JP2019021020A - Movable type smoke detection device - Google Patents

Abstract

To provide a movable type smoke detection device capable of appropriately changing smoke detection sensitivity.SOLUTION: A movable type smoke detection device 1 capable of detecting a smoke included in sucked air while being moved is characterized in comprising: one operation part 5c which is operated in both cases of changing detection sensitivity of the smoke low and changing it high; and a judging part for judging how to change the detection sensitivity in accordance with the detection sensitivity in a case where the operation part 5c is operated, and a concentration of the detected smoke.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a mobile smoke detector capable of detecting smoke contained in air sucked while moving.

  2. Description of the Related Art Conventionally, as a means for detecting a fire from its predictive stage, a suction type smoke detection device that sucks air in a protection area through a sampling pipe and detects smoke contained in the air has been used.

  The suction-type smoke detection device is generally provided as a fixed one on the ceiling, wall, under floor, etc. of the protection area, and has a sampling pipe for sucking air in the protection area. Smoke contained in the air sucked through can be detected optically (see, for example, Patent Document 1).

  This type of smoke detection device can detect smoke with higher sensitivity than non-suction smoke detectors and smoke detection devices. For example, a facility with a large number of information devices (computer room, Server rooms, Internet data centers, etc.) and air conditioners such as clean rooms are installed in facilities with constant circulating airflow. And in order to be able to catch and deal with fire from the very early predictive stage, even if it is at a stage where smoke cannot be confirmed with the naked eye, it has a sensitivity setting that can detect it is set up.

  However, the installation with such a high sensitivity setting can catch a fire from the sign stage and can deal with it quickly, but the detected smoke cannot be confirmed with the naked eye. If there is, it cannot be identified with the naked eye.

  Therefore, the patent applicant has previously proposed a mobile smoke detection device capable of specifying the smoke generation position (see, for example, Patent Document 2). This mobile smoke detection device comprises a portable suction-type smoke detection device main body and a sampling tube movably connected to the main body. While checking the smoke concentration, the smoke detection device By moving the main body and the sampling tube, it is possible to search for the generation position of smoke at a stage that cannot be confirmed with the naked eye.

  Note that the suction type smoke detection device can also be used to detect leakage of refrigerant gas in an air conditioning facility installed for cooling information equipment.

Japanese Patent No. 3648307

  By the way, the suction type smoke detection device is provided with a display unit such as a bar graph for displaying the detected smoke concentration (for example, the light extinction rate smoke concentration (% / m)) level. The smoke density level can be intuitively recognized from the display unit.

  However, since the display range of the display unit corresponds to the detection sensitivity set in advance, when searching for the smoke generation position while moving, the detected smoke density is too high even if it is far from the smoke generation position. As a result, all display parts such as bar graphs may light up, exceeding the maximum level of the display range. Conversely, the detected smoke concentration is too low, and all bar graphs, etc., may go out and fall below the minimum level of the display range, so the direction of movement approaches the smoke generation position. You may not know whether you are away or away.

  Therefore, an operation unit that changes the detection sensitivity at a position where it can be operated even during the search for the smoke generation position is provided, and detection is performed when the detected smoke concentration is too high or too low for the preset detection sensitivity. It is conceivable to change the sensitivity appropriately. However, if the operation part for changing the detection sensitivity is provided separately for the one to be lowered and the one to be raised, an erroneous operation will occur due to incorrect selection. There is a problem that it becomes easy. In addition, before selecting the operation unit, there is a problem that it may be mistaken whether the detection sensitivity should be lowered or raised, and an erroneous operation due to the misrecognition may occur.

  In view of the above circumstances, an object of the present invention is to provide a mobile smoke detection device capable of appropriately changing the smoke detection sensitivity.

  The present invention is a mobile smoke detector capable of detecting smoke contained in the air sucked while moving, and is operated both when changing the sensitivity of smoke detection to a low level and when changing the level to a high level. And a determination unit for determining how to change the detection sensitivity in accordance with the detection sensitivity when the operation unit is operated and the density of smoke detected. This is a mobile smoke detector.

  Further, in the present invention, the determination unit determines and detects that the detection sensitivity is changed to be low when the detected smoke density is equal to or higher than a predetermined density set corresponding to the detection sensitivity. The mobile smoke detection device is characterized in that when the smoke concentration is equal to or lower than a predetermined concentration set corresponding to the detection sensitivity, the detection sensitivity is determined to be changed to a higher value.

