KR20070025005A - Apparatus for automatically extinguishing fire occurred in a base station communication system box - Google Patents

Abstract

An apparatus and method for automatically extinguishing fire within base station of communication equipments is provided to allow extinguishing fire caused by short-circuit or abnormality, and to minimize damages caused by fire. The apparatus for automatically extinguishing fire within base station of communication equipments comprises: a haron fire extinguisher(208); a solenoid valve(210); a fire extinguisher discharging pipe(204); a fire detecting part including a temperature sensor(216) and a smoke detector(200); and a haron control part(206) to control the solenoid valve(210) so as to discharge carbon dioxide from the haron fire extinguisher through the discharging outlet.

Description

Automatic fire extinguishing apparatus and method in base station communication equipment enclosure {APPARATUS FOR AUTOMATICALLY EXTINGUISHING FIRE OCCURRED IN A BASE STATION COMMUNICATION SYSTEM BOX}

1 is a plan view of a base station communication equipment housing according to an embodiment of the present invention;

Figure 2 is a longitudinal / transverse cross-sectional view of the housing implemented automatic fire extinguishing device according to an embodiment of the present invention,

Figure 3 is a flow diagram of the operation of the fire extinguishing control in the base station communication equipment enclosure is implemented automatic fire extinguishing device according to an embodiment of the present invention.

<Brief description of the major symbols in the drawings>

200: smoke detector 202: fire extinguisher outlet

204: fire extinguisher discharge tube 206: Halon control panel

208: Haron fire extinguisher 210: solenoid valve

214: heat detector 216: temperature sensor

The present invention relates to a base station equipment of a mobile communication system, and more particularly, to an automatic fire extinguishing device and method in a base station communication equipment enclosure.

As mobile communication service using wireless communication is commercialized, communication service providers are increasing their competitiveness through more diverse services.To this end, the transmission power of communication equipment is increased to expand service to a wider area and to support many subscribers in a narrow area. It is increasing.

In order to increase the transmission power of such communication equipment, communication service providers are continuously increasing the number of base station communication equipment. In recent years, there are many restrictions on the base station equipment installed in the building. Is in the trend.

However, since the base station equipments installed in the outdoor rather than the inside of the building are not equipped with a fire fighting facility in the enclosure in which the equipments are mounted as described above, when a fire occurs due to an electric short circuit or abnormal heat in the equipment, it is not possible to respond early to this. There was a problem, and after the fire, it took a lot of time for the equipment manager to arrive at the site.

Accordingly, an object of the present invention is to automatically detect the occurrence of a fire due to an electrical short circuit or an abnormal invention in an outdoor base station communication equipment of a mobile communication system and to automatically extinguish the fire by minimizing the loss caused by the fire. A fire extinguishing device and method are provided.

The present invention for achieving the above object is an automatic fire extinguishing device in a base station communication equipment enclosure, a Halon fire extinguisher is stored a certain amount of compressed carbon dioxide for blocking the fire, and to control the opening and closing of the carbon dioxide stored in the Halon fire extinguisher A fire extinguisher discharge pipe connected to the solenoid valve, the solenoid valve, and extended to a fire extinguisher discharge port installed in each space in the enclosure to carry carbon dioxide discharged from the halon fire extinguisher, and a fire detection sensor installed in each space within the enclosure. Fire detection unit that provides information on whether a fire occurs through the fire detection unit, and when the fire occurrence in the enclosure is detected by controlling the solenoid valve to control the carbon dioxide from the Halon fire extinguisher to the fire extinguisher discharge port installed in the enclosure Features a halon control panel It shall be.

In another aspect, the present invention provides a fire extinguishing method in the case of a fire in an automatic fire extinguishing device in a base station communication equipment enclosure, comprising the steps of: (a) detecting the occurrence of abnormal heat, temperature, smoke through a fire detector installed in each space within the enclosure; (b) generating a primary fire occurrence alarm when detecting any one of the abnormal heat, temperature, and smoke occurs; and (c) adding another additional portion for a predetermined time after the primary fire occurrence alarm. Checking whether fire information is detected, and (d) determining the occurrence of fire in the enclosure when the additional fire information is detected, and injecting a fire extinguishing agent into a fire extinguisher discharge port installed in each space of the enclosure. It is characterized by.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of the preferred embodiment according to the present invention.

