JP2020165889A - Gas detector - Google Patents

Abstract

To provide a gas detector that can store an image including different information included in a plurality of images to be switched and displayed.SOLUTION: A gas detector 1 comprises: a detection section 2 for detecting gas to be detected; a display section 3 for displaying a display including information on the gas to be detected; a control section 4 for displaying the information on the gas to be detected on the display section 3 on the basis of the information detected by the detection section 2; and a storage section 5 for storing first information and second information on the gas to be detected. When a first display and a second display each including the first information and the second information are switched to the display section 3 and displayed, the control section 4 is configured to receive an instruction of creating image data, read the first information and the second information from the storage section 5, and create the image data including the first information and the second information.SELECTED DRAWING: Figure 2

Description

The present invention relates to a gas detector.

For example, the gas detector disclosed in Patent Document 1 is used to detect the gas to be detected contained in the environmental atmosphere. The gas detector of Patent Document 1 includes a display unit that displays a display including information on the detected concentration of the detection target gas.

Japanese Unexamined Patent Publication No. 2005-106521

When the user detects the gas to be detected by using a gas detector as disclosed in Patent Document 1, the user saves the display displayed on the display unit at the time when the gas to be detected is detected. It may be necessary. In such a case, the user saves the display displayed on the display unit as an image by, for example, photographing the display unit with a camera. However, when an image is saved using a camera, the light from the flash of the camera is reflected on the screen of the display unit, so it is difficult to save the image neatly to the extent that the contained information can be confirmed accurately. Furthermore, when detecting the gas to be detected in an explosive atmosphere, not only the gas detector but also the camera must have an explosion-proof structure that meets certain standards, which increases the total detection cost. It ends up.

As a method of saving the display displayed on the display unit in the gas detector, it is conceivable to use a general screenshot function and save the display at the time of detection as an image. In the gas detector of Patent Document 1, only one type of display including information on the measured concentration value is displayed, and the same display is displayed continuously. Therefore, if a general screenshot function is used, A display including information at the time of detection can be saved as an image. However, if different displays containing different information are switched and displayed, even if one of the displays is displayed or the screenshot function is activated while the display is switched, it will be displayed. Other undisplayed displays are not saved, or nothing is displayed, so the screenshot function is activated again, or it is activated many times if the timing is not correct. I need to let you. Therefore, even if the image saved after saving is viewed, the information at the time of detection cannot be recognized. Further, it is conceivable to save the displayed display by switching in the storage unit provided in the gas detector at any time, but the storage capacity of the storage unit is also limited.

The present invention has been made in view of the above problems, and when different displays including different information regarding the detection result of the detection target gas are switched and displayed, different information included in the plurality of displayed displays is switched. It is an object of the present invention to provide a gas detector capable of storing an image containing.

The gas detector of the present invention is a gas detector used to detect a detection target gas contained in an environmental atmosphere, and the gas detector has a detection unit that detects the detection target gas and the detection target gas. A display unit that displays a display including information about the detection target gas, a control unit that displays information about the detection target gas on the display unit based on the information detected by the detection unit, and a first unit regarding the detection target gas. When the storage unit for storing information and the second information is provided, and the first display and the second display including the first information and the second information, respectively, are switched to the display unit and displayed. When the control unit receives the image data creation instruction, the control unit reads the first information and the second information from the storage unit, and creates image data including the first information and the second information. It is characterized in that it is configured to do so.

Further, when the control unit receives the image data creation instruction when either the first display or the second display is displayed on the display unit, the control unit receives the image data creation instruction. The image data may be created by modifying the display displayed on the display unit with the first information read from the storage unit and the second information. preferable.

Further, when the control unit receives the image data creation instruction from either the first display or the second display during the switching process to the other display, the control unit starts preparing to display the other display. It is preferable that the other display is later modified by using the first information and the second information read from the storage unit to create the image data.

