JP2008083778A - Gas alarm - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas alarm for easily grasping a residual allowable stay time in a management region so that the concentration integration amount of a continuously exposable object gas of a person who stays in the management region does not exceed a limit of concentration integration amount about the object gas. <P>SOLUTION: A gas alarm is used so as to be carried by a person who stays in a management region which is threatened to be exposed to object gas having dangerousness or toxicity to a human body, and configured to carry out first processing for calculating the concentration integration amount of object gas concentration with a periodic time interval in each fixed time, and for calculating the current weighted mean value on the basis of a scheduled stay time in the management region and second processing for calculating the residual allowable stay time in the management region corresponding to an allowable integration amount as a difference between a limit concentration integration amount when the person is continuously exposed to the object gas, set on the basis of the scheduled stay time, and the weighted mean value on the basis of the current concentration amount, and to display the allowable stay time at a display part. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a gas alarm, and more particularly, a person staying in a management area that may be exposed to a gas having a risk or toxicity to a human body is exposed to danger caused by continuous exposure to the gas. It is related with the gas alarm which has a function which can grasp | ascertain easily whether it is in a state.

In general, for example, in underground construction sites, tunnels, other places where people enter, work areas, etc., when there is a risk that dangerous gases such as carbon monoxide gas may be contained in the air of the environment, etc. Often there is a possibility that the air is in a dangerous state or a dangerous state.
In the atmosphere of the atmosphere, for example, when the dangerous gas contained therein has a high concentration, it becomes necessary to immediately know that when it becomes dangerous to humans.

  From such a request, when the dangerous gas concentration in the air of the environmental atmosphere is monitored in real time, for example, the current concentration value of the target dangerous gas is displayed, and when it becomes dangerous to humans Various types of gas alarm devices having a configuration for generating an alarm have been proposed (see, for example, Patent Document 1).

Thus, in such a gas alarm device, the safety can be ensured by taking measures such as evacuation from the management area after receiving an alarm issued when the concentration of the target gas exceeds the set alarm point. Can be ensured.
However, for example, a worker working in the work area can grasp the state of air in the environmental atmosphere by checking the display of the current concentration value, for example, but is exposed to a high concentration of dangerous gas in a short time. There is a problem that it is not possible to easily grasp whether or not a dangerous state is caused by being exposed to a low concentration dangerous gas for a long time.

JP 2003-91787 A

  The present invention has been made based on the circumstances as described above, and the concentration accumulated amount of the target gas that can be continuously exposed by the person staying in the management area is about the target gas. An object of the present invention is to provide a gas alarm device capable of easily grasping the remaining allowable stay time in the management area so as not to exceed the limit concentration integrated amount.

The gas alarm device of the present invention is carried and used by a person staying in a management area that may be exposed to a target gas having danger or toxicity to a human body,
A first process of calculating a concentration integrated amount of the target gas concentration at periodic time intervals for each predetermined time, and obtaining a current weighted average value based on a planned stay time in the management area;
The remaining amount in the management area according to an allowable integrated amount that is a difference between a limit concentration integrated amount and a weighted average value when continuously exposed to the target gas, which is set based on the scheduled stay time. A second process of calculating the allowable stayable time based on the current density value is performed, and the allowable stayable time is displayed on the display unit.

  In the gas alarm device of the present invention, the current concentration value, peak concentration value, STEL value, and integrated concentration value are displayed on the display unit so as to be switchable.

  Further, the gas alarm device of the present invention may be configured such that an alarm is issued when it is detected that the current weighted average value obtained by the first process exceeds the limit concentration integrated amount.

  Furthermore, in the gas alarm device of the present invention, when the time interval from when the person leaves the management area until the person enters again is within the range of the planned stay time, the weighted average value of the target gas concentration at the time of exit is the initial value. It can be set as a value, and it can be set as the structure by which management of the concentration integrated quantity of object gas about the person concerned is performed continuously.