1 is a plan view of a base station communication equipment housing equipped with an automatic Halon fire extinguisher according to an embodiment of the present invention, as shown in FIG. 1, the heat generated by the operation of the base station communication equipment at both ends of the enclosure 102. Cooler 100 is installed to prevent the.

2 is a block diagram of an automatic fire extinguishing device in a base station communication equipment housing according to an embodiment of the present invention. Hereinafter, the operation of each part of the automatic fire extinguishing device in the base station communication equipment enclosure will be described in detail with reference to FIG. 2.

First, the Halon fire extinguisher 208 stores a certain amount of compressed carbon dioxide for blocking the fire. The solenoid valve 210 controls the opening and closing of carbon dioxide which is a fire extinguishing agent stored in the halon extinguisher 208 under the control of the halon control panel 206.

The fire extinguisher discharge pipe 204 is connected to the solenoid valve 210 and extends to the fire extinguisher discharge port 204 installed in each space in the housing 102 to carry carbon dioxide discharged from the halon fire extinguisher 208.

The fire detector includes a heat detector 214 for detecting abnormal heat generation according to a fire in the enclosure, a temperature sensor 216 for detecting abnormal temperature, and a smoke detector 200 for detecting smoke generation in the enclosure 102. ), And provides information on whether a fire occurs through a fire detection sensor installed in each space in the enclosure.

The halon control panel 206 controls the solenoid valve 210 when the occurrence of a fire in the enclosure 102 is detected through each of the fire detectors 200, 214, and 216 in the fire detection unit. Is controlled to be injected into the fire extinguisher discharge port 202 installed in the enclosure.

3 is a flow diagram illustrating a control operation of a fire extinguishing operation in a case of an automatic fire extinguishing device in a base station communication equipment according to an embodiment of the present invention. Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

First, the Halon control panel 206 is a fire detector in the base station communication equipment enclosure 102 equipped with an automatic fire extinguishing device in step (S300) through the smoke detector 200, the heat detector 214, the temperature sensor 216 in the enclosure Perform fire monitoring mode to monitor the occurrence of fire.

At this time, if abnormal heat generation is detected by the heat detector in the enclosure (detected at about 75 °), the Halon control panel 206 proceeds from step S302 to step S304 and the display unit according to the detection of abnormal heat generation in the enclosure. Turn on the fire alarm, ring the fire alarm to generate a primary fire alarm and send a heat detection signal to the central control monitoring center to indicate that heat has been detected in the enclosure.

The halon control panel 206 then checks whether the secondary fire occurrence information is detected by the smoke detector 200 or the temperature sensor (detected at about 80 °) 216 within 15 seconds in step (S306). In this case, if the smoke in the enclosure is detected through the smoke detector 200 or the temperature sensor 216 or the abnormal temperature is not detected within 15 seconds after the first fire alarm occurs, the halon control panel 206 proceeds to step S308. In addition, it automatically resets the first sensed heat detection signal and sends an automatic reset signal to the central control monitoring center to indicate that there is no abnormality in the enclosure and to perform the fire monitoring mode again.

Unlike this, however, if the smoke in the enclosure is detected through the smoke detector 200 or the temperature sensor 216 or the abnormal temperature is detected within 15 seconds after the first fire alarm, the Halon control panel 206 is the step (S306) Proceed to step (S310) to notify the central control monitoring center that the fire in the base station communication equipment enclosure has occurred, and in step (S312) to turn on the fire lights and at the same time sends out the air conditioner signal to stop the operation of the air conditioner, solenoid The valve 210 is controlled to allow carbon dioxide, which is a fire extinguishing agent stored in the fire extinguisher 208, to be injected into the enclosure 102 through the extinguisher discharge port 202.