  Further, the present invention is characterized in that the determination unit determines not to change the sensitivity when the detected smoke concentration is within a predetermined concentration range set corresponding to the detection sensitivity. It is a mobile smoke detector.

  In the present invention, the smoke detection sensitivity can be changed to a low value or a high value by operating one operation unit. At this time, the determination unit can appropriately determine how to change the smoke detection sensitivity. As a result, when operating to change the smoke detection sensitivity, it is possible to prevent erroneous operation due to incorrect selection of the operation unit or misunderstanding of how to change the smoke detection sensitivity. Can do.

  Therefore, according to the present invention, it is possible to provide a mobile smoke detection device capable of appropriately changing the smoke detection sensitivity.

It is an upper surface figure of the whole apparatus in the state in which the example of embodiment of the smoke detection apparatus of this invention was shown and the sampling pipe | tube and the strap which is a holding | maintenance part were connected. It is a top view of the smoke detection apparatus main body of the state which showed the same and was accommodated in the storage case. It is explanatory drawing which showed the mode at the time of searching for the generation | occurrence | production position of smoke with the smoke detection apparatus of this invention in the computer room which is an example of protection space.

  The embodiment of the smoke detection device of the present invention is applied to a mobile smoke detection device in which the smoke detection device main body is portable with a sampling tube for sucking air and can detect smoke while moving. An example will be described with reference to FIGS. 1 to 3.

  First, the basic configuration of the entire smoke detection device 1 will be described with reference to FIG.

  As shown in FIG. 1, the smoke detection device 1 has a sampling hole 4 a for sucking air on the distal end side and a sampling tube 4 having a grip portion 4 b on the proximal end side, and a proximal end of the sampling tube 4. A suction-type smoke detector main body 5 which is connected to the side through a flexible tube 3 and detects smoke contained in the air sucked through the sampling tube 4, and a storage case 7 for storing the smoke detector main body 5. And a strap 8 for holding the storage case 7 in a state in which the smoke detection device main body 5 is stored on the operator's body. A power source (for example, a lithium ion secondary battery) is built in the smoke detector main body 5.

  The smoke detection device 1 is movable as described above, and an operator holds the storage case 7 in which the smoke detection device main body 5 and the like are stored by the strap 8 and also holds the sampling tube 4 and smoke in this state. Smoke can be detected while moving the entire detection device 1 or the sampling tube 4 itself, and thereby the smoke generation position can be searched.

  In the case of this embodiment, the sampling tube 4 has a flexible portion 4c whose tip side is movable in an arbitrary direction, and the flexible tube 3 is made of a soft resin. As a result, the sampling tube 4 can be deformed so that the tip side is directed in an arbitrary direction, or the entire sampling tube 4 can be freely moved with respect to the smoke detection device main body 5.

  Next, details of the smoke detector main body 5 will be described with reference to FIG.

  The smoke detection device main body 5 is of a suction type, and although not shown in the figure, a smoke detection unit for optically detecting smoke and air are detected via the sampling tube 4 inside the casing. And a fan for passing through the smoke detector in the unit. When the sucked air passes through the smoke detector, it detects optically if smoke is contained in the air. Is. In the smoke detection device main body 5, the smoke detection unit has a light receiving element and a light emitting element for optically detecting smoke, but is extremely expensive by using a laser as a light source of the light emitting element. It is possible to detect smoke with sensitivity.

  Further, as shown in FIG. 2, the smoke detection device main body 5 includes an operation display unit 5a in which various display units are provided on the upper surface of the housing main body. The operation display unit 5a displays various operation states of the smoke detection apparatus main body 5 by various display units. The storage case 7 is provided with a window portion 7a at a position corresponding to the operation display unit 5a. The operation display unit 5a can be operated even when the smoke detection device body 5 is stored in the storage case 7. Various display parts of the operation display part 5a can be visually recognized through the window part 7a.