Further, it is preferable that the image data includes an image data including the first information and an image data including the second information different from the image data including the first information.

Further, it is preferable that the image data includes a single image data including both the first information and the second information.

Further, the first information is the average value of the concentration of the detection target gas within a predetermined measurement period, and the second information is the maximum value of the concentration of the detection target gas within the predetermined measurement period. It is preferable to have.

According to the present invention, when different displays including different information regarding the detection result of the detection target gas are switched and displayed, an image containing different information included in the plurality of displayed switches is stored. Can provide a gas detector capable of.

It is appearance schematic which shows the exemplary appearance of the gas detector which concerns on one Embodiment of this invention. It is a block diagram which shows the exemplary structure of the gas detector which concerns on one Embodiment of this invention. It is the schematic which shows the exemplary configuration of the detection part of the gas detector which concerns on one Embodiment of this invention. It is a figure which shows the exemplary display including the information about the detection target gas which is displayed on the display part of the gas detector which concerns on 1st Embodiment of this invention, (a) is the detection target within a predetermined measurement period A display including the average value of the gas concentration is shown, and (b) shows a display including the maximum value of the concentration of the detection target gas within a predetermined measurement period. It is a figure which shows the exemplary time passage of the process for switching the display including the information about the detection target gas and displaying it on the display part in the gas detector which concerns on 1st Embodiment of this invention. It is a figure which shows the exemplary image data created by the control part of the gas detector which concerns on 1st Embodiment of this invention. It is a figure which shows the exemplary display including the information about the detection target gas, which is displayed on the display part of the gas detector which concerns on 2nd Embodiment of this invention. It is a figure which shows the exemplary display including the information about the detection target gas, which is displayed on the display part of the gas detector which concerns on 2nd Embodiment of this invention. It is a figure which shows the exemplary image data created by the control part of the gas detector which concerns on 2nd Embodiment of this invention. It is a figure which shows the exemplary image data created by the control part of the gas detector which concerns on 2nd Embodiment of this invention.

Hereinafter, the gas detector according to the embodiment of the present invention will be described with reference to the accompanying drawings. However, the embodiment shown below is an example, and the gas detector of the present invention is not limited to the following example.

The gas detector of the present embodiment is used to detect a gas to be detected contained in an environmental atmosphere such as the atmosphere. The detection target gas is a gas to be detected in the environmental atmosphere, and is not particularly limited, and is not particularly limited, such as city gas (13A), methane gas, LPG, hydrogen, butane, carbon monoxide, acetic acid, ethanol, gasoline, etc. Gas is exemplified. Hereinafter, the gas detector of the present embodiment will be described as a gas detector with a gas type identification function capable of identifying the type of the detection target gas contained in the environmental atmosphere and measuring the concentration of the detection target gas. However, the gas detector of the present invention may be used for detecting the gas to be detected contained in the environmental atmosphere, and is not limited to the following examples.

FIG. 1 is a schematic external view showing an exemplary appearance of the gas detector 1 of the present embodiment, and FIG. 2 is a block diagram showing an exemplary configuration of the gas detector 1 of the present embodiment. In the gas detector 1, for example, as shown in FIG. 1, a gas conduit L for guiding an environmental atmosphere gas is attached in the gas detector 1, and an environment guided in the gas detector 1 by the gas conduit L. Detects the detection target gas contained in the atmospheric gas. As shown in FIG. 2, the gas detector 1 includes a detection unit 2, a display unit 3, a control unit 4, and a storage unit 5. The gas detector 1 further includes an input unit 6 for inputting an instruction to the control unit 4, and a power supply unit that supplies electric power to the detection unit 2, the display unit 3, the control unit 4, and the storage unit 5 (power supply in FIG. 1). Only switch S is shown). In the present embodiment, the gas detector 1 is configured by incorporating the detection unit 2, the display unit 3, the control unit 4, the storage unit 5, the input unit 6, and the power supply unit into one device, but each of them is independent. It may be configured as a device.

