KR100309481B1 - Checking apparatus for the fire detecter - Google Patents

Abstract

The present invention relates to a fire detector inspection mechanism for easily checking the abnormality of the heat detection and smoke detection fire detector attached to the ceiling of the building without an auxiliary means such as a ladder; A heat sensing lamp including a housing on which a heating lamp supplied with power from a portable battery and a temperature control means for controlling the temperature of the heating lamp are mounted, and an elongated support rod connected to the bottom of the housing; Provided separately from this, an insertion hole into which the injection hole of the spray for checking the smoke detector is fitted, a nozzle fixing member having a nozzle portion connected to the insertion hole, a casing for fixing the nozzle fixing member, and a detachable portion from the casing. It is configured for smoke detection including a support rod to be connected.

Description

Checking apparatus for the fire detecter

The present invention relates to a fire detector attached to the ceiling of a building, and more particularly, to a fire detector check mechanism that can easily check the presence or absence of a fire detector without an auxiliary means such as a ladder.

Various fire detectors are installed on the ceilings of various buildings for rapid suppression of fires.

A general fire detector is configured to output a signal to activate an alarm or the like when the temperature of the building in the building is maintained for a predetermined time at a predetermined temperature. In order to check the operation of the heat sensor, a method of applying heat to the detector has been adopted. Heating means used for this is a heat transfer coil or a heat lamp.

As described above, the fire detector must operate accurately at the set temperature, and the set temperature is different depending on the intended use. Fire detectors may also be equipped to operate when a certain temperature of heat is applied for a predetermined time. The conventional fire detector inspection mechanism could not accurately check whether a fire detector having the characteristics described above was abnormal. That is, the conventional fire detector inspection mechanism is a method of applying heat by a simple lamp or a heat transfer coil without a temperature control means, there was a problem that the measurement results may appear differently according to the inspector.

On the other hand, as a kind of fire detector, a smoke detector that operates an alarm or the like by detecting the occurrence of smoke and outputting a signal is used. Here, means have been provided that can create the effect of generating smoke. It is filled as a liquid in the pressure vessel and sprayed in the form of an aerosol during operation. When such testing means (hereinafter, referred to as spray) is sprayed around the smoke detector, the normal smoke detector detects this and outputs a signal. If the spray is not sprayed in a properly fixed state, the correct check is not made, and the spray is wasted. For reference, the spray will vary depending on the manufacturer's specifications, but generally need to be sprayed at a distance of less than 1M fire detectors.

The worker stepped up by using a predetermined support means such as a ladder to check whether or not the operation of the various fire detectors as described above to work on the inspection work. Such work is required to be performed periodically, and in the case of large buildings, it is necessary to lift and move ladders on each floor, which requires a great deal of manpower and time.

In particular, in order to check a fire detector installed at a height of 10 m or more, such as a parking lot, an indoor stadium, or a factory facility, it is necessary to use a special vehicle equipped with a lifter that can lift a worker. The waste of resources was even worse.

One object of the present invention for the above problem is to provide a heat generating means capable of applying heat in a state of maintaining a specific temperature, it is possible to accurately check the fire detector. To this end, the fire inspection mechanism of the present invention preferably comprises a temperature control means.

Another object of the present invention is to provide a fire detector inspection mechanism capable of easily spraying a spray having the effect of smoke spraying.

On the other hand, it is preferable that the inspection mechanism is provided with means for easily inspecting a fire detector installed at a high position without an auxiliary means.

1 is a partially exploded perspective view showing an embodiment having a heat sensing function.

FIG. 2 is a schematic cross-sectional view taken in the A-A direction of FIG. 1.

3 is a bottom view of the housing 10 according to one embodiment.

4 is a state diagram used in accordance with an embodiment.

5 is an exploded perspective view of another embodiment having a smoke detection function.

Figure 6 is a state of use of the fire detector inspection mechanism according to FIG.

7 to 8 are a perspective view and a plan view of the connector 40 described above.

9 is an operation diagram showing another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10; Housing 120; Casing

30; Support rod 40; Connector

100; Spray 230; Gas cylinder

229; Thermal jet 240; Solenoid valve

The above object is a fire sensing check mechanism having a heat sensing function including a heating housing which receives power from a portable storage battery and a control means for controlling the temperature of the heating lamp, and an elongated support rod connected to the bottom of the housing. Is achieved by. Another object of the present invention, the nozzle fixing member having an insertion hole into which the injection port of the spray for the inspection of the smoke detector is fitted, and a nozzle portion connected to the insertion hole; A casing for fixing the nozzle fixing member; It is achieved by a fire detector check mechanism of the smoke detection function including a support rod connected to the casing.

