixing part and the light receiving sensor fixing part may be formed at an angle of 130 ° with respect to the support plate. Photoelectric fire detectors. delete delete The method of claim 1, Sensor unit and cover unit are combined or separated by fixing hook Photoelectric fire detectors. 3. The method of claim 2, The insect repellent unit, Insect screen is configured on the outside of the cover unit; And It includes a supporter for supporting the insect screen Photoelectric fire detectors.

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