According to the gas alarm device of the present invention, it can be easily grasped by the allowable stay possible time displayed on the display section whether or not it is in a dangerous state by being continuously exposed to the target gas. In addition, it is possible to prevent continuous exposure to the target gas exceeding the limit concentration cumulative amount that can be exposed without causing physical damage, and thus high safety can be obtained. It will be extremely useful.
In addition, the integrated concentration of the target gas concentration is managed by the weighted average value calculated based on the planned stay time in the management area, so that the limit concentration in relation to the time of continuous exposure to the target gas. Since it is determined whether or not a person staying in the management area is in a dangerous state in a state where the average level with the integrated amount is matched, high reliability can be obtained.

FIG. 1 is a block diagram showing an outline of a configuration in an example of a gas alarm device of the present invention.
This gas alarm device outputs a gas detection signal corresponding to the concentration of the target gas, for example, carbon monoxide gas (CO gas), and a predetermined gas detection signal from the gas detection unit 11. A control unit 12 that performs signal processing, a display unit 16 that displays the current concentration value of the detected target gas, and an alarm when it is detected that the air condition of the environmental atmosphere in the management area is in a dangerous state The alarm part 17 which emits is provided.

  The control unit 12 measures an elapsed time since the power is first turned on and measures a time interval when performing signal processing on the measured concentration value, an alarm point and other operating conditions, and at the time of exit A storage unit 14 that stores data and the like, and a calculation unit 15 that has a function of calculating the remaining allowable stay time in the management region based on the concentration integrated amount of the target gas exposed by a person staying in the management region It has.

The display unit 16 displays a current concentration value display, a peak concentration value display, a STEL value (Short-Term Exposure Limit; a short-term exposure limit of a target gas that can be exposed without physical damage), and concentration integration Each display mode of the value display can be displayed so as to be sequentially switchable.
An example of display on the display unit 16 is shown in FIG. 2, for example, as shown in FIG. 2, the remaining battery level is displayed in the upper right part, and the concentration instruction value corresponding to each display mode is displayed in the center part, that is, (A) current density. The value, (b) peak concentration value, (c) STEL value, and (d) concentration integrated value are displayed, and the allowable stay possible time or clock is displayed at the lower left. 2A to 2D do not show the concentration instruction values at the same time point.
The allowable stayable time is displayed, for example, in units of minutes in (d) concentration integrated value display mode (180 minutes in the display example shown in FIG. 2 (d)). Here, the allowable stayable time may be configured to be displayed in each display mode.

  The alarm unit 17 includes (1) an instantaneous value alarm function that issues an alarm when the instantaneous value of the target gas concentration exceeds the alarm point, and (2) the integrated amount (STEL value) of the concentration average value for 15 minutes indicates the alarm point. A STEL value alarm function that issues an alarm when exceeding, and (3) an integrated value alarm function that issues an alarm when the weighted average value of concentration integrated values exceeds the limit concentration integrated amount. For example, when the target gas is carbon monoxide gas, the alarm point of the instantaneous value is set to, for example, 50 ppm (primary alarm point), 100 ppm (secondary alarm point), and the alarm point of the STEL value is set to 200 ppm. The

In this gas alarm device, for example, an alarm buzzer, an alarm light emitting unit, and an alarm vibration generator are provided as an alarm notification mechanism, and an alarm is generated by a buzzer sound, light emission, and vibration, respectively.
When a plurality of types of alarm notification mechanisms are provided, it is not necessary that all of them be driven all at once, and a cyclic alarm operation is performed in which each alarm notification mechanism is sequentially driven for a predetermined time. Preferably, such drive control can suppress battery consumption as compared to a case where the drives are driven all at once.

