JP2020086482A - Safety measure system and safety measure method - Google Patents

Abstract

To provide a safety measure system for a worker in a refrigerated warehouse, which secures the safety of the worker using an image analysis by detecting the images of solitary work of the worker in the refrigerated warehouse.SOLUTION: A safety measure system includes a camera which is set up at the gateway outside a refrigerated warehouse for photographing a worker entering and leaving the refrigerated warehouse, and detects the worker entering and leaving the refrigerated warehouse based on the image information photographed with the camera. The safety measure system further detects whether or not a preset number of workers or less work in the refrigerated warehouse over a predetermined time based on the detection information about the entry-exit of the workers, and outputs warning information when the preset number of workers or less work in the refrigerated warehouse over the predetermined time.SELECTED DRAWING: Figure 1

Description

The present invention relates to a safety measure system and a safety measure method applied to workers in a low temperature warehouse.

Access control to and from a building such as a building or a warehouse is generally performed using an authentication device such as person detection means. As this person detecting means, there has been proposed a technology for detecting a person by distinguishing a shadow on the floor and distance information of the person from image data from a plurality of cameras provided above a place where a person goes in and out ( For example, see Patent Document 1).

The technique described in Patent Document 1 arranges a plurality of cameras above a plurality of places where people come and go in order to measure the number of people staying in a building or indoors, and uses information from the plurality of cameras. It is a technology that tracks the movement of a person and detects the direction of movement.

Further, Patent Document 2 discloses a safety system for ensuring the safety of workers in a large-scale cooling facility using a refrigerant, which detects a worker with a motion sensor to generate an alarm, thereby reducing the temperature. It describes techniques for ensuring the safety of workers in the environment.

JP 2008-217289 A JP, 2016-138717, A

The work in the low temperature warehouse is a work in a low temperature environment. Therefore, if the worker loses consciousness in the event of an unexpected accident or cannot contact the outside for some reason, the discovery may be delayed and the life of the worker may be threatened. In particular, when a worker is working alone in a low temperature warehouse, there is a problem in that confirmation of the worker's situation may be delayed, and it takes time to ensure the safety.

The technique described in Patent Document 1 only counts the number of persons who have detected entering and leaving the room using a camera, and cannot sufficiently detect detection when a worker is working alone in a low temperature warehouse. .. Further, since a camera that can be installed in a low temperature warehouse and can withstand a low temperature environment becomes expensive, it is difficult to introduce a camera installed in the low temperature warehouse.

Further, since the technique described in Patent Document 2 is provided with the activity detection device and the internal alarm device that detect the activity of the worker in the target space in the low-temperature equipment, it can be provided to a person or a manager outside the low-temperature equipment. On the other hand, it does not inform the abnormal condition of the worker who is working in the low temperature equipment.

Further, when a plurality of low temperature warehouses are provided in one building and the temperatures and sizes of the low temperature warehouses are different, it is conceivable that the activity permission time differs depending on the low temperature warehouses. For example, when the temperature of the low temperature warehouse is lower, the influence on the human body is increased, and the activity permission time in the low temperature warehouse is shortened. Further, when one person works in a low temperature warehouse having a large area, it takes more time to check the situation of the worker than in a low temperature warehouse having a small area.

The present invention has been made in view of the above problems, and an object of the present invention is to detect one person's work of a worker who works in a low temperature warehouse, and the worker is in the low temperature warehouse beyond the permission time of one person's work. It is to provide a safety measure system and a safety measure method capable of promptly notifying an administrator or the like of remaining.

In order to solve the above problems, for example, the configurations described in the claims are adopted.
The present application includes a plurality of means for solving the above problems. To give an example thereof, the present invention uses an image of a worker who enters or leaves a low temperature warehouse to work in the low temperature warehouse. It is a safety system that manages the situation of workers.
The safety measure system of the present invention is provided outside the entrance of a low-temperature warehouse, and a camera for taking an image of a worker among workers entering and leaving the entrance of the low-temperature warehouse and the image information taken by the camera are received by the operator. A worker detection unit is provided for recognizing that the worker has entered the cold storage and that the worker has exited the cold storage.

Further, the safety measure system of the present invention receives the entry/exit information of the workers from the worker detection unit, and a preset number of workers are working in the low temperature warehouse over a predetermined time. When the abnormality detection unit detects that the abnormality detection unit detects that the number of workers has been working in the low temperature warehouse for more than a predetermined time, the abnormality detection unit warns. A warning output unit that receives information and outputs warning information.