  The operation display section 5a is provided with a level display section (an example of a display section) 5b that displays the concentration level of smoke detected by the smoke detection unit as one of the display sections. The level display unit 5b displays the density level in stages (lights up) with a bar graph (LED level meter) so that the operator can intuitively recognize the density level. The smoke detection range in the smoke detection unit itself has a wide range from a very low (thin) smoke density to a high (dark) smoke density, but the display of the smoke density level displayed by the level display unit 5b. The range corresponds to a detection sensitivity that can be set as appropriate. That is, the level display unit 5b displays the smoke density level in the display range corresponding to each detection sensitivity, and the higher the detection sensitivity, the smoke density level is displayed in a lower density range while the detection sensitivity is higher. The lower the level, the higher the smoke density level is displayed.

  In the case of the illustrated example, the level display unit 5b uses a bar graph having a 10-level display, and displays the smoke concentration level in 10 levels in a display range corresponding to each detection sensitivity. Specifically, for example, assuming that there are three levels of detection sensitivity “high”, “medium”, and “low”, the smoke density per bar graph when the detection sensitivity is “high” is 0.02% / m, the smoke density per bar graph when the detection sensitivity is “medium” is 0.05% / m, and the smoke density per bar graph when the detection sensitivity is “low” is 0. .2% / m, when the detection sensitivity is “high”, the bar graph displays the smoke concentration level in 10 steps with a display range of 0.02 to 0.2% / m. When “medium” is selected, the smoke density level is displayed in 10 steps in a display range of 0.05 to 0.5% / m. When the detection sensitivity is “low”, the display is 0.2 to 2.0% / m. 10 levels of smoke density level are displayed in the range. At this time, when a value exceeding the maximum value of the display range of each detection sensitivity is detected, an alarm is sounded as smoke detection.

  Although not shown, the smoke detection device main body 5 includes a control unit that controls display of a bar graph that is a level display unit 5b inside the housing. Based on the smoke concentration signal output from the smoke detection unit, the control unit controls the display of the bar graph so that the detected smoke concentration level is displayed in stages in a display range corresponding to each detection sensitivity.

  Here, the control unit controls the setting / change of the smoke density per stage of the bar graph, and controls the setting / change of the display range of the bar graph. The display range of the bar graph corresponds to the smoke detection sensitivity. In other words, the control unit sets the smoke detection sensitivity “high”, “medium”, “low” (smoke detection value), and divides this into 10 steps to set the smoke density per bar graph. Then, the display range of the bar graph is controlled. For example, in the case of the above example, the control unit sets the detection sensitivity to “high”, “medium”, and “low”, and sets the maximum values to 0.2% / m, 0.5% / m, and 2.0, respectively. Set to% / m and divide equally into 10 levels, so that smoke density per stage of each bar graph is set to 0.02% / m, 0.05% / m, 0.2% / m Then, the display range of each bar graph is controlled to 0.02 to 0.2% / m, 0.05 to 0.5% / m, and 0.2 to 2.0% / m.

  And although the smoke detection apparatus main body 5 is provided with various operation parts, when changing a detection sensitivity, as one operation part operated in both the case of changing low and the case of changing high, In the present embodiment, as shown in FIG. 2, the sensitivity adjustment that causes the operation unit to change the smoke detection sensitivity by being pressed to a position near the level display unit 5b of the operation display unit 5a on the upper surface of the housing. A switch (flat button) 5c is provided.

  Furthermore, the smoke detector main body 5 includes a determination unit that determines how to change the smoke detection sensitivity when the sensitivity adjustment switch 5c is pressed. In this embodiment, the determination unit is provided in the control unit, and the control unit determines how to change the smoke detection sensitivity when the sensitivity adjustment switch 5c is pressed. And control the change.

  In the case of this embodiment, the operation display unit 5a includes, as shown in FIG. 2, a power display unit 5d that displays power-on as various display units, an alarm display unit 5e that displays alarms in two stages, A failure display unit 5f for displaying the occurrence of the failure is also provided.

  The smoke detection device 1 includes a single sensitivity adjustment switch 5c that is operated in the same manner when the detection sensitivity is changed in the smoke detection device main body 5 both in the case of changing the detection sensitivity low and in the case of changing the detection sensitivity high. When the sensitivity adjustment switch 5c is pressed, by providing a determination unit that determines how to change the smoke detection sensitivity, when an operator feels that the detection sensitivity is to be changed, By operating one sensitivity adjustment switch 5c, the determination unit can change the smoke detection sensitivity after appropriately determining how to change the smoke detection sensitivity. As a result, when operating to change the smoke detection sensitivity, it is possible to prevent erroneous operation due to incorrect selection of the operation unit or misunderstanding of how to change the smoke detection sensitivity. Can do.