The detection unit 2 detects the detection target gas contained in the environmental atmosphere. The detection unit 2 is configured to detect the detection target gas and output an output result regarding the detection target gas. From the output result regarding the detection target gas, for example, a detection result indicating the mixing ratio of the detection target gas and a detection result indicating the amount of the detection target gas can be obtained. The detection result relating to the detection target gas may be the output result itself output from the detection unit 2, or may be a calculation result calculated from the output result. The detection result regarding the detection target gas may be calculated by the control unit 4 or may be calculated by the detection unit 2 and output as an output result. As shown in FIG. 2, the detection unit 2 is communicably connected to the control unit 4, and the output result output is sent to the control unit 4.

The detection unit 2 only needs to be able to detect the detection target gas and output an output result regarding the detection target gas, and its configuration is not particularly limited. In the present embodiment, the detection unit 2 is configured to determine the type of gas to be detected and output an output result that is a basis for calculating the concentration. FIG. 3 is a schematic view showing an exemplary configuration of the detection unit 2. As shown in FIG. 3, the detection unit 2 includes a first gas detection element 21 and a second gas detection element 22 having different detection sensitivities to the gas to be detected. The first and second gas detection elements 21 and 22 may be, for example, the same gas detection element that operates under different operating conditions, or may be different gas detection elements that operate under the same operating conditions. .. The same or different gas detection element is not particularly limited, and a known gas detection element such as a contact combustion type gas detection element can be used. The first and second gas detection elements 21 and 22 are incorporated in, for example, a known Wheatstone bridge circuit, and output a measured value measured by the circuit when the detection target gas is detected as an output result regarding the detection target gas. ..

The detection unit 2 performs a detection operation on the environmental atmosphere gas sucked by the suction pump P through the gas conduit L, and the first output result obtained by the first gas detection element 21 and the second gas. The second output result obtained by the detection element 22 is output. The output first and second output results are sent to the control unit 4, and in the control unit 4, the ratio of the first output result and the second output result indicates the mixing ratio of the detection target gas. In addition, the first output result is processed as a detection result indicating the amount of the detection target gas. Then, the type of the detection target gas is determined based on the detection result indicating the mixing ratio of the detection target gas and the detection result indicating the amount of the detection target gas, and the detection target gas is determined based on the detection result indicating the amount of the detection target gas. The concentration is calculated.

The display unit 3 displays a display including information on the gas to be detected. The information regarding the detection target gas includes information obtained from the output result regarding the detection target gas output by the detection unit 2. Examples of the information regarding the detection target gas include information regarding the concentration of the detection target gas and information regarding the type of the detection target gas. Information on the concentration of the detection target gas includes, for example, the concentration of the detection target gas measured at a specific time point, the average value of the concentration of the detection target gas within a predetermined measurement period, and the detection target gas within a predetermined measurement period. The maximum value of the concentration of is exemplified. Further, as the information regarding the type of the detection target gas, not only the type of the detection target gas but also the information that the type of the detection target gas cannot be determined is exemplified. The display including the information on the detection target gas may include at least one information on the detection target gas, may include a plurality of information on the detection target gas, and is related to the detection target gas. May contain no information. Further, the information regarding the detection target gas may be displayed in the entire area of the display unit 3 or may be displayed in a part area of the display unit 3. Further, the display including the information regarding the detection target gas may be a display that occupies the entire area of the display unit 3, or may be a display that occupies a part of the area of the display unit 3.

