KR20200131450A - Fire detector inspection apparatus - Google Patents

Abstract

The present invention relates to a fire detector inspection apparatus and, more specifically, to a fire detector inspection apparatus capable of evaluating the performance of a fire detector by variously controlling the distance and angle. According to the present invention, the fire detector inspection apparatus includes: a base; a supporter; a transfer means; an exposure control means; and a measurement means. The supporter is mounted on the base such that a fire detector can be placed there. The transfer means includes: a linear guide mounted on the base to be rotated around the supporter while having an axial direction toward the supporter; and a fire source stand wherein a fire source to be detected by the fire detector can be mounted, and mounted on the linear guide to be slid in a longitudinal direction in order to control the distance between the fire detector and the fire source. The exposure control means controls the time during which the fire detector is exposed to the fire source. The measurement means measures a signal of the fire detector in order to evaluate the performance of the fire detector when the fire source is exposed to the fire detector. According to the present invention, the fire source stand is slid forward and backward along the linear guide, and the linear guide is rotated around the supporter by an angle control plate. Therefore, the apparatus can evaluate the performance of the fire detector by controlling the angle and distance between the fire detector and the fire source in accordance with the type of fire source to be detected by the fire detector.

Description

Fire detector inspection apparatus

The present invention relates to a fire detector inspection apparatus, and more particularly, to a fire detector inspection apparatus capable of evaluating the performance of a fire detector by variously adjusting distances and angles.

A fire detector including a fire detection sensor is a device that detects heat, smoke, flame, etc. generated during a fire and informs the outside that a fire has occurred. Fire detectors can be classified into heat detectors, smoke detectors, and flame detectors according to the measurement principle.

Fire detectors are installed in buildings such as houses, apartments, factories, thermal power plants, and aircraft hangars, and the fire detector inspection device tests whether the above fire detectors can operate normally in the event of a fire.

At this time, the performance test of the fire detector should be conducted at various distances and angles depending on the type of fire source to be tested. However, the conventional fire detector inspection device was tested by placing a fire source at a certain distance. Therefore, there was a problem that it was difficult to test the flower garden at various distances.

Registered Patent No. 10-1378035 (Registration date 2014.03.19)

The present invention is to solve the above problems. An object of the present invention is to provide a fire detector inspection device capable of variously adjusting and inspecting a distance and angle between a fire source and a fire detector.

The fire detector inspection apparatus according to the present invention includes a base, a pedestal, a transfer means, an exposure control means, and a measurement means. The pedestal is mounted on the base to mount the fire detector. The transfer means may be equipped with a linear guide mounted on the base so that the axial direction is toward the base and rotates around the base, and a fire source to be detected by the fire detector, and the distance between the fire source and the fire detector In order to adjust, a flower garden cradle mounted to the linear guide so as to be slid in the longitudinal direction is provided. The exposure control means controls the time the fire detector is exposed to the fire source. When the fire source is exposed to the fire detector, the measuring means measures a signal from the fire detector to evaluate the performance of the fire detector.

In addition, in the above fire detector inspection apparatus, it is preferable that the exposure control means includes a rotating plate and a drive motor. The rotating plate is formed with an exposed part opened on one side to expose the fire source to the fire detector and a blocking part closed on the other side to block the fire source by the fire detector, and is located between the fire source holder and the pedestal. The drive motor rotates the rotating plate so that the exposed part and the blocking part are repeatedly positioned between the fire detector and the fire source holder so as to control the time the fire detector is exposed to the fire source.

Further, in the above fire detector inspection apparatus, it is preferable that the conveying means include a screw bar and a motor. The screw bar is screwed with the Hwawon cradle, and is mounted in the axial direction of the linear guide so that the Hwawon cradle rotates so as to move linearly to slide along the axial direction of the linear guide. The motor rotates the screw bar.

In addition, in the fire detector inspection device of the above, the base is preferably a guide hole formed along a circumferential surface centered on the pedestal, and the transfer means is one side so that the linear guide can rotate around the pedestal. Is hinged to the central axis of the pedestal, and the other side is preferably further provided with an angle adjusting plate mounted on the lower portion of the pedestal so as to be coupled to the linear guide through the guide hole.