In the gas alarm device, the allowable stayable time, which is the remaining time during which a person continuously exposed to the target gas can stay in the management area, is calculated as follows.
That is, first, a concentration value (instantaneous value) corresponding to a gas detection signal obtained from the gas detection unit 11 at predetermined time intervals is calculated by the calculation unit 15, and a concentration average value (hereinafter referred to as a concentration average value (hereinafter referred to as a concentration average value)) , Referred to as “1 minute concentration average value”).
Next, with a periodic time interval at regular time intervals, for example, 30 minutes as one cycle (integration cycle), the concentration integrated value C [ppm · hrs] of the average concentration for 1 minute is averaged with the planned stay time N [hrs]. The weighted average value D [ppm] of the current target gas concentration is calculated by the following formula 1 (first process). Here, the planned stay time N can be set based on, for example, the scheduled work time for one day.

  Thereafter, the remaining allowable stay time T [hrs] in the management area according to the allowable integrated amount that is the difference between the limit concentration integrated amount E [ppm · hrs] as the management value and the weighted average value D [ppm]. Is calculated based on the current concentration value x [ppm] based on the premise that the concentration of the target gas in the current environment remains constant (second processing).

  An example of a method for calculating the allowable stayable time is as follows: when the planned stay time N is set to 8 hours and the limit concentration integrated amount E is set to 150 ppm · hrs, the current time when 5 hours have passed since entering the management area When the concentration value (instantaneous value) x is 10 [ppm] and the concentration integrated amount C of the concentration average value for 1 minute is 120 [ppm · hrs], the weighted average value D is 15 [ppm] from the above equation 1, The allowable stay allowable time T is calculated as 3 hours according to the above equation 2.

Hereinafter, the alarm operation of the gas alarm will be described.
First, for example, when a worker enters a work area that is a management area, a planned stay time, for example, a planned work time in the work area, is set, and the limit concentration integration according to the target gas type based on the planned work time The amount is set.
When the worker enters the work area, as shown in FIG. 3, the concentration of the target gas in the environmental atmosphere in the work area is measured at regular time intervals, for example, 200 msec, and the gas detection signal from the gas detection unit 11 is detected. Is output to the control unit 12.
In the control unit 12, the allowable stay allowable time calculation process described above, that is, a calculation process of a 1-minute concentration average value, a calculation process of a concentration integrated value for each integration cycle, and a calculation process of a weighted average value of the target gas concentration are performed.
Next, a determination process (A) is performed for comparing the obtained current weighted average value D with the limit concentration integrated amount E. If the current weighted average value D is smaller than the limit concentration integrated amount E, the current concentration A calculation process of the allowable stay allowable time based on the value is performed, and the result is displayed on the display unit 16. On the other hand, when the current weighted average value D exceeds the limit concentration integrated amount E, an integrated value alarm is issued by the alarm unit 17.
The allowable stayable time calculation process as described above is repeatedly performed in a predetermined integration cycle, and the allowable stayable time obtained thereby is updated and displayed on the display unit 16.

  In the above gas alarm device, not only the integrated value alarm but also an instantaneous value alarm is issued when it is detected that the target gas concentration (instantaneous value) exceeds the alarm point, or the STEL value indicates the alarm point. A STEL value alarm is issued when it is detected that the limit has been exceeded, whereby the worker can quickly take measures such as leaving the work area, and high safety can be obtained.

  In the above gas alarm operation, it is assumed that the worker is continuously exposed to the target gas in the work area, but in the following, after the worker has temporarily left the work area, The gas alarm operation when re-entering the work area will be described.

The gas alarm operation is performed during the time when the worker first enters the work area and works in the work area.
For example, when the worker temporarily leaves the work area within the scheduled work time, the storage unit 14 stores data such as the weighted average value of the target gas concentration at the time of leaving the worker and the leaving time. To be recorded.

Thereafter, when the worker re-enters the work area, as shown in FIG. 4, a determination process for comparing the time (blank time B) until the re-entry after leaving and the scheduled work time N is compared. (B) is performed, and when the blank time B is within the scheduled work time N, it is determined that the target gas is substantially continuously exposed, and the weighted average value D0 and the limit concentration at the time of exit are determined. When the determination process (c) for comparing the integrated amount E is performed and the weighted average value D0 at the time of exit is smaller than the limit concentration integrated amount E, the weighted average value D0 is set as an initial value. When the weighted average value D0 at the time of exit exceeds the limit concentration integrated amount E, an integrated value alarm is issued by the alarm unit 17.
On the other hand, if the blank time B exceeds the scheduled work time N, the accumulated concentration of the target gas after re-entry is exposed discontinuously (the degree of adverse effects on the human body due to exposure of the target gas during the previous approach) The weighted average value D0 at the time of exit is reset and the initial value is set to zero.