As shown in FIG. 2, the display unit 3 is communicably connected to the control unit 4, and the control unit 4 displays a display including information on the gas to be detected. The display unit 3 is not particularly limited as long as it can display a display including information on the gas to be detected. In the present embodiment, the display unit 3 has a concentration information display area 31 for displaying a display including information on the concentration of the detection target gas and a display including information on the type of the detection target gas, as shown in FIG. It includes a type information display area 32 to be displayed. In the concentration information display area 31, for example, as shown in FIG. 4, the average value (FIG. 4 (a)) and the maximum value (FIG. 4 (b)) of the concentration of the detection target gas are displayed. In the type information display area 32, for example, as shown in FIG. 4, any one of the types of the detection target gas (“A”, “B”, “C”, “D”) (in the illustrated example, “” "A") is displayed, and as shown in FIG. 7, the information that the type of the detection target gas cannot be determined is displayed blinking ("A", "B", "C", "D" in the illustrated example. Is displayed in all blinking displays). Further, as shown in FIG. 7, the display unit 3 blinks a display including information on the concentration of the detection target gas (for example, the average value of the concentration of the detection target gas) when the detection of the detection target gas is completed. It may be displayed, or the display regarding the determined detection target gas type (for example, the determined gas type name such as “A”) may be displayed blinking. The display unit 3 only needs to display a display including information on the gas to be detected, and displays one display area in which a display including one information is displayed and a display including three or more pieces of information. It may have three or more display areas, or may have a display area on which a display including information unrelated to the detection target gas is displayed. The display unit 3 is not particularly limited, and a known liquid crystal display or the like can be used.

The control unit 4 causes the display unit 3 to display information on the gas to be detected based on the information detected by the detection unit 2. The information detected by the detection unit 2 includes, for example, an output result regarding the detection target gas output by the detection unit 2, a detection result obtained based on the output result, and the like. Further, as the information regarding the detection target gas, for example, as described above, information regarding the concentration of the detection target gas, information regarding the type of the detection target gas, and the like are exemplified. Further, as will be described later, the control unit 4 is configured to read the information stored in the storage unit 5 and create image data including the information read from the storage unit 5 when receiving the image data creation instruction. The "image data" means image data that does not change with the passage of time, and is a concept different from that of an image that changes with the passage of time.

In the present embodiment, the control unit 4 is communicably connected to the detection unit 2, the display unit 3, the storage unit 5, and the input unit 6 as shown in FIG. The control unit 4 is communicably connected to the detection unit 2, the display unit 3, the storage unit 5, and the input unit 6 so as to have the functions described below. However, the control unit 4 only needs to be able to display information on the detection target gas on the display unit 3 and create image data including the information read from the storage unit 5, and its configuration is limited to the following description. There is no such thing. For example, some of the functions described below may be performed by a computing device provided separately from the gas detector 1. The control unit 4 can be configured by using, for example, a known central processing unit (CPU) or the like.

The control unit 4 is communicably connected to the detection unit 2, receives information detected by the detection unit 2, and generates information on the detection target gas from the information. For example, the control unit 4 outputs the ratio of the first output result and the second output result output by the detection unit 2 as a detection result indicating the mixing ratio of the detection target gas, and is output by the detection unit 2. The first output result is processed as a detection result indicating the amount of the detection target gas. Then, the control unit 4 determines the type of the detection target gas based on the detection result indicating the mixing ratio of the detection target gas and the detection result indicating the amount of the detection target gas, and based on the detection result indicating the amount of the detection target gas. Calculate the concentration of the gas to be detected. The control unit 4 can further determine that it is impossible to determine the type of the detection target gas when the detection result regarding the detection target gas does not satisfy the predetermined condition, and the detection target within the predetermined measurement period. It is also possible to calculate the average value or the maximum value of the gas concentration.

The control unit 4 is communicably connected to the display unit 3, sends information on the detection target gas to the display unit 3, and causes the display unit 3 to display information on the detection target gas. For example, as shown in FIG. 1, the control unit 4 causes the concentration information display area 31 of the display unit 3 to display information regarding the concentration of the detection target gas, and the type information display area 32 of the display unit 3 displays the detection target. Display information about the type of gas.