On the contrary, if the abnormal temperature is detected by the temperature sensor in the enclosure (detected at about 80 °) during the fire monitoring mode, the Halon control panel 206 proceeds from the step S314 to the step S316 to detect the abnormal temperature in the enclosure. The fire alarm lights up on the display and the fire alarm bell sounds to trigger a primary fire alarm and send a temperature detection signal to the central control monitoring center to indicate that an abnormal temperature is detected in the enclosure.

The halon control panel 206 then checks whether the secondary fire occurrence information is detected by the smoke detector 200 or the heat detector 214 within 15 seconds in step S318. In this case, if the smoke in the enclosure is detected through the smoke detector 200 or the heat detector 214 within 15 seconds after the first fire alarm is generated, or abnormal heat generation is not detected, the Halon control panel 206 is the above (S308). It proceeds to the step and automatically resets the primary sensed temperature detection signal and sends an automatic reset signal to the central control monitoring center to indicate that there is no abnormality in the enclosure and to perform the fire monitoring mode again.

On the other hand, if the smoke in the enclosure is detected through the smoke detector 200 or the heat detector 214 within 15 seconds after the first fire alarm, or abnormal heat generation is detected, the Halon control panel 206 is the (S308) In step S320, the central control monitoring center notifies that a fire has occurred in the base station communication equipment enclosure. In step S322, the fire lamp is turned on and the air conditioner signal is sent out to stop the operation of the air conditioner. The solenoid valve 210 is controlled to allow the extinguishing agent stored in the fire extinguisher 208 to be injected into the enclosure through the extinguisher discharge port 202.

In contrast, when the smoke monitoring in the enclosure is detected by the smoke detector 200 during the fire monitoring mode, the halon control panel 206 proceeds from step (S324) to (S326) in accordance with the detection of smoke in the enclosure The fire alarm lights up on the display and fires the fire alarm bell to trigger the first fire alarm and sends a smoke detection signal to the central control monitoring center to indicate that smoke has been detected in the enclosure.

The halon control panel 206 then checks whether secondary fire occurrence information is detected by the temperature sensor 216 or the heat sensor 214 within 15 seconds in step S328. In this case, if the abnormal temperature is detected in the enclosure through the temperature sensor 216 or the heat sensor 214 within 15 seconds after the first fire alarm is generated, or the abnormal heat generation is not detected, the Halon control panel 206 is the above (S308). In step), it automatically resets the first detected smoke detection signal and sends an automatic reset signal to the central control monitoring center to indicate that there is no abnormality in the enclosure and to perform the fire monitoring mode again.

On the other hand, if the abnormal temperature in the enclosure is detected through the temperature sensor 216 or the heat sensor 214 within 15 seconds after the first fire alarm is generated, or abnormal heat generation is detected, the Halon control panel 206 is the (S328) In step (S330), the central control monitoring center notifies that the fire in the base station communication equipment enclosure has occurred, and in step (S332), turns on the fire lamp and sends out a cooler signal to stop the operation of the cooler. By controlling the solenoid valve 210, the extinguishing agent stored in the fire extinguisher is injected into the enclosure through the extinguisher discharge port 202.

Therefore, as described above, in the present invention, various fire occurrence detection sensors that can detect a fire occurrence in the enclosure of the base station communication equipment are attached. By extinguishing the fire, it is possible to extinguish the fire in the enclosure at the beginning of the fire, and after the first fire alert, additional secondary fire detection information is used to accurately detect the final fire in the enclosure. And to prevent malfunction and to realize a complete protection against fire.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the invention should be determined by the claims rather than by the described embodiments.

As described above, in the present invention, various fire occurrence detection sensors for detecting a fire occurrence in the enclosure of the base station communication equipment are attached, and when the fire occurrence in the enclosure is detected by the fire occurrence monitoring sensor, the Halon extinguisher is automatically injected. By extinguishing the fire in the body, it has the advantage of extinguishing the fire in the enclosure at the early stage of the fire. Also, after the first fire alert, additional secondary fire detection information can be used to accurately detect the final fire in the enclosure. In addition, there is an advantage of preventing fire occurrence and malfunction and realizing complete protection against fire.

