KR200417541Y1 - Air Intake Type Fire Alarms Having a Gas Sensor - Google Patents

Abstract

Provide an air-suction fire detector.

The present invention, in the smoke detector to detect the fire occurs by inhaling the smoke generated during the fire with the air, the suction unit forcibly inhaling the smoke and gas generated in the fire with the air by the suction force; A detector connected to the suction unit and having a smoke detection sensor detecting smoke particles contained in the air forcedly sucked through the suction unit, and a gas detecting sensor detecting a toxic gas contained in the air; And a display unit which displays a detection state of smoke particles and a detection state of toxic gas detected by the detection unit. Include.

According to the present invention, it is possible to increase the reliability of the fire alarm by simultaneously performing the fire detection by the toxic gas generation in addition to the fire detection by the smoke generated during the fire.

Air Suction, Fire Alarm, Gas Sensor, Smoke Sensor, Laser Beam, Light Scattering

Description

Air Intake Type Fire Alarms Having a Gas Sensor

1 is an overall configuration diagram showing an air suction type fire detector having a gas detection sensor according to the present invention.

Figure 2 is a cross-sectional view showing a detection unit of the air-suction fire detector having a gas detection sensor according to the present invention.

Explanation of symbols on the main parts of the drawings

110: suction unit 111: inhaler

112: suction pipe 115: suction fan

120: detection unit 121: smoke detection sensor

122: sensing chamber 123a: light emitting portion

123b: Receiver 123c: Beam Dump

125; Gas detection sensor 130: display unit

The present invention relates to a fire detector that detects a fire and generates an alarm. More specifically, the fire detection by a smoke generated during a fire and the fire detection by a toxic gas are simultaneously performed to increase the reliability of the fire alarm. It relates to an air suction type fire detector having a gas detection sensor.

In general, fire detectors are widely used for the purpose of preventing fire in the building and preventing human injury.

These fire detectors are classified into heat detectors for detecting heat in the event of fire, smoke detectors for detecting smoke, flame detectors for detecting flame, and the like. It detects a lamp and transmits a fire detection signal to an electrically connected receiver to generate a fire alarm sound.

In addition, fire detectors are legally installed in buildings larger than a certain scale, and are used in many home appliances such as gas ovens and gas stoves in kitchens where fires are easily generated inside buildings. Recently, karaoke rooms, PC rooms, It is used for installation in large buildings.

In addition, among the known fire detectors, an air inhalation type fire detector uses a light scattering technology that inhales smoke generated during a fire together with air and then sprays a small amount of laser beams in all directions. It is to determine whether the fire by detecting the dispersion by.

This air inhalation type fire detector is the fastest and most active equipment developed until recently and is the most ideal fire detector for protecting property and life of buildings.

However, the conventional air inhalation type fire detection always has the possibility of malfunction according to the climate and the surrounding environment, which is present in the air in the process of detecting smoke particles by light scattering technology by forcibly sucking the smoke into the detector with the outside air. Ordinary dust can be judged as smoke particles generated in the fire.

In particular, in the case of a lot of fog or yellow dust, when the dust particles in the air are sucked into the air-suction fire detector together with the air, a fire alarm may be generated even though they are not smoke particles generated by the fire. will be.

As described above, the air inhalation type fire detector can be operated by other causes than the fire. In this case, there is always a possibility of misinformation. Do.

Accordingly, it is difficult to trust the fire alarm of the conventional fire alarm, and it is difficult to directly check all the frequent malfunctions directly on the site, and to avoid an alarm even when an actual fire is detected due to such troublesomeness. It is a situation that suffers a loss of life and property due to the occurrence of a serious safety accident and the failure of the initial evolution of fire.

Therefore, the present invention has been proposed to solve the conventional problems as described above, the purpose of which is to perform the fire detection by toxic gas and fire detection by the smoke generated during the fire at the same time reliability of the fire alarm It is to provide an air-suction fire detector having a gas detection sensor that can further increase.

As a technical configuration for achieving the above object, the present invention, in the smoke detector that detects the fire by detecting the smoke generated by inhaling the smoke generated during the fire with air, which is generated during the fire with air by the suction force A suction unit for forcibly inhaling smoke and gas; A detector connected to the suction unit and having a smoke detection sensor detecting smoke particles contained in the air forcedly sucked through the suction unit, and a gas detection sensor detecting a toxic gas contained in the air; And a display unit which displays a detection state of smoke particles and a detection state of toxic gas detected by the detection unit. It provides an air suction type fire detector having a gas detection sensor comprising a.