  The smoke detection device 1 will be described in more detail.

  In the smoke detection device main body 5, the determination unit detects the detection sensitivity when the detected smoke concentration is equal to or higher than a predetermined concentration set corresponding to the detection sensitivity when the sensitivity adjustment switch 5c is pressed. If the detected smoke concentration is equal to or lower than a predetermined concentration set corresponding to the detection sensitivity, it is determined to change the detection sensitivity higher.

  Specifically, for example, in the above example, the predetermined smoke density in the case where it is determined to change the detection sensitivity to be low is the eighth level in the bar graph (in the bar graph of the display range corresponding to the detection sensitivity at the time of determination). (8th stage) Set the density to be higher than the corresponding density and set the predetermined smoke density when judging to change the detection sensitivity higher. The third stage of the bar graph (display range bar graph corresponding to the detection sensitivity at the time of judgment) The density is set to be equal to or lower than the density corresponding to the third stage). That is, when the detection sensitivity is determined to be changed from “high” to “medium”, the predetermined smoke density is set to 0.16% / m or more, and the detection sensitivity is changed from “medium” to “low”. The predetermined smoke density when determining to change to low is set to 0.4% / m or higher, while the predetermined smoke when determining to change detection sensitivity from “low” to “medium”. The density is set to 0.6% / m or less, and the predetermined smoke density is set to 0.15% / m or less when it is determined to change the detection sensitivity from “medium” to “high”.

  In this case, the determination unit determines the detection sensitivity if the detection sensitivity is “high” when the sensitivity adjustment switch 5c is pressed and the detected smoke concentration is 0.16% / m or more. Judge to change to low to “medium”. Based on the determination, the control unit performs control so that the detection sensitivity is changed to “medium”. That is, the display range of the level display unit 5b is controlled to be changed to a density range of 0.05 to 0.5% / m. The determination unit sets the detection sensitivity to “medium” when the sensitivity adjustment switch 5c is pressed and the detected sensitivity is 0.4% / m or more if the detected smoke density is 0.4% / m or more. Judge to change to low. Based on the determination, the control unit controls to change the detection sensitivity to “low”. That is, the display range of the level display unit 5b is controlled to be changed to a density range of 0.2 to 2.0% / m. On the other hand, when the sensitivity adjustment switch 5c is pressed, the determination unit increases the detection sensitivity to “medium” if the detection sensitivity is “low” and the detected smoke concentration is 0.6% or less. Judge to change. Based on the determination, the control unit performs control so as to change the detection sensitivity to a high value of “medium”. That is, the display range of the level display unit 5b is controlled to be changed to a density range of 0.05 to 0.5% / m. In addition, the determination unit increases the detection sensitivity to “high” if the detection sensitivity is “medium” when the sensitivity adjustment switch 5c is pressed and the detected smoke concentration is 0.15% or less. Judge to change. The control unit performs control so as to change the detection sensitivity to “high” based on the determination. That is, the display range of the level display unit 5b is controlled to be changed to a concentration range of 0.02 to 0.2% / m.

  Further, in the smoke detection device main body 5, the determination unit determines not to change the detection sensitivity when the detected smoke concentration is within a predetermined concentration range set corresponding to the detection sensitivity. That is, it is determined so as to maintain the detection sensitivity at the time of determination.

  Specifically, for example, in the above example, the predetermined density range to be determined so as to maintain the detection sensitivity is changed from the fourth to the seventh level of the bar graph (the bar graph of the display range corresponding to the detection sensitivity at the determination time). The density range corresponding to the fourth to seventh stages) is set. That is, the density range when determining to maintain the detection sensitivity “high” is set to 0.08 to 0.14% / m, and the density range when determining to maintain the detection sensitivity “medium”. Is set to 0.2 to 0.35% / m, and the density range when determining to maintain the detection sensitivity “low” is set to 0.8 to 1.4% / m.