Claims (11)

Automatic fire extinguishing device in base station communication equipment enclosure, Halon fire extinguisher with a certain amount of compressed carbon dioxide for the prevention of fire, Solenoid valve for controlling the opening and closing of the carbon dioxide stored in the Halon fire extinguisher, A fire extinguisher discharge pipe connected to the solenoid valve and extending to a fire extinguisher discharge port installed in each space in the enclosure to carry carbon dioxide discharged from the halon fire extinguisher; A fire detection unit providing information on whether a fire has occurred through a fire detection sensor installed in each space of the enclosure; Halon control panel for controlling the solenoid valve to control the carbon dioxide from the Halon fire extinguisher to the fire extinguisher discharge port installed in the enclosure when the fire detection is detected through the fire detection unit Automatic fire extinguishing device in a base station communication equipment enclosure including a. The method of claim 1, The fire detector, A heat detector for detecting heat due to a fire in the enclosure; A temperature sensor detecting a temperature according to a fire occurring in the enclosure; Smoke detector for detecting the smoke caused by the fire in the enclosure Automatic fire extinguishing device in a base station communication equipment enclosure comprising a. The method of claim 1, The Halon control panel, When the occurrence of abnormal heat in the enclosure is detected from the fire detection unit generates a heat detection alarm, it is determined whether the occurrence of smoke or abnormal temperature for a predetermined period of time to determine whether or not the fire in the enclosure Automatic fire extinguishing system in communication equipment enclosure. The method of claim 1, The Halon control panel, When the occurrence of abnormal temperature in the enclosure is detected from the fire detection unit generates a temperature detection alarm, it is determined whether the occurrence of smoke or abnormal heat for a predetermined period of time predetermined base station characterized in that whether the fire in the enclosure Automatic fire extinguishing system in communication equipment enclosure. The method of claim 1, The Halon control panel, The base station communication characterized in that the smoke detection alarm is generated from the fire detection unit is detected, and whether or not the occurrence of abnormal temperature or heat generation for a predetermined period of time to determine whether or not the fire in the interior of the base station communication Automatic fire extinguishing system in equipment enclosure. The method of claim 2, The heat detector, the base station communication equipment automatic fire extinguishing device, characterized in that for detecting the heat generation when the heat in the enclosure is more than 75 °. The method of claim 2, The temperature sensor, the base station communication equipment automatic fire extinguishing device, characterized in that for detecting the abnormal temperature when the temperature in the enclosure becomes more than 80 °. As a fire extinguishing method in case of fire in an enclosure in an automatic fire extinguishing device in a base station communication equipment enclosure, (a) detecting the occurrence of abnormal heat, temperature and smoke through a fire detector installed in each space of the enclosure; (b) generating a primary fire occurrence alarm when detecting any one of the abnormal heat, temperature, and smoke occurs; (c) checking whether other additional fire information is detected for a predetermined time after the first fire occurrence alarm; (d) determining the occurrence of fire in the enclosure when the additional fire information is detected, and spraying the extinguishing agent to the extinguisher outlets installed in the respective spaces of the enclosure; Fire extinguishing method in the case of a fire in the enclosure in an automatic fire extinguishing device in a base station communication equipment containing a. The method of claim 8, In the step (c), when the primary fire occurrence alarm is due to abnormal heat detection, a step of inspecting whether smoke or abnormal temperature generation additionally occurs for a predetermined time period is set in the base station communication equipment. Fire extinguishing method in case of fire in enclosure. The method of claim 8, In the step (c), when the primary fire occurrence alarm is due to an abnormal temperature detection, a step of inspecting whether smoke or abnormal heat generation additionally occurs for a predetermined time period is set. Fire extinguishing method in case of fire in enclosure. The method of claim 8, In the step (c), when the primary fire occurrence alarm is due to the detection of smoke, it is a step of inspecting whether an abnormal heat or abnormal temperature generation is additionally generated for a predetermined time period. Fire extinguishing method in case of fire in enclosure.

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