  Then, for the gas detection signal from the gas detection unit 11, the allowable stay possible time calculation process (see FIG. 3), that is, the calculation process of the concentration average value for 1 minute, the calculation process of the concentration integrated value for each integration cycle, and After the calculation process of the weighted average value is performed, a determination process for comparing the obtained weighted average value and the limit concentration integrated amount is performed. When the weighted average value is smaller than the limit concentration integrated amount, the allowable stayable time calculation process based on the current concentration value is performed, the result is displayed on the display unit 16, and the allowable stayable time calculation process is performed according to a predetermined integrated value. Repeated in cycle. On the other hand, when the weighted average value exceeds the limit concentration integrated amount, an integrated value alarm is issued by the alarm unit 17.

Thus, according to the gas alarm device, it can be easily grasped from the allowable staying time displayed on the display unit 16 whether or not it is in a dangerous state due to continuous exposure to the target gas. Therefore, it is possible to prevent continuous exposure to the target gas exceeding the limit concentration cumulative amount that can be exposed without causing physical damage. It is obtained and extremely useful.
Furthermore, the concentration concentration of the target gas concentration is managed by the weighted average value calculated based on the scheduled work time in the work area, so that the limit concentration in relation to the time of continuous exposure to the target gas. Since it is determined whether or not the worker working in the work area is in a dangerous state in a state where the average level with the integrated amount is matched, high reliability can be obtained.

As mentioned above, although embodiment of this invention was described, this invention is not limited to the said embodiment, A various change can be added.
For example, the planned stay time, the time interval for calculating the average value of the measured concentration values, and the integration cycle can be set as appropriate according to the purpose. It is preferable to set the time interval for calculating the average value of 5 seconds to 2 minutes and the integration cycle to 0.2 seconds to 60 minutes.
The type of the target gas is not particularly limited, and may be a general toxic gas such as hydrogen sulfide gas.

It is a block diagram which shows the outline of a structure in an example of the gas alarm device of this invention. It is explanatory drawing which shows the example of a display of the display part in the gas alarm device of this invention. It is a flowchart for demonstrating alarm operation | movement of the gas alarm device of this invention. It is a flowchart for demonstrating the setting method of the initial value of a weighted average value when leaving temporarily from a management area | region.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Gas detection part 12 Control part 13 Timekeeping part 14 Memory | storage part 15 Calculation part 16 Display part 17 Alarm part

Claims (4)

A gas alarm that is carried and used by a person staying in a controlled area that may be exposed to a target gas that is dangerous or toxic to the human body,
A first process of calculating a concentration integrated amount of the target gas concentration at periodic time intervals for each predetermined time, and obtaining a current weighted average value based on a planned stay time in the management area;
The remaining in the management area according to an allowable integrated amount that is a difference between a weighted average value and a limit concentration integrated amount that is set based on the scheduled stay time when continuously exposed to the target gas And a second process for calculating the allowable stayable time based on the current concentration value, and the allowable stayable time is displayed on the display unit.   2. The gas alarm device according to claim 1, wherein a current concentration value, a peak concentration value, a STEL value, and a concentration integrated value are displayed on the display unit in a switchable manner.   3. The gas alarm according to claim 1, wherein an alarm is issued when it is detected that a current weighted average value obtained by the first processing exceeds a limit concentration integrated amount. 4.   When the time interval from the time when the person leaves the management area to the time when the person enters again is within the planned stay time, the weighted average value of the target gas concentration at the time of leaving is set as the initial value, The gas alarm device according to any one of claims 1 to 3, wherein the concentration integrated amount of the target gas is continuously managed.