Hereinafter, with reference to the accompanying drawings in the specification will be described in more detail.

1 is a partially exploded perspective view showing an embodiment of the present invention having a heat sensing function.

The lamp 12 is engaged with the socket through the top of the housing 10. Certain reflecting means for reflecting the light of the lamp may be provided on the inner wall of the housing.

The temperature control means 13, 15, FIG. 2 or FIG. 3 are mounted on the bottom of the housing 10, and the brightness of the lamp 12 according to the signal received from the temperature sensor 14 attached to the inner wall of the housing. To control lighting.

The housing 10 and the support rod 30 are detachably connected by the coupler 20.

The coupler 20 has two elastic pieces 22 that are symmetrically movable elastically. The elastic piece 22 is formed in the top of the rectangular groove 16 formed in the bottom surface of the housing 10 is formed in the uneven portion 24 is elastically supported. The elastic force of the elastic piece 22 is generated by the characteristics of the plastic material or the structure as shown.

At the same time the elastic piece 22 is fitted into the groove 16, the pipe-shaped housing coupler is fitted to the upper end of the support rod 30 between the elastic piece 22. The support rod 30 may be a polygonal pipe whose cross section is not just circular, and may be provided in one piece or multistage by fasteners as shown.

That is, the worker inserts the uneven portion 24 into the groove 16 of the housing in a state in which both elastic pieces 22 are pinched by the lifting force. This manner facilitates the detachment of the housing 10 and the support rod 30. Coupler 20 may be provided integrally with the support rod 30, or may be provided to be detachable by a fastening means such as a through bolt and a nut.

Holding means such as rubber (not shown) for preventing slipping is preferably provided at the lower end of the support bar (30). The battery 50 supplies power to the lamp or the temperature control means, and the switch 32 is installed on the support rod to turn the power on / off.

FIG. 2 is a schematic cross-sectional view taken in the A-A direction of FIG. 1, and FIG. 3 is a bottom view showing the keypad portion 15 which is an input portion of the temperature control means provided on the bottom surface of the housing 10.

The housing 10 has a two-stage structure by screwing, as shown, may be provided in one piece. The upper end of the housing serves as a lamp shade, and the lower end contains a PCB 13 and a control keypad 15, which are temperature control means. The temperature sensor 14 is provided on the inner wall of the housing and detects the ambient temperature generated by the lamp and sends a signal to the temperature control means.

By the configuration of the keypad unit 15 as shown in FIG. 3, the present embodiment operates as follows. The operator can set the heat generation time or the heat generation temperature by using a remote controller possessed by the operator. Reference numeral 52 denotes a reception sensor of a remote control signal, and reference numeral 58 denotes a buzzer which is an output means, and sends a sound signal when the temperature or time reaches a set state. The operator may set the time in the keypad and the heat generation time and temperature directly by the temperature setting key 56. At the top of each key, light emitting means such as LEDs 56a and 58a are provided to confirm operation.

The digital display unit 54, which is an output unit of the temperature control unit, displays the set time and temperature, and is also provided with light emitting means such as the LED 54a. When the temperature and time reach the set state, the digital display unit 54 emits light or extinguishes the operator. Make it recognizable.

4 is a use state diagram according to the present embodiment.

The housing 10 is connected to the ceiling (2) of the building in the upper end in a state covering the fire detector (4). The operator works on the inspection work by setting the temperature and time to meet the rated specifications that the fire detector to be inspected must have (such as to operate when heated to a predetermined temperature for a predetermined time).

The PCB has a program for controlling the brightness of the lamp or turning on or off the lamp so that the ambient temperature of the fire detector measured by the temperature sensor 14 (see Fig. 1) can maintain the set temperature.

Hereinafter, other embodiments that can be modified from the above-described embodiment are introduced.

The housing and support rod may be connected by means other than the connector 20 shown in FIG. For example, the housing 10 and the support rod 30 may be coupled by a known hinge method so that the housing can be freely rotated at a predetermined angle while the housing is connected to the support rod. As a result, the operator can easily adhere the upper end of the housing to the ceiling. As can be seen, the top of the housing is adjacent to the ceiling, thereby causing damage to the ceiling or the housing. In this regard, the housing may be provided with a cushioning means such as a rubber plate at the top.

On the other hand, for the protection of the lamp, a lamp protector such as a frame may be provided in an integrated state with the housing on the upper part of the lamp. In addition, the housing may be provided with an auxiliary housing which can be joined by a connection method such as screwing, for checking various types of fire detectors of different sizes at the top thereof.