 Preferably, the smoke sensor comprises a sensing chamber having an inlet through which the air forcedly sucked from the inlet and an outlet for discharging the air, a light emitting unit for irradiating a laser beam to the inner space of the sensing chamber; It includes a light receiving unit for detecting that the laser beam provided from the light emitting unit is scattered by the smoke particles introduced into the sensing chamber and a beam dump for absorbing the unnecessary laser beam.

More preferably, the inlet is communicatively connected to the rear end of the suction unit so as to extract some of the air forcedly sucked and discharged from the suction unit.

More preferably, the rear end of the inlet is provided with a filter for removing dust particles having a size larger than the smoke particles in the foreign matter contained in the air forcedly sucked from the suction.

Preferably, the gas sensor is a sensor for detecting any one of carbon dioxide, carbon monoxide, ammonia hydrogen cyanide, aldeide gas generated in the fire.

Hereinafter, the present invention will be described in more detail.

1 is a block diagram showing an air suction type fire detector having a gas detection sensor according to the present invention, Figure 2 is a cross-sectional view showing a detection unit of the air suction type fire detector having a gas detection sensor according to the present invention. .

The fire detector 100 of the present invention, as shown in Figures 1 and 2, by forcibly inhaling the smoke and gas generated during the fire with the air to detect the fire on the basis of this, which is the suction unit 110 ), The sensing unit 120 and the display unit 130 is configured.

The suction unit 110 includes an inhaler 111 and a suction fan 115 to forcibly suck smoke and gas generated in a fire together with air by suction force.

The inhaler 111 is provided with a plurality of suction pipes 112 for sucking air and smoke and gas included therein, and the suction fan 115 transfers suction force generated when the power is applied to the suction pipe 112. It is provided at the rear end of the suction pipe 112 to force the suction of the external air to discharge to the rear.

The detector 120 is connected to the suction unit 110 and has a smoke detection sensor 121 for detecting the smoke particles contained in the air forcedly sucked through the suction unit 110, included in the air It is configured to include a gas detection sensor 125 for detecting the toxic gas.

As shown in FIG. 2, the smoke detection sensor 121 provided in the detection unit 120 includes a detection having an internal space of a predetermined size so that the air forcedly sucked from the suction unit 110 flows in one direction. A chamber 122 is provided, and one end of the sensing chamber 122 includes an inlet 122a through which air is introduced and an outlet 122b through which fire detection is terminated.

One side of the inner space of the sensing chamber 122 includes a light emitting part 123a for irradiating a laser beam generated when power is applied in one direction.

In addition, the sensing chamber 122 detects that the laser beam provided from the light emitting unit 123a is scattered by the smoke particles included in the air introduced into the sensing chamber 122 to measure the inflow amount of the smoke particles. The light receiving part 123b is provided.

In addition, the sensing chamber 122 corresponding to the light emitting unit 123a is provided with a beam dump 123c for absorbing unnecessary laser beams.

In addition, the inlet 122b provided in the sensing chamber 122 may be in communication with a rear end of the suction unit 110 to extract only a part of the air forcedly sucked and discharged from the suction unit 110. Do.

In addition, at the rear end of the inlet 122b, foreign substances included in air forced into the sensing chamber 122 from the suction unit 110 may be filtered to remove dust particles having a size larger than that of smoke particles. It has one filter.

On the other hand, the gas detection sensor 125 provided in the detection unit 120 is mounted in the detection chamber 122 to detect the air and the gas forced into the detection chamber 122.

At least one gas detection sensor 125 provided to expose the sensing end of the front end to the inner space of the sensing chamber 122 is carbon dioxide (CO ₂ ), carbon monoxide (CO), hydrogen cyanide, which is generated by burning combustibles in a fire. It is preferable that the sensor is provided with any one of ammonia (HCN) and aldeide (-CHO) gas.

The display unit 130 displays a detection amount of the smoke particles detected by the smoke detection sensor 121 of the detection unit 120 in a numerical value or a graph, and detects the poisons detected by the gas detection sensor 125. It is electrically connected to the smoke detection sensor 121 and the gas detection sensor 125 of the detection unit 120 to display the detection amount of the gas detection state in a numerical value or a graph.

Then, the alarm is generated based on the smoke particle amount and the measured value of the toxic gas detected by the smoke detection sensor 121 and the gas detection sensor 125.