According to the present invention, the Hwawon cradle slides back and forth along the linear guide, and the linear guide is rotated by the angle adjustment plate around the pedestal. Therefore, the performance of the fire detector can be evaluated by variously adjusting the distance and angle between the fire source and the fire detector according to the type of fire source to be detected by the fire detector.

1 is a plan view of a fire detector inspection apparatus according to the present invention,
Figure 2 is a side view of the embodiment shown in Figure 1,
3 is a front view of the embodiment shown in FIG. 1.

An embodiment of a fire detector inspection apparatus according to the present invention will be described with reference to FIGS. 1 to 3.

The fire detector inspection apparatus according to the present invention includes a base 10, a pedestal 20, a transfer means 30, an exposure control means 40, and a measurement means 50.

The base 10 is equipped with a pedestal 20, a transfer means 30, and an exposure control means 40, and a guide hole 11 is formed along a circumferential surface centered on the pedestal 20.

The pedestal 20 mounts a fire detector (not shown) and is mounted on the base 10.

The transfer means 30 serves to adjust the distance and angle between the fire source (not shown) and the fire detector. To this end, the conveying means 30 includes a linear guide 31, a hwawon holder 33, a screw bar 35, a motor 37, and an angle adjusting plate 39.

The linear guide 31 is mounted on the base 10 so that the axial direction faces the pedestal 20 so as to adjust the distance of the flower garden from the flower garden detector.

The fire source holder 33 serves to mount the fire source to be detected by the fire detector, and is mounted on the screw bar 35. Here, the fire source functions to correspond to the fire source in the actual fire, and cigarette lights, fluorescent lamps, vehicle headlights, electric arcs, etc. may be used.

When the screw bar 35 is rotated, the Hwawon Holder 33 slides along the axial direction of the Linear Guide 31 and is mounted on the Linear Guide 31 so that the distance to the fire detector is adjusted, and the Hwawon Holder 33 and the screw Are combined.

The motor 37 serves to rotate the screw bar 35.

The angle adjustment plate 39 serves to rotate the linear guide 31 around the pedestal 20. To this end, the angle adjustment plate 39 is hinged to the base 10 at one side (39a) at the central axis of the pedestal 20, and the other side passes through the guide hole 11 to be coupled to the linear guide 31 It is mounted on the lower part of 20.

The exposure control means 40 serves to control the time the fire detector is exposed to the fire source. To this end, the exposure control means 40 includes a rotating plate 41 and a driving motor 45.

The rotating plate 41 is located between the pedestal 20 and the flower garden holder 33 and serves to supply or block the light emitted from the flower garden mounted on the flower garden holder 33 to the fire detector mounted on the pedestal 20 Do it. To this end, the rotating plate 41 is formed of a circular plate, and includes an exposed portion 42 that supplies light and a blocking portion 44 that blocks light. In the exposed portion 42, a part of the original plate of the rotating plate 41 is cut to pass light. The exposed portion 42 and the blocking portion 44 may be formed alternately, and may have different sizes.

The drive motor 45 serves to control the time the fire detector is exposed to the fire source. To this end, the driving motor 45 rotates the rotating plate 41 so that the exposed portion 42 and the blocking portion 44 are repeatedly positioned between the pedestal 20 and the flower garden mounting portion 33. At this time, the time that the fire source is exposed to the fire detector should be longer than the minimum time (for example, 3 ms) for the fire detector to recognize the fire and respond when a fire occurs. Therefore, the rotation speed of the rotating plate 41 is controlled so that the time during which the exposed portion 42 of the rotating plate 41 can be kept open to the fire source in front of the fire detector is 3 ms or more.

The measuring means 50 serves to measure the signal of the fire detector in order to evaluate the reaction speed of the fire detector when the fire source is exposed to the fire detector.