The control unit 4 is communicably connected to the storage unit 5, stores information about the display displayed on the display unit 3 in the storage unit 5, and stores the information on the display unit 3 and stores the information on the display unit 3. Read information about. Examples of the display-related information displayed on the display unit 3 include information on the detection target gas and the display itself including information on the detection target gas. For example, the control unit 4 stores information on the type and concentration of the detection target gas in the storage unit 5, and reads the information on the type and concentration of the detection target gas stored in the storage unit 5. The control unit 4 can further store a display (data indicating the display content) including information on the detection target gas in the storage unit 5, and read the display including the information on the detection target gas stored in the storage unit 5.

The control unit 4 is communicably connected to the input unit 6, receives an instruction from the input unit 6, and executes an operation corresponding to the received instruction. For example, as described above and described in detail below, when the control unit 4 receives an image data creation instruction from the input unit 6, the control unit 4 reads information on the detection target gas from the storage unit 5, and an image including information on the detection target gas. Create data.

The storage unit 5 stores information related to the display displayed on the display unit 3. Examples of the display-related information displayed on the display unit 3 include the above-mentioned information on the detection target gas, a display including information on the detection target gas (data indicating the display content), and information on the blinking display. Further, the storage unit 5 may optionally be configured to store image data created by the control unit 4 and a program capable of executing the functions of the control unit 4 described in the present specification. The storage unit 5 is not particularly limited as long as it can store at least information about the display displayed on the display unit 3, and is not particularly limited, and is a known volatile memory such as a RAM, or a known non-volatile memory such as a hard disk or a flash memory. It can be configured by sex memory. For example, the volatile memory can store information about the display displayed on the display unit 3, and the non-volatile memory can store image data and programs created by the control unit 4.

The input unit 6 inputs an instruction to the control unit 4. The input unit 6 is communicably connected to the control unit 4 and is configured to send the input instruction to the control unit 4. The instruction to the control unit 4 includes an image data creation instruction and the like. The input unit 6 can be configured by known input means such as a button, a keyboard, and a mouse. In the present embodiment, the input unit 6 includes an image data creation button 6a, a menu call button 6b, a confirmation button 6c, and a menu selection button 6d, as shown in FIG. The instruction to the control unit 4 may be sent from a device other than the gas detector 1, such as a mobile communication device.

Next, a further detailed configuration of the gas detector 1 will be described by taking two embodiments as examples. The following two embodiments can be implemented individually or in combination with each other. However, the gas detector of the present invention is not limited to the following embodiments.

<First Embodiment>
As described above, the control unit 4 of the gas detector 1 causes the display unit 3 to display information on the gas to be detected. FIG. 4 is a diagram showing an exemplary display including information on the detection target gas displayed on the display unit 3. In the display unit 3, as shown in FIG. 4, a first display D1 (FIG. 4A) including the first information regarding the detection target gas and a second display D1 (FIG. 4A) including the second information regarding the detection target gas are included. The display D2 (FIG. 4B) is switched and displayed separately. By switching the first and second displays D1 and D2 to each other and displaying them, the first and second information can be continuously confirmed. The switching of the first and second displays D1 and D2 may be continuously performed by the control unit 4, or may be performed intermittently for each instruction received from the input unit 6. The first display D1 and the second display D2 mean the display contents themselves displayed on the display unit 3, for example, the display contents themselves such as characters, numbers, and symbols displayed on the liquid crystal display. ..

The first and second information are not particularly limited as long as they are information on the gas to be detected, and may be the same information or different information from each other. When the first and second information are different from each other, it is preferable that the first and second information are related to each other. By switching and displaying information related to each other, it is easy to compare related information. Information related to each other is, for example, different information obtained based on the same detection result of the detection target gas obtained in the same measurement period, or different information obtained based on different detection results of the detection target gas obtained in the same measurement period. It contains different information obtained based on the detection result of the detection target gas obtained under common conditions. In the illustrated example, the first information is the average value of the concentration of the detection target gas within the predetermined measurement period, and the second information is the maximum value of the concentration of the detection target gas within the predetermined measurement period. is there. The predetermined measurement period is appropriately set between the time when the power of the gas detector 1 is turned on and the time of the latest measurement. For example, the detection result of the detection unit 2 after the power of the gas detector 1 is turned on. It can be from the time when is stable to the latest measurement time. In the present embodiment, the first and second information are displayed in the density information display area 31 in the first and second displays D1 and D2, which are switched and displayed, respectively. Further, in the illustrated example, the same third information (information that the type of detected gas to be detected is "A") is displayed in the type information display area 32 in the first and second displays D1 and D2. Is displayed.

