KR100676129B1 - Testing apparatus for fire warning - Google Patents

Abstract

A fire detector checking device is provided to check the performance and defect of a fire detector without using a ladder by installing a device for injecting smoke or setting operation temperature conditions of the fire detector, on the front end of a multiple-stage foldable pipe. A fire detector checking device(100) is composed of a support pipe(160) fixed and connected to the tip of an insulating cover(110) and inserted with a power line(122) supplying operating power to a heater(120); a foldable pipe(170) connected to the support pipe and extended or contracted; a power socket(180) disposed at the lower end of the foldable pipe and connected to an external commercial power source; an operating unit(190) installed at the lower side of the foldable pipe to control the operation of the heater; a burned material support plate(125) formed at the upper part of the heater adjacent to an opening of the insulating cover to prevent the inflow of foreign materials; a suction pipe(145) disposed at the outside of the insulating cover and connected to the inside of the insulating cover; a suction fan(140) sucking in the inner smoke of the insulating cover through the suction pipe; and a discharge pipe(150) discharging the sucked smoke to the outside. The fire detector checking device is engaged with the support pipe in an uneven form to adjust the inclination angle of the foldable pipe and rotated about a fixing bolt(165) to easily regulate the angle of the opening of the insulating cover.

Description

Fire Detector Inspection Device {TESTING APPARATUS FOR FIRE WARNING}

1 is a perspective view of a fire detector inspection apparatus according to an embodiment of the present invention,

Figure 2 is a cross-sectional configuration of the main part of the fire detector inspection apparatus according to an embodiment of the present invention,

3 and 4 is a general fire detector.

<Description of Symbols for Main Parts of Drawings>

10: fire detector 100: inspection device

110: insulation cover 120: heater

122: power supply line 125: combustion support plate

130: temperature sensor 140: suction fan

145: suction pipe 150: discharge pipe

160: support pipe 165: fixing bolt

170: folding pipe 180: power socket

190: operation unit 192: operation switch

194: display unit 196: temperature control unit

The present invention relates to a fire detector inspection apparatus, and more particularly, it is possible to easily check the performance and failure of the fire detector mounted on the ceiling, etc. to reliably alarm in the event of a fire to prevent human injury in advance. To a fire detector inspection system.

In general, a lot of fire detectors are used to prevent fire, and these fire detectors are mainly installed on the ceiling of a building.

The fire detector is generally divided into a heat detector and a smoke detector, and the heat detector is divided into a differential type and a constant temperature type according to an operating mechanism. Differential only works when the temperature rises sharply, while constant temperature works when the temperature reaches a certain temperature. Spot type, which is commonly used as a differential type, causes the air in the air chamber to expand as the temperature rises, displacing the diaphragm (thin metal plate), which closes the electrical contact, causing current to flow in the receiver to notify the fire. will be.

In addition, the smoke detector is largely divided into ionization type and photoelectric type. The ionization formula utilizes the property that the ion current flowing between two opposite electrodes is reduced by the adhesion of particulates contained in fire smoke. In addition, photoelectric (scattered light) electrically captures scattered light by using diffuse reflection caused by the light beam of fine particles contained in smoke.

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

However, as described above, since the fire detector mounted on the ceiling of a building is installed for a long time, there is a risk of malfunctioning in case of a substantial fire, thereby increasing lives and property damage. In addition, conventional fire detectors always have a possibility of malfunction according to the climate and the surrounding environment, which is usually present in the air in the process of detecting the smoke particles by the light scattering technology by forcibly sucking the smoke into the detector with the outside air. Dust can be judged as smoke particles generated in a fire. In addition, in a season when fog or yellow dust is generated, if 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.

Therefore, the fire detector as described above is preferably performed at regular intervals of its performance and failure.

However, the conventional fire detector has a problem that it is very inconvenient to test whether the fire detector operates normally. In other words, most of the fire detectors are installed in high places such as ceilings. To test these fire detectors, climb the ladders up high to disassemble the head of the fire detectors attached to the ceiling, and then install the circuit (detection). In order to test the fire detector, it was not only very inconvenient to climb the ladder to test the fire detector, but also there was a risk of being injured by falling from a high place. There is a problem that the test is not performed smoothly.

The present invention is to solve the above problems, an object of the present invention is to inject the operating temperature conditions or smoke of the smoke detector to the front end of the folding pipe formed in multiple stages so as to be adjacent to the fire detector installed in the ceiling or the like. It is to provide a fire detector inspection device that can be easily installed by checking the performance and failure of the fire detector installed high without using a ladder, even if the device is not dismantled.