When a fire occurs in a state in which the air intake type fire detector 100 having the above-described structure is provided in a building, combustibles start to burn, toxic gas is generated together with smoke.

In this case, since the fire detector 100 continuously inhales air through the suction pipe 112 by the suction force provided by the suction fan 115 provided in the suction unit 110, the smoke generated in the fire And gas are continuously introduced into the suction part 110 together with the air.

About 80 to 90% of the outside air forcedly sucked by the suction fan 115 is discharged to the outside and only 10 to 20% is sensed through the inlet 122a provided in the detection chamber 122 of the detection unit 120. Flows into the chamber 122.

In addition, since a filter is provided at the rear end of the inlet 122a to filter the dust particles larger than the smoke particles, the detection performance of detecting the smoke particles by removing the dust particles larger than the smoke particles from the foreign matter contained in the air is improved. It can be improved.

Subsequently, the air passing through the filter passes through the inner space of the sensing chamber 122 where the laser beam generated by the light emitting unit 122a of the smoke detecting sensor 121 is radiated. The laser beam radiated therein is scattered by the smoke particles included in the air, and the scattering degree of the scattered laser beam is detected by the light receiving unit 123b provided in the sensing chamber 122.

At this time, the amount of detection of the smoke particles is calculated based on the scattering degree of the laser beam detected by the light receiving unit 123b and transmitted to the display unit 130.

In addition, as the gas detecting sensor 125 is provided in the sensing chamber 122, toxic gas is detected by the gas detecting sensor 125 in the air introduced into the sensing chamber 122, and the sensing amount is displayed. It is transmitted to the unit 130.

Accordingly, the display 130 displays the amount of detection by the smoke detection sensor 121 for detecting smoke particles and the amount of detection by the gas detection sensor 125 for detecting toxic gases, which is set in advance. The fire alarm is generated after determining whether a fire has occurred by comparing the detected amount of toxic gas with that of toxic gas.

In addition, the air in which the sensing work for the smoke particles and the toxic gas is completed in the sensing chamber 122 is discharged to the outside through the outlet 122a.

While the subject innovation has been shown and described with respect to specific embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit or scope of the subject innovation as provided by the following claims. I would like to clarify that knowledge is easy to know.

According to the present invention as described above, the smoke and gas generated by burning the combustibles in the event of a fire is forced to suction with the air, and the smoke particles contained in the air to the laser beam while passing the forcibly sucked air through the sensing chamber It is equipped with a smoke detection sensor that detects by light scattering at the same time and a gas detection sensor that detects toxic gases contained in the air, thereby reducing the amount of smoke particles detected by the smoke detection sensor and the toxic gas detected by the gas detection sensor. Since the fire can be detected and an alarm can be generated based on the measured value, the effect of increasing the reliability of the fire alarm can be obtained by excluding the malfunction caused by the fog or the yellow dust as in the prior art.

Claims (5)

 In the fire detector that detects and alarms the occurrence of fire by inhaling smoke generated during the fire with air, A suction unit forcibly inhaling smoke and gas generated in a fire together with air by suction force; A detector connected to the suction unit and having a smoke detection sensor detecting smoke particles contained in the air forcedly sucked through the suction unit, and a gas detecting sensor detecting a toxic gas contained in the air; And A display unit which displays a detection state of smoke particles and a detection state of toxic gas detected by the detection unit; Air-suction fire detector having a gas detection sensor comprising a. The method of claim 1, The smoke detection sensor may include a sensing chamber having an inlet through which air sucked in by the suction unit and an outlet through which air is discharged, a light emitting unit for irradiating a laser beam into an inner space of the sensing chamber, and the light emitting unit. And a beam dump absorbing an unnecessary laser beam and a light receiving unit for detecting that the laser beam provided from the scattered by the smoke particles introduced into the sensing chamber. The method of claim 2, And the inlet is communicatively connected to the rear end of the suction unit so as to extract some of the air discharged by forced suction from the suction unit. The method of claim 2, And a filter for removing dust particles having a size larger than that of smoke particles in the foreign matter contained in the air forcedly sucked from the suction part at the rear end of the inlet. The method of claim 1, The gas sensor is an air inhalation type fire detector having a gas sensor, characterized in that for detecting any one of carbon dioxide, carbon monoxide, ammonia hydrogen cyanide, aldeide gas generated in the fire.

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