According to the present invention, it is possible to promptly notify that a predetermined number or less of workers who work in a low temperature warehouse have been working in the low temperature warehouse for more than a previously permitted time.
Problems, configurations, and effects other than those described above will be clarified by the following description of the embodiments.

It is a schematic diagram showing the whole safety measure system composition concerning the 1st example of an embodiment of the present invention. It is an image figure of the image data imaged with the camera shown in FIG. It is an example of the worker management table in the low temperature warehouse stored in the database shown in FIG. 7 is a flowchart showing a process of counting the number of persons entering and leaving the low-temperature warehouse and setting an alarm time in the first embodiment of the present invention. 6 is a flowchart showing a process until a warning is issued after a single-person work permission time is exceeded in the first embodiment of the present invention. It is a schematic diagram showing the whole safety measure system composition concerning the 2nd example of an embodiment of the present invention. 7 is an example of a low temperature warehouse management table stored in the database shown in FIG. 6. In the 2nd Embodiment of this invention, it is an example at the time of having a plurality of low temperature warehouses in the same building. 7 is an example of a low temperature warehouse worker management table stored in the database shown in FIG. 6. In the 2nd Embodiment of this invention, it is a flowchart which shows the process until the number of persons entering and leaving the low temperature warehouse is counted, the alarm time is set, and the alarm time is increased or decreased according to the temperature of the low temperature warehouse. In the 2nd Embodiment of this invention example, it is a flowchart which shows the process until it is exceeded and the alarm is issued exceeding the permission time of one person's work in each warehouse among a plurality of low temperature warehouses. It is an example of the report screen displayed on the administrator terminal shown in FIG. It is an example of the report screen displayed on the administrator terminal shown in FIG.

<First Embodiment of the Present Invention>
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a schematic diagram showing the overall configuration of a safety countermeasure system according to an embodiment of the present invention (hereinafter referred to as “this example”).
As shown in FIG. 1, the safety measure system of this example is a worker safety measure system in a low temperature warehouse that utilizes image analysis, and includes a low temperature warehouse 1, a management server 3, and a management terminal 4. .. The management server 3 includes a low-temperature warehouse 1 on which the workers 17a to 17n perform work, and a management terminal 4 (for example, a personal computer or a mobile phone terminal) capable of confirming the status inside the low-temperature warehouse 1, wirelessly or by wire. Are connected by the network line 2. Here, the low-temperature warehouse refers to a warehouse that maintains a temperature of 10° C. or lower according to the national regulations, but the low-temperature warehouse also includes a frozen warehouse that has an extremely low temperature (for example, −60° C.). Be done.

[Configuration of safety measure system in this example]
The low temperature warehouse 1 has doorways 16a to 16n for workers 17a to 17n to enter and leave the low temperature warehouse 1, and cameras 6a to 6n for photographing the doorways 16a to 16n. Further, the recording device 7 for recording the image data obtained from the cameras 6a to 6n, the alarm devices 8a to 8n for transmitting the abnormality occurring in the low temperature warehouse 1 to the outside of the low temperature warehouse 1, and the connection to the network line 2 are connected. The communication device 5 for performing The images captured by the cameras 6a to 6n are sent to the management server 3 via the communication device 5.

The workers 17a to 17n include, for example, a plurality of or one worker (human) or a vehicle such as a forklift. The cameras 6a to 6n are attached to the upper portions of the entrances 16a to 16n. The alarm devices 8a to 8n are configured by, for example, red rotating lights (patrol lamps) and buzzers.
Virtual boundary lines 18a to 18n for detecting entry and exit of the workers 17a to 17n to the low temperature warehouse 1 are provided near the entrances and exits 16a to 16n of the low temperature warehouse 1. By providing the virtual boundary lines 18a to 18n, it becomes easy to install the cameras 6a to 6n attached to the upper portions of the entrances and exits 16a to 16n, and it is possible to more clearly detect the entry and exit of the workers 17a to 17n including the vehicle. Like

The management server 3 is a server for managing image data, and includes a communication device 9 for connecting to the network line 2, a control device 10 for transmitting a command to each device constituting the management server 3, and a low temperature warehouse 1. The database 11 for storing the information of In addition, the worker detection unit 12 that detects the workers 17a to 17n in the low temperature warehouse 1, the image analysis unit 13 that analyzes the image detected by the worker detection unit 12, and the abnormality of the worker in the low temperature warehouse 1 An abnormality detection unit 14 for detecting and an alarm output unit 15 for issuing an alarm when an abnormality occurs are provided. The database 11, the worker detection unit 12, the image analysis unit 13, the abnormality detection unit 14, and the warning output unit 15 are controlled by the control device 10.