  In this case, when the sensitivity adjustment switch 5c is pressed, the determination unit has a detection sensitivity of “high” and the detected smoke concentration falls within a range of 0.08 to 0.14% / m. If there is, it is determined to maintain “high” which is the detection sensitivity at that time. Based on the determination, the control unit controls to maintain “high” that is the detection sensitivity at that time even if the sensitivity adjustment switch 5 c is pressed. In addition, the determination unit is configured such that when the sensitivity adjustment switch 5c is pressed, the detection sensitivity is “medium” and the detected smoke concentration is within a range of 0.2 to 0.35% / m. For example, it is determined to maintain “medium” which is the detection sensitivity at that time. Based on the determination, the control unit controls to maintain “medium” that is the detection sensitivity at that time even when the sensitivity adjustment switch 5 c is pressed. Further, the determination unit is configured such that when the sensitivity adjustment switch 5c is pressed, the detection sensitivity is “low” and the detected smoke concentration is within a range of 0.8 to 1.4% / m. For example, it is determined to maintain “low” which is the detection sensitivity at that time. Based on the determination, the control unit performs control so as to maintain “low” that is the detection sensitivity at that time even when the sensitivity adjustment switch 5 c is pressed.

  Next, an example of a specific mode when the smoke detection device 1 searches for a smoke generation position will be described with reference to FIG.

  The smoke detection device 1 is a mobile device. For example, in a protective space provided with a fixed smoke detection device, the smoke detection device 1 detects the generation of smoke after the detection of smoke generation. For example, as shown in FIG. 3, in the computer room R in which the fixed smoke detector 10 is provided, for example, a fixed type can be used. After the smoke detection device 10 detects the generation of smoke, it can be used to search for the smoke generation position. In the computer room R, there is a constantly circulating airflow by the air conditioner 13 (see arrows).

  Here, the fixed smoke detector 10 will be briefly described. As shown in FIG. 3, the fixed smoke detection device 10 includes a sampling pipe 12 that sucks air in the computer room R circulated by the air conditioner 13, and the air in the air sucked through the sampling pipe 12. A suction type smoke detector main body 11 for detecting smoke is provided, and these are provided in the computer room R as being always fixed. The device configuration of the smoke detector main body 11 can be the same as that of the smoke detector main body 5 in the mobile smoke detector 1.

  In the computer room R, when smoke is generated from a computer or the like in any one of the racks 14, the fixed smoke detector 10 first detects the smoke. If the detected smoke is in a stage that cannot be confirmed with the naked eye, it is possible to specify the smoke generation position within the protection range of the fixed smoke detector 10, but the mobile smoke detector 1. By searching for the smoke generation position using, the generation position can be specified in a narrower range.

  Specifically, when the operator searches for the smoke generation position using the mobile smoke detection device 1, as shown in FIG. 3, the operator straps the storage case 7 containing the smoke detection device body 5. 8, while holding the sampling tube 4 and detecting the smoke in that state, the smoke display device 1 and the sampling tube 4 as a whole are moved toward the higher smoke concentration level by the level display unit 5 b. Or by moving the distal end side of the sampling tube 4 where the sampling hole 4a is located by the flexible portion 4c.

  At this time, in the process of approaching the smoke generation position, the detected smoke concentration may be too high or too low for the display range of the level display unit 5b corresponding to the preset detection sensitivity. However, the operator can operate the single sensitivity adjustment switch 5c in the same manner, and the determination unit appropriately determines whether to change the smoke detection sensitivity to a low value or a high value. It is possible to prevent erroneous operation due to erroneous selection of the operation unit or misrecognition of how to change the smoke detection sensitivity when performing the change operation. Note that the detection sensitivity (preset detection sensitivity) at the start of the search in the mobile smoke detection device 1 can be “medium”, and the detection sensitivity of “medium” is that of the fixed smoke detection device 10. It can be lower than the detection sensitivity. Thereby, the smoke generation position can be specified within a narrow range.

  As mentioned above, although an example of embodiment of this invention was demonstrated, this invention is not limited to said embodiment, A various change is possible.