In addition, the heating means may be replaced by a heat transfer coil, not just a bulb type lamp.

5 is an exploded perspective view of another embodiment of the present invention with respect to a fire detector check mechanism having a smoke detection function.

The nozzle fixing member 110 of the circular body is the injection hole of the spray 100 in the middle of the bottom

It has an intake groove so that 102 can be ingested. The intake groove is in communication with the nozzle 112, so that the gas discharged from the injection port of the spray is sprayed through the nozzle. Here, the nozzle fixing member should be connected to the body of the spray to enable mutual movement. This is because, like a general spray, the material in the container is discharged only when the elastically supported nozzle is pressed.

The nozzle fixing member 110 has several supports 114 extending downward. The support 114 is in the shape of a thin rod and is fitted to the holder 122 which is a shape of an elongated groove formed in the inner wall of the casing 120. The casing 120 has a diameter and a height for accommodating the spray, and is coupled to the support rod 30 through the connector 20 (see FIG. 1). The connector and support bar have already been described, so avoid explanation again.

The concave-convex locking jaw 116 is formed along the outer circumference of the top of the nozzle fixing member, and coupled with a specific shape around the fire detector, thereby enabling the operator to easily support the nozzle fixing member. Support 114 has a diameter to the length to enable the vertical reciprocating movement in the state of being fitted to the holder 122 of the casing.

Thereby, the nozzle fixing member does not arbitrarily flow left and right in the state fitted to the casing, and does not easily fall off from the spray during use.

6 is a state diagram of use of the fire detector inspection mechanism according to FIG.

The operator closely attaches the upper part of the casing 120 to the ceiling or the fire detector so that the nozzle of the nozzle fixing member faces the direction of the smoke detector fire detector 4 'fixed to the ceiling 2' of the building. When the supporting rod is pressed upward in this state, gas is sprayed from the spray through the nozzle.

The locking jaw 116 of the nozzle fixing member having an uneven shape makes it easy to use even where the shape of the ceiling is not flat.

Here, the nozzles of the nozzle fixing member are coupled to each other so that the operator can change its spray angle according to the work piece.

Embodiment of the present invention does not exclude that the coupling method of the support 114 of the nozzle fixing member 110 and the holder 122 of the casing can be changed freely. That is, if the nozzle fixing member is a coupling method that can move only in the up and down direction in combination with the casing in the state of receiving the spray may be any, preferably, by increasing their coupling interval as in the present embodiment, It is to prevent the nozzle fixing member from swinging from side to side.

7 to 8 are a perspective view and a plan view showing the connector 40 provided at the connection portion of the multi-stage support rods 30 'and 30' in the foregoing embodiment.

The lower support rod 30 'is fitted and fixed through the lower portion of the cylindrical connector, and the upper support rod 30' is fitted through its upper end. The pressing plate 42 is moved back and forth through the side of the connector by the rotation of the rotary knob 46. That is, the pressing plate is protruded toward the center of the connector by the rotation handle to press the upper support rod, thereby holding and holding each support rod.

9 is a schematic diagram of still another embodiment of the present invention, and FIG. 10 is a schematic cross-sectional schematic diagram illustrating the operation.

In this embodiment, gas heating means is used in place of the lamp 12 (see FIG. 1) of the above embodiment. In the case of using a lamp, it is inconvenient to carry a battery at all times for power supply of the lamp. This embodiment provides a compact gas heat generator for this purpose. More preferably, control means for automatically controlling the temperature are provided. Such a small gas heat generator has a valve means and an ignition means utilizing the principle of a gas lighter which is generally provided. The valve means is provided to be able to control the opening and closing even by bimetal that is stretched in accordance with the rise in temperature.

The valve means and the ignition means can be operated remotely by means of a connecting member connected via a support.

The nozzle 228 of the gas cylinder 226 filled with a small amount of gas generally ejects gas when pulled upward. The heat generating member 220 in which thin hot wires are woven into a mesh shape is glowing by ignition of a gas. As a result, the temperature inside the body 210 is increased, and when the temperature rise exceeds a certain range, the bimetal 232 is extended.

The lever 230 is moved along with the hinge point and moves like shiiso, and the connecting string member

Ends 236 and bimetals 232 are adjacent or connected at both ends, respectively. The nozzle 228 controls the ejection of gas by the bimetal 232 which is stretched or stretched. When the heat generating member exceeds a certain temperature range, the bimetal operates the lever to block the gas. When the temperature decreases and the bimetal 232 converts the length in the opposite direction again, the lever 230 is operated in the direction of opening the nozzle again.