That is, the control device 10 searches the image data stored in the temporary image data storage unit 11a of the database 11 and recognizes the workers 17a to 17n.
In addition to the database 11, the control device 10 controls the worker detection unit 12, the image analysis unit 13, the abnormality detection unit 14, and the warning output unit 15. Note that the worker detection unit 12 distinguishes between a person and a vehicle such as a forklift and detects the vehicle, but also detects the vehicle as one worker in the same manner as the worker (person).

The image analysis unit 13 detects that the workers 17a to 17n recognized by the worker detection unit 12 cross the virtual boundary lines 18a to 18n from the outside of the low temperature warehouse 1 toward the inside of the low temperature warehouse 1. Thus, it is detected that the workers 17a to 17n have entered the low temperature warehouse 1. Further, the image analysis unit 13 detects that the workers 17a to 17n cross the virtual boundary lines 18a to 18n from the inside of the low temperature warehouse 1 to the outside of the low temperature warehouse 1 to detect the workers from the low temperature warehouse 1. It is detected that 17a to 17n have left the room.

The abnormality detection unit 14 receives the entry/exit information of the workers 17a to 17n from the image analysis unit 13, and the workers 17a to 17n perform a single work in the low temperature warehouse 1 beyond a predetermined single work permission time. Detect whether or not. Here, the one-person work permission time is a time indicating a limit at which one worker remaining in the low temperature warehouse 1 is allowed to continue the work.
The permission time for one person working in the low temperature warehouse 1 is set to, for example, 15 minutes or 60 minutes by a setting device (not shown) according to the temperature, the size or the size of the low temperature warehouse 1. The warning output unit 15 outputs the abnormality of the worker detected by the abnormality detection unit 14 to the alarm devices 8a to 8n such as patrol lamps outside the low temperature warehouse 1 via the network line 2 and the work in the low temperature warehouse 1 It is transmitted to the management terminal 4 of the manager who manages the situation.

The database 11 has a temporary image data storage unit 11a in which image data captured by the cameras 6a to 6n attached to the low temperature warehouse 1 are temporarily stored, and a low temperature warehouse worker management table 11b described later.
Even when the image data stored in the temporary image data storage unit 11a is searched by the worker detection unit 12, if the workers 17a to 17n are not detected, the image data is deleted. ..

FIG. 2 shows an example of image data taken by the camera 6a. As shown in FIG. 2, the image data includes a doorway 16a of the low temperature warehouse 1, a worker 17a, and a virtual boundary line 18a described later.

As described above, the workers 17a to 17n entering and leaving the low temperature warehouse 1 are photographed by the cameras 6a to 6n, and the photographed image data is recorded in the recording device 7. Then, the image data recorded in the recording device 7 is transmitted to the management server 3 via the network line 2.
The management server 3 that has received the image data receives the image data in the control device 10 via the communication device 9, and stores the received image data in the temporary image data storage unit 11 a of the database 11.

The worker detection unit 12 searches the image data in the temporary image data storage unit 11a and detects the workers 17a to 17n. Then, the image analysis unit 13 analyzes the entry/exit status of the workers 17a to 17n into and from the low temperature warehouse 1 detected by the worker detection unit 12, and determines the number of workers in the low temperature warehouse 1.
The result of the worker entering/leaving the room determined by the image analysis unit 13 is input to the low temperature warehouse worker management table 11b of the database 11 by the control device 10.

FIG. 3 shows an example of the worker management table 11b in the low temperature warehouse. As shown in FIG. 3, the low-temperature warehouse worker management table 11b includes a number of people entering field 11b-a, a number of people leaving field 11b-b, a total number of people field 11b-c, an entry/exit detection time field 11b-d, and an alarm output. It has a column of report time fields 11b-e.
Vertical rows 11b-1 to 11b-5 in FIG. 3 show temporal changes in the fields 11b-a to 11b-e of the worker management table 11b in the low temperature warehouse.