FIG. 5 is a diagram showing an exemplary time lapse of a process for switching the display including information on the detection target gas and displaying it on the display unit 3. As shown in FIG. 5, the control unit 4 displays the first display D1 on the display unit 3 for a predetermined display period, and then performs a display switching process to determine the second display D2. Is displayed on the display unit 3 over the display period of. If the first and second information are not updated during the predetermined display period during which the second display D2 is displayed, the control unit 4 further performs display switching processing to display the first display D1. The display unit 3 is displayed for a predetermined display period. In this way, the control unit 4 alternately switches between the first display D1 and the second display D2 until the first and second information is updated, and causes the display unit 3 to display the first display D1 and the second display D2. During this time, the first information and the second information regarding the detection target gas are stored in the storage unit 5. The first and second information is updated, for example, when the control unit 4 receives new information detected by the detection unit 2. When the control unit 4 receives the new information detected by the detection unit 2, the control unit 4 updates the first and second information stored in the storage unit 5 with new information, and new information regarding the detection target gas. The display is switched to include and displayed on the display unit 3.

In the present embodiment, the control unit 4 uses the second information read from the storage unit 5 in the switching process from the first display D1 to the second display D2 shown in FIG. 5, and the first display A second display D2 is created by modifying D1. When the first display D1 is modified and the second display D2 is created, the second display D2 is stored in the storage unit 5 in place of the first display D1. After the second display D2 is stored in the storage unit 5 and the switching process is completed, the display preparation of the second display D2 is started, and after the display preparation is completed, the second display D2 is displayed on the display unit 3. To. In the switching process from the second display D2 to the first display D1, the reverse process of the above process is performed. By using the previously displayed display as the correction source data in order to create the display to be displayed later, it is not necessary to store another display such as the default display as the correction source data in the storage unit 5. Therefore, the storage capacity of the storage unit 5 can be reduced. However, the display switching process is not limited to the present embodiment, and a predetermined default display may be used, and both the first and second displays D1 and D2 are stored in the storage unit 5. You may.

As described above, the control unit 4 creates image data when the first display D1 and the second display D2 including the first information and the second information are switched to the display unit 3 and displayed. Upon receiving the instruction, the storage unit 5 is configured to read the first information and the second information and create image data including the first information and the second information. That is, when only one of the first and second displays D1 and D2 is displayed on the display unit 3, nothing is displayed while the first and second displays D1 and D2 are switched. Even if it does not exist, by issuing an image data creation instruction to the control unit 4, it is possible to acquire image data including information that is not displayed at the time of issuing the image data creation instruction. The created image data can be stored in a storage unit 5 inside the gas detector 1 or a storage device outside the gas detector 1, and the information included in the image data can be confirmed later.

The method of creating the image data is not particularly limited, and can be appropriately changed according to the timing of receiving the image data creation instruction. For example, if the control unit 4 receives an image data creation instruction when either the first display D1 or the second display D2 is displayed on the display unit 3, the control unit 4 displays the image data when the image data creation instruction is received. The display (display content) displayed in unit 3 is read from the storage unit 5, and the display content displayed in the display unit 3 is modified by using the first information and the second information read from the storage unit 5. This may be configured to create image data. By using the display displayed at the time of receiving the image data creation instruction as the correction source data, it is not necessary to store another display such as the default display as the correction source data in the storage unit 5, so that the data is stored. The storage capacity of unit 5 can be reduced. In the case of "when either the first display D1 or the second display D2 is displayed on the display unit 3" described above, either the first or second display D1 or D2 is displayed on the display unit 3. Not only the display period actually displayed on the screen, but also from the start of display preparation immediately after any of the first and second displays D1 and D2 is created and stored in the storage unit 5 until the actual display is performed. The display preparation period of is also included.