In the case of testing the performance of the fire detector using the fire detector inspection device of this embodiment, first, the fire detector is mounted on the pedestal 20, and the fire source to be detected by the fire detector is mounted on the fire source cradle 33. When the fire detector and the flower garden are mounted on the pedestal 20 and the flower garden holder 33, the motor 37 is driven so that the fire source holder 33 slides back and forth along the linear guide 31. Then, the fire source holder 33 slides along the linear guide 31 by the rotation of the screw bar 35 so that the distance between the fire detector and the fire source is adjusted. At this time, the distance is adjusted according to the type of flower garden to be tested. For example, the distance between a fire detector and a fire source is controlled to be 25mm for cigarette lights, 152.4mm for vehicle headlights, 25mm for electric arcs, and tests regardless of distance for fluorescent lamps. When the location of the flower garden to be tested is determined, the drive motor 45 is driven to rotate the rotating plate 41. Then, the front of the fire detector is opened during the time that the exposed portion 42 of the rotating plate 41 is positioned in front of the fire detector. The fire detector detects infrared rays generated from the fire source within this minimum time range. At this time, the angle adjustment plate 39 is rotated so that the linear guide 31 rotates around the pedestal 20. Then, the fire source holder 33 rotates along the linear guide 31 to adjust the angle between the fire detector and the fire source. Therefore, it is possible to detect infrared rays generated from the fire source at each location according to the angle between the fire detector and the fire source. When the fire detector detects infrared rays generated from the fire source, the measuring means 50 determines whether or not a fire has occurred by measuring the signal of the fire detector.

The performance test of the fire detector should be conducted at various distances and angles depending on the type of fire source to be tested. However, the conventional fire detector inspection device was tested by placing an actual fire source at a certain distance. Therefore, there was a problem that it was difficult to test the actual flower garden at various distances. On the other hand, according to the present embodiment, the flower garden holder 33 for mounting the flower garden slides back and forth along the linear guide 31 to adjust the distance between the fire detector and the flower garden, and the linear guide 31 supports the base 20 The angle between the fire detector and the flower garden is adjusted by rotating by the angle adjustment plate 39 at the center. Therefore, the performance of the fire detector can be evaluated by adjusting the distance and angle between the fire source and the fire detector according to the type of fire source to be detected by the fire detector. In addition, according to the present embodiment, the exposure control means 40 controls the time when the fire source is exposed to the fire detector, that is, the time at which the fire detector detects infrared rays generated from the fire source, and thus, the response speed for detecting the fire of the fire detector You can check. In addition, in the case of this embodiment, it is possible to check the response speed of the fire detector using an IR light source as well as an actual fire source.

10: base 11: guide ball
20: pedestal 30: transfer means
31: linear guide 33: Hwawon cradle
35: screw bar 37: motor
39: angle adjustment plate 39a: one side
40: exposure control means 41: rotating plate
42: exposed portion 44: blocking portion
45: drive motor 50: measuring means

Claims (4)

With the bass,
A pedestal mounted on the base to mount a fire detector,
A linear guide mounted on the base and a fire source to be detected by the fire detector may be mounted so that the axial direction faces the base and rotates around the base, and to adjust the distance between the fire source and the fire detector, the Transfer means having a flower garden cradle mounted to the linear guide so as to slide in the longitudinal direction,
Exposure control means capable of controlling the time the fire detector is exposed to the fire source,
And a measuring means for measuring a signal of the fire detector in order to evaluate the performance of the fire detector when the fire source is exposed to the fire detector. The method of claim 1, wherein the exposure control means
An exposed part opened on one side to expose the fire source to the fire detector and a blocking part closed on the other side to block the fire source to the fire detector, and a rotating plate positioned between the fire source holder and the base,
And a drive motor for rotating the rotating plate so that the exposure part and the blocking part are repeatedly positioned between the fire detector and the fire garden holder so as to control the time the fire detector is exposed to the fire source. Fire detector inspection device. The method of claim 2, wherein the transfer means
A screw bar that is screwed with the Hwawon cradle and mounted in the axial direction of the linear guide so that the Hwawon cradle rotates so as to move linearly so as to slide along the axial direction of the linear guide,
Fire detector inspection apparatus, characterized in that further comprising a motor for rotating the screw bar. The method of claim 3,
The base has a guide hole formed along a circumferential surface centered on the pedestal,
One side of the transfer means is hinged to the central axis of the pedestal so that the linear guide can rotate around the pedestal, and the other side passes through the guide hole and is attached to the lower part of the pedestal so as to be coupled to the linear guide. Fire detector inspection device, characterized in that it further comprises a control plate.

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