Here, the heat generating member 220 can maintain the glowing state for a while even without gas supplied. When the gas is ejected again here, the gas is ignited again. In this way, the fire detector inspection mechanism according to the present embodiment can maintain a constant temperature range.

The nozzle opening and closing switch 236 and the ignition switch 234 may be installed at the upper end of the housing 210 or may be installed at the side of the housing. Ignition means emitting sparks by ignition

224 may be a known manner.

The operation thereof is described in more detail with reference to FIG. 10 as follows.

The lever 230 may move individually about the same hinge axis 250, and is composed of a manual switch lever 242 and a bimetal lever 244 stacked up and down. One end of the manual switch lever 242 is lifted downward by the fixing plate and the spring 241. The bimetal lever 244 is fixed to the bottom surface of the manual switch lever 242 by a spring 246 supporting the nozzle 228. When the manual switch is turned ON, the lever 242 moves upward, and thus the bimetal lever

244 also starts upwards together to open nozzle 228. At this time, when the ignition means 224 (see FIG. 9) is operated, the ignition is blown out to the heat generating member 220 is glowing. On the other hand, the heat of the heat generating member 220 exceeds a certain range, the bimetal 232 is operated to pull the operating rod 250 upwards to move the bimetal lever 244 in the direction in which the nozzle 228 is closed. (At this time, the lever 242 for the manual switch maintains a state of being fixed upward). When the heat of the heat generating member 220 is reduced, the nozzle 228 is opened again by extending the operating rod 250 downward to eject the gas. The heat generating member 220, which was kept in a red state for a while, is automatically ignited by the gas that is ejected. In this way, the heat generating member 220 is to be able to maintain a constant temperature range.

Meanwhile, the present embodiment may be modified as follows.

That is, a solenoid valve with a magnetic switch may be used to open and close the valve of the gas. The solenoid valve shuts off or opens gas in accordance with the reference temperature measured by the temperature sensor. Control means are provided to control the ignition of the solenoid valve and the ignition device.

The heat supply by the gas can raise the temperature rapidly, so that the work can be performed faster than by the exothermic lamp of the embodiment.

With the above configuration, the fire detector inspection mechanism can apply heat to the fire detector while maintaining a specific temperature, which makes it possible to accurately and easily check the fire detectors individually installed to meet various specifications. .

Another embodiment of the present invention allows for easy spraying without wasting sprays that produce the effects of smoke spraying. In addition, since the spray is firmly fixed, it is preferable in use because it is not dropped from the fixing member during use.

On the other hand, according to the configuration of the two embodiments, the inspection mechanism can easily check the fire detectors installed in the high position without any auxiliary means.

Claims (6)

Heating means; Control means for controlling an exothermic temperature and an exothermic time; A housing accommodating the heat generating means and the control means; And a long supporting rod detachably connected to the bottom of the housing by a connecting means. The fire detector inspection mechanism according to claim 1, wherein the heat generating means is a heat generating lamp supplied with power from a portable storage battery. According to claim 1, wherein the heating means is a heat by the ignition of the gas, the small gas cylinder mounted in the housing; A heat generating member for generating heat in a glowing state by ignition of the gas ejected from the gas cylinder; It is fixed adjacent to the heat generating member, by including a bimetal to open and close the nozzle portion of the gas cylinder by changing the length by the heat of the heat generating member, to allow the heat generating member to maintain a certain range of temperature Fire detector check mechanism, characterized in that. The apparatus of claim 1, wherein the control unit comprises: an input unit for setting a specific temperature by an operator's operation; A temperature sensor for detecting a heating temperature by the heating means; And a PCB for controlling the brightness and the lighting of the heating lamp by comparing the temperature measured by the temperature sensor with the temperature set by the keypad to maintain the heating temperature. 5. The apparatus of claim 4, wherein the control means comprises: a time control function for maintaining the vicinity of the heat generating means at a specific temperature for a specific time; And a digital display unit for digitally displaying the specific temperature and the specific time. A fire detector inspection mechanism using a known spray for spraying a predetermined substance into an aerosol phase as a means for checking the operation of a smoke detector; A nozzle fixing member having an insertion hole into which the injection hole of the spray is inserted, and a nozzle portion connected to the hole through the insertion hole; A casing for holding the spray, wherein the holding means for fixing the nozzle fixing member to move in the vertical direction is formed on the side wall; Fire detector check mechanism comprising an elongated support rod that is detachably connected to the casing by a connecting means.