Further, when the control unit 4 receives an image data creation instruction from either the first display D1 or the second display D2 during the switching process to the other display, the control unit 4 receives an image data creation instruction during the switching process to the other display, and after the start of display preparation for the other display , The other display may be configured to create image data by modifying the display with the first information and the second information read from the storage unit 5. In this case as well, by waiting for the display to be displayed after the display switching process to be created and using the created display as the correction source data, another display such as the default display is stored as the correction source data. Since it is not necessary to store the data in the storage unit 5, the storage capacity of the storage unit 5 can be reduced. The above-mentioned "during the switching process" means the preparation for displaying the other of the first and second displays D1 and D2 after the completion of the display period of either of the first and second displays D1 and D2. The period until the start. Further, "after the start of display preparation" means immediately after the other of the first and second displays D1 and D2 is created and stored in the storage unit 5, and after the display preparation of the created display is started. Say that.

The image data including the first information and the second information may include the first information and the second information, and the form thereof is not particularly limited. The image data including the first information and the second information is the image data including the first information as in the first and second displays D1 and D2 shown in FIGS. 4 (a) and 4 (b). And the image data including the second information different from the image data including the first information may be provided. When the image data including the first and second information separately includes the image including the first information and the image including the second information, each information can be more reliably identified. Further, the image data including the first information and the second information may include a single image data I1 including both the first information and the second information, as shown in FIG. .. By including the single image data I1 in which the image data including the first and second information includes both the first and second information, the two information can be collectively confirmed in one image. It is possible to compare the two pieces of information with each other.

In the above, the case where two displays including two pieces of information are switched and displayed has been described. However, even when three or more displays including three or more pieces of information are switched and displayed, the above is described. Image data can be created and saved in the same manner as the above method.

<Second Embodiment>
As described above, the control unit 4 of the gas detector 1 causes the display unit 3 to display information on the gas to be detected. 7 and 8 are diagrams showing an exemplary display including information on the detection target gas displayed on the display unit 3. In the display unit 3, as shown in FIGS. 7 and 8, at least a part of the displays D31 and D32 in the overall display D3 blinks. In the example shown in FIG. 7, the display D31 in the density information display area 31 in the overall display D3 and the display D32 in the type information display area 32 are blinking, and in the example shown in FIG. 8, the display D3 in the overall display D3 is displayed. The display D31 in the density information display area 31 is lit and displayed, and the display D32 in the type information display area 32 is blinking. The display D31 in the concentration information display area 31 includes information on the concentration of the detection target gas (in the illustrated example, the average value of the concentration of the detection target gas within a predetermined measurement period), and the type information display area 32 The display D32 in is information on the type of the detection target gas (in the example shown in FIG. 7, the information that the gas type of the determined detection target gas is “A”, in the example shown in FIG. 8, Information that the type of gas to be detected cannot be determined) is included. In the example shown in FIG. 7, the blinking displays of the displays D31 and D32 indicate that the detection of the detection target gas has been completed normally, and in the example shown in FIG. 8, the blinking display of the display D32 is the detection target. By blinking the display of all types of gas (“A”, “B”, “C”, “D”), it is indicated that the type of gas to be detected cannot be determined. At this time, the storage unit 5 stores information regarding the blinking display. The information regarding the blinking display is the information to be presented by the blinking display, but in the present embodiment, it is the information regarding the detection result of the detection target gas, and more specifically, the information regarding the concentration of the detection target gas and the information. , Information on the type of gas to be detected.