  For example, in the above-described embodiment, when the detection sensitivity is determined to be changed to a low level, the predetermined smoke density is set to be equal to or higher than the smoke density corresponding to the eighth stage of the bar graph, and the detection sensitivity is determined to be changed to a high level. In the above example, the predetermined smoke density is set to be equal to or lower than the smoke density corresponding to the third stage of the bar graph, but the setting may be appropriately changed. For example, the former predetermined smoke density may be higher than the smoke density corresponding to a level higher than the eighth stage (9th stage, etc.), or conversely, a level lower than the eighth stage (7th stage, etc.). It is good also as the smoke density corresponding to. The latter predetermined smoke density may be equal to or lower than the smoke density corresponding to a level lower than the third stage (second stage, etc.), or conversely, a level higher than the third stage (fourth stage, etc.). It is good also below the smoke density corresponding to. Of course, when a bar graph having a higher or lower number of stages is used, the setting may be appropriately changed accordingly.

  Further, in the above-described embodiment, the determination unit exemplifies that the determination unit also determines to maintain the detection sensitivity when the detected smoke concentration is within a predetermined concentration range set corresponding to the detection sensitivity. However, the determination may not be made. That is, when the detected smoke density is equal to or higher than the predetermined density set corresponding to the detection sensitivity, it is determined to change the detection sensitivity to a lower level, and the detected smoke density corresponds to the detection sensitivity. If the density is below the predetermined concentration set in this way, it may be determined that the detection sensitivity is changed to be high.

  Further, the smoke density to be detected is a predetermined density range for maintaining the detection sensitivity (in the above embodiment, the density range corresponding to the fourth to seventh stages of the bar graph), and the detection sensitivity is low or high. When it is in a state of going back and forth between the predetermined smoke density to be changed (between the third and fourth stages of the bar graph or between the seventh and eighth stages) Sensitivity when the density level corresponds to the maximum value (density corresponding to the seventh level of the bar graph) and the minimum value (density corresponding to the fourth level of the bar graph) of the predetermined density range for maintaining the detection sensitivity. When the adjustment switch 5c is pressed, a determination / control process may be performed in which the adjustment switch 5c is accepted and the detection sensitivity is changed to be low or high.

  The detection sensitivity may be displayed with light or sound. When displaying with light, for example, the indicator lamp (the power supply display unit 5d may be used) flashes quickly with a detection sensitivity “high”, lights up with a detection sensitivity “medium”, and flashes slowly with a detection sensitivity “low”. May be displayed. When displaying with sound, for example, it may be displayed by generating intermittent sound with short detection interval with high detection sensitivity, silence with detection sensitivity “medium”, and intermittent sound with long detection interval with low detection sensitivity. Good.

  In the above embodiment, the present invention has been described by taking a mobile smoke detection device as an example. However, a mobile fire detection device, such as a gas sensor, that detects a physical quantity based on a fire other than smoke to detect a fire. The present invention can also be applied to a mobile fire detection device (gas detection device) that utilizes the above-mentioned. Further, the present invention is not limited to fire detection, and the present invention can also be applied to a mobile abnormality detection device that detects other abnormality in the protection area.

1: Smoke detection device (movable) 3: Flexible tube 4: Sampling tube 4a: Sampling hole 4b: Grasping portion 4c: Flexible portion 5: Smoke detection device body 5a: Operation display portion 5b: Level display portion 5c: Sensitivity adjustment Switch 5d: Power supply display unit 5e: Alarm display unit 5f: Fault display unit 7: Storage case 7a: Window unit 8: Strap 10: Smoke detection device (fixed type) 11: Smoke detection device body 12: Sampling tube 13: Air conditioner 14: Rack R: Computer room

Claims (3)

In a mobile smoke detector capable of detecting smoke contained in air sucked while moving,
Corresponding to one operation part operated in both cases of changing the smoke detection sensitivity low and high, the detection sensitivity when the operation part is operated and the density of smoke detected. And a judgment unit for judging how to change the detection sensitivity.   The determination unit determines to change the detection sensitivity to be lower when the detected smoke density is equal to or higher than a predetermined density set corresponding to the detection sensitivity, and the detected smoke density is detected sensitivity. The mobile smoke detection device according to claim 1, wherein when it is equal to or less than a predetermined concentration set corresponding to the above, the detection sensitivity is determined to be changed to be high.   3. The determination unit according to claim 1, wherein the determination unit determines not to change the sensitivity when the detected smoke concentration is within a predetermined concentration range set corresponding to the detection sensitivity. The mobile smoke detector described.