The present invention is a fire detector inspection device for checking the performance or failure of the fire detector, in close contact with the mounting surface on which the fire detector 10 is mounted in the vertical insulating cover for accommodating the fire detector ( 110, a heater 120 mounted in a coil shape inside the insulation cover 110, a temperature sensor 130 for sensing a temperature of the heater 120, and a tip of the insulation cover 110. The support pipe 160 is fixedly connected and a power line 122 is inserted into the heater 120 to supply operating power therein, and a folding pipe connected to the support pipe 160 to extend or contract therein. 170, a power socket 180 for connecting to an external commercial power source at the lower end of the foldable pipe 170, and is mounted to the bottom of the foldable pipe 170 to control the operation of the heater 120. Comprising an operation unit 190 It characterized.

In addition, the present invention is engaged with the concave-convex (凹凸) shape to adjust the inclination of the folding pipe 170 to the support pipe 160 to rotate the fixing bolt 165 to the axis of the opening of the insulating cover 110 It is preferably configured to easily adjust the angle.

On the other hand, a combustion support plate 125 is formed on the upper portion of the heater 120 adjacent to the opening of the insulating cover 110 to prevent the entry of foreign matter, the insulating cover (110) on the outside of the insulating cover (110) A suction pipe 145 connected to the inside of the 110, a suction fan 140 for sucking the smoke inside the insulation cover 110 through the suction pipe 145, and discharges the sucked smoke to the outside Preferably, the discharge pipe 150 is configured to further include the control unit 190. The power supply unit 180 is connected to the power line 122 and the suction fan 140 connected to the heater 120. The operation switch 192 for controlling the power supplied through the temperature, the temperature controller 196 for controlling the temperature of the heater 120, and the display unit 194 for displaying the temperature detected by the temperature sensor 130 It is preferable to comprise).

Hereinafter, with reference to the accompanying drawings will be described in detail the fire detector inspection apparatus of the present invention.

1 is a perspective view of a fire detector inspection apparatus according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the main part of the fire detector inspection apparatus according to an embodiment of the present invention, Figures 3 and 4 are general fire It is a sensor.

Fire detector inspection apparatus according to a preferred embodiment of the present invention as shown in Figures 1 and 2, while being in close contact with the conventional general fire detector 10, the mounting surface on which the fire detector 10 is mounted Longitudinal insulating cover 110 for accommodating the fire detector 10, the heater 120 mounted in a coil form inside the insulating cover 110, and a temperature sensor for sensing the temperature of the heater 120 130 is fixedly connected to a peak of the insulating cover 110 formed on the opposite side of the opening of the insulating cover 110 and a power line 122 is inserted therein for supplying operating power to the heater 120. A support pipe 160, a foldable pipe 170 connected to the support pipe 160 to extend or contract, and a power socket 180 to be connected to an external commercial power source at a lower end of the foldable pipe 170. And, to control the operation of the heater 120 It is configured to include an operation section 190 which is mounted to a lower portion of the folding pipe 170.

At this time, the support pipe 160 is engaged with the concave-convex shape to adjust the inclination with the foldable pipe 170 to rotate the fixing bolt 165 about the axis to facilitate the angle of the opening of the insulating cover 110. It is desirable to adjust.

In addition, the combustion support plate 125 is preferably formed in the upper portion of the heater 120 adjacent to the opening of the insulating cover 110 to prevent the entry of foreign matter. At this time, the combustion support plate 125 is formed so as not to contact the inner side of the insulating cover 110, it is formed to prevent the heat from the heater 120 is conducted to the insulating cover 110. In addition, the combustion support plate 125 is preferably formed so that the edge portion protrudes a predetermined height toward the opening of the insulating cover 110 to prevent the combustion products to be described later into the heater 120.

The operation unit 190 is an operation switch 192 for controlling the power supplied through the power socket 180 to the power line 122 connected to the heater 120, for controlling the temperature of the heater 120 And a temperature controller 196 and a display unit 194 for displaying the temperature detected by the temperature sensor 130.

Therefore, the folding pipe 170 can be extended to closely approach the fire detector 10 mounted on the ceiling without using a ladder or the like. After the fire detector 10 is approached to the opening of the insulation cover 110 to receive the fire detector 10, the power is supplied to the heater 120 to set a temperature at which the fire detector 10 is operated to set the temperature of the fire detector 10. You can check the performance and whether there is a failure. At this time, the fire detector will be a heat detection fire detector as shown in FIG.

On the other hand, the outside of the insulating cover 110, the suction pipe 145 is connected to the inside of the insulating cover 110 and through the suction pipe 145 for sucking the smoke inside the insulating cover 110 It is preferable that the suction fan 140, and further comprises a discharge pipe 150 for discharging the sucked smoke to the outside.