When the control unit 4 receives the image data creation instruction, the control unit 4 reads the information related to the blinking display from the storage unit 5 and creates the image data I2 and I3 in the state where the blinking display is displayed as shown in FIGS. 9 and 10. It is configured to do. That is, in the gas detector 1, when the displays D31 and D32 are blinking on the display unit 3, for example, even if the display D31 and D32 receive the image data creation instruction at the timing when the display D31 and D32 are off, the gas detector 1 displays the blinking display. The image data I2 and I3 can be created in a state where the displayed displays D31 and D32 are displayed so as to be visible to the user, that is, in a lit state. Therefore, according to the gas detector 1 of the present embodiment, even when the display is blinking on the display unit 3 of the gas detector 1, the blinking display can be recognized. Can be created and saved. As a result, the user can later confirm the information regarding the blinking display from the saved image.

The image data I2 and I3 may be created in a state where the blinking display is displayed, and the method of creating the image data I2 and I3 is not particularly limited. For example, the control unit 4 stores the entire display D3 (display content displayed on the display unit when the image data creation instruction is received) that is displayed on the display unit 3 when the image data creation instruction is received. It may be configured to create image data I2 and I3 by reading from 5 and modifying the entire display D3 displayed on the display unit 3 by using the information on the blinking display read from the storage unit 5. .. By using the entire display D3 displayed at the time of receiving the image data creation instruction as the correction source data, it is not necessary to store another display such as the default display as the correction source data in the storage unit 5. The storage capacity of the storage unit 5 can be reduced.

In the above, the case where one or two displays in one display are blinking is described, but the case where a plurality of displays are blinking at different timings in one display is the same as the above method. Image data can be created and saved by the method of. Further, even when the display blinks in a plurality of displays whose display can be switched, the image data can be created and saved in combination with the method described with respect to the first embodiment.

1 Gas detector 2 Detection unit 21 1st gas detection element 22 2nd gas detection element 3 Display unit 31 Concentration information display area 32 Type information display area 4 Control unit 5 Storage unit 6 Input unit 6a Image data creation button 6b Menu Call button 6c Confirm button 6d Menu selection button D1 1st display D2 2nd display D3 Overall display D31 Display in concentration information display area D32 Display in type information display area I1, I2, I3 Image data L Gas conduit P Suction Pump S power switch

Claims (6)

A gas detector used to detect the gas to be detected contained in the environmental atmosphere.
The gas detector
A detector that detects the gas to be detected and
A display unit that displays a display including information on the gas to be detected, and
A control unit that displays information on the detection target gas on the display unit based on the information detected by the detection unit.
A storage unit for storing first information and second information regarding the detection target gas is provided.
When the first display and the second display including the first information and the second information are displayed by being switched to the display unit, when the control unit receives the image data creation instruction, the control unit receives the image data creation instruction. It is configured to read the first information and the second information from the storage unit and create image data including the first information and the second information.
Gas detector. When the control unit receives the image data creation instruction when either the first display or the second display is displayed on the display unit, the control unit receives the image data creation instruction when the control unit receives the image data creation instruction. The image data is configured to be created by modifying the display displayed on the display unit with the first information and the second information read from the storage unit.
The gas detector according to claim 1. When the control unit receives the image data creation instruction from either the first display or the second display during the switching process to the other display, after the display preparation of the other display is started, the control unit receives the image data creation instruction. The image data is configured to be created by modifying the other display with the first information and the second information read from the storage unit.
The gas detector according to claim 1. The image data includes image data including the first information and image data including the second information different from the image data including the first information.
The gas detector according to any one of claims 1 to 3. The image data includes a single image data including both the first information and the second information.
The gas detector according to any one of claims 1 to 3. The first information is the average value of the concentration of the detection target gas within a predetermined measurement period, and the second information is the maximum value of the concentration of the detection target gas within the predetermined measurement period.
The gas detector according to any one of claims 1 to 5.

Images