That is, the smoke generated by the heater 120 is burned by the combustion product support plate 125 formed in the upper portion of the heater 120 to generate smoke, the performance of the smoke detection fire detector as shown in FIG. And check whether the failure. In other words, after confirming the performance and malfunction of the smoke detection fire detector as described above, the smoke inside the insulation cover 110 is easily discharged to the outside through the suction fan 140, and the fire detector is installed. It will prevent contamination of the room. In addition, the movement of the suction fan 140 is preferably controlled by the operation switch 192 of the operation unit 190. At this time, the combusted product is dried wormwood, if the material that generates a smoke that can operate a fire detector is suitable.

Referring to the effect of the present invention configured as described above, first to extend the folding pipe 170 to the appropriate length to check the performance and failure of the fire detector. In addition, after adjusting the angle of the support pipe 160 so that the insulating cover 110 is in close contact with the mounting surface on which the fire detector is mounted, it is fixed with a fixing bolt 165.

After that, when the fire detector to be checked is a heat detection method, the heater 120 is heated to form an operating temperature condition. When the temperature of the heater 120 is heated to an appropriate temperature through the display unit 194, the fire detector to be in close contact with the fire detector to check the performance and failure of the fire detector.

In addition, when the fire detector to be checked is a smoke detection method, the dried combustion products are seated on the combustion support plate 125 mounted on the heater 120, and the heater 120 is heated to smoke inside the insulation cover 110. The combustion product is combusted so that the fire detector is activated by the smoke. When the inspection of the fire detector is finished, by operating the suction fan 140 to discharge the smoke inside the insulation cover 110 to the outside through the suction pipe 145 and the discharge pipe 150 to prevent contamination of the room.

As described above, when the fire detector inspection apparatus 100 of the present invention is used, a plurality of fire detectors installed on the ceiling of a building can individually and quickly and easily check the performance and failure.

As described above, the present invention allows the inspector to conveniently inspect the fire detector without forcibly operating or disassembling it.

In addition, since it does not use a ladder, it can block the occurrence of a safety accident due to the fall, it is possible to effectively prevent the fire through a quick check.

Claims (4)

delete delete A fire comprising a vertical insulating cover in close contact with the mounting surface on which the fire detector is mounted to accommodate the fire detector, a heater mounted in a coil form inside the insulating cover, and a temperature sensor for sensing the temperature of the heater. In the detector inspection device, A support pipe 160 fixedly connected to a peak of the insulation cover 110 and having a power line 122 inserted therein to supply operating power to the heater 120, and connected to the support pipe 160. Foldable pipe 170 that can be extended or contracted, a power socket 180 for being connected to an external commercial power source at a lower end of the foldable pipe 170, and the foldable to control the operation of the heater 120. It is configured to include an operation unit 190 mounted to the lower portion of the pipe 170, the fixing bolt 165 is engaged with the concave-convex (凹凸) shape to adjust the inclination with the folding pipe 170 to the support pipe 160. Is rotated to the axis is configured to easily adjust the angle of the opening of the insulating cover 110, Combustion support plate 125 is formed on the upper portion of the heater 120 adjacent to the opening of the insulating cover 110 to prevent foreign substances from entering. Suction pipe 145 connected to the inside of the insulating cover 110 through the outside of the insulating cover 110, and a suction fan for sucking the smoke of the inside of the insulating cover 110 through the suction pipe 145. 140 and a fire detector check apparatus, characterized in that further comprises a discharge pipe 150 for discharging the sucked smoke to the outside. A fire comprising a vertical insulating cover in close contact with the mounting surface on which the fire detector is mounted to accommodate the fire detector, a heater mounted in a coil form inside the insulating cover, and a temperature sensor for sensing the temperature of the heater. In the detector inspection device, A support pipe 160 fixedly connected to a peak of the insulation cover 110 and having a power line 122 inserted therein to supply operating power to the heater 120, and connected to the support pipe 160. Foldable pipe 170 that can be extended or contracted, a power socket 180 for being connected to an external commercial power source at a lower end of the foldable pipe 170, and the foldable to control the operation of the heater 120. It is configured to include an operation unit 190 mounted to the lower portion of the pipe 170, the fixing bolt 165 is engaged with the concave-convex (凹凸) shape to adjust the inclination with the folding pipe 170 to the support pipe 160. Is rotated to the axis is configured to easily adjust the angle of the opening of the insulating cover 110, Combustion support plate 125 is formed on the upper portion of the heater 120 adjacent to the opening of the insulating cover 110 to prevent foreign substances from entering. Suction pipe 145 connected to the inside of the insulating cover 110 through the outside of the insulating cover 110, and a suction fan for sucking the smoke of the inside of the insulating cover 110 through the suction pipe 145. 140 and a discharge pipe 150 for discharging the sucked smoke to the outside, The operation unit 190, the operation switch 192 for controlling the power supplied through the power socket 180 to the power line 122 and the suction fan 140 connected to the heater 120, the heater And a temperature controller (196) for controlling the temperature of (120) and a display unit (194) for displaying the temperature detected by the temperature sensor (130).

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