The number of persons who have entered the low temperature warehouse 1 is recorded in the number of persons entering field 11b-a of the worker management table 11b in the low temperature warehouse. The number of people leaving the low-temperature warehouse 1 is recorded in the number of people leaving field 11b-b. In the total number of people field 11b-c, the number of workers 17a to 17n in the low temperature warehouse 1, that is, the total number of workers at the present time in the low temperature warehouse 1 is recorded.

In addition, in the entry/exit detection time fields 11b-d, the entry/exit detection time, which is the time when the entry/exit of the workers 17a to 17n is detected, is recorded. The alarm issuance time field 11b-e stores the time at which warning information (alarm) is issued when a preset work permission time is exceeded when single-person work is detected.

In row 11b-1 of FIG. 3, the fact that there were two persons entering the low temperature warehouse 1, that the total number of persons in the low temperature warehouse 1 was three, and the detection time of the two persons entering the room is recorded. .. Then, in the next row 11b-2, there is no new entry of workers into the low temperature warehouse 1, but there were two workers leaving the low temperature warehouse 1 and the total number of people in the low temperature warehouse. Is recorded as being alone. Further, row 11b-2 records the time when two workers left the room and the alarm notification time when one worker in the low temperature warehouse 1 exceeded the one-work permitted time. ..

More specifically with reference to FIG. 3, if the number of people entering the room is three, as shown in row 11b-3 of FIG. 3, “3” is entered in the number of people entering room 11b-a. Is entered. At this time, if the number of people leaving the room is 0, "0" is entered in the field 11b-b of leaving rooms. Then, "4", which is the result of combining the number of people "1" in the low temperature warehouse 1 and the number of people "3" who have entered the room, is input to the total number of people field 11b-c.

Further, the entry/exit detection time at this time is input to the entry detection time fields 11b-d. That is, as shown in line 11b-3, "2018/08/02 23:00:03" is input in the entry/exit detection time field. This means that there were 3 people entering the low temperature warehouse 1 at 23:00:03 on August 2, 2018.

Further, line 11b-4 indicates that the total number of persons in the low temperature warehouse 1 has become “1” by leaving 3 persons from the total number of persons “4” in row 11b-3, and the entry/exit detection time field. In 11b-d, "2018/08/02 23:08:15" is input. Then, in the alarm reporting time field 11b-e, the alarm reporting time is set to "2018/08/02 23" in consideration of the preset one-person work permission time (here, 15 minutes) in the cold and warm warehouse 1. :23:15” is input. In other words, since the number of people in the low temperature warehouse 1 became one at 23:08:15, the warning information (alarm) should be issued at 23:23:15, which is the one-person work permission time of 15 minutes added. Is set.

Next, the abnormality detection unit 14 refers to the worker management table 11b in the low temperature warehouse shown in FIG. 3, and determines the one-person work permission time (for example, 15 minutes) predetermined by the workers 17a to 17n in the low temperature warehouse 1. It detects whether or not one person is working beyond that.
If the abnormality detection unit 14 determines that there is a worker who has worked alone for more than the predetermined one-person work allowed time (for example, 15 minutes) in the low temperature warehouse 1, the warning output unit 15 , Receives warning information from the abnormality detection unit 14 and outputs a warning.

Then, the warning information output from the warning output unit 15 is sent to the administrator terminal 4 via the network line 2. Then, for example, a warning mail or a warning screen is displayed on the display screen of the administrator terminal 4. At the same time, warning information is transmitted to and issued to alarm devices 8a to 8n such as patrol lamps installed outside the low temperature warehouse 1.

FIG. 12 shows an example of the warning screen 21 issued to the administrator terminal 4. As shown in FIG. 12, the warning screen 21 is provided with a warning sentence display area 21a and a report time display area 21b.
The warning text display area 21a is a display area for notifying the result of the abnormality detection section 14 detecting that the workers 17a to 17n are working alone in the low temperature warehouse 1 for a predetermined single-work permission time. .. The reporting time display area 21b is a display area of the alarm reporting time recorded in the alarm reporting time field 11b-d at the time when one person's work is detected in the cold and warm warehouse 1.

[Explanation of the operation of the safety measure system of this example]
As described above, the image data captured by the cameras 6a to 6n installed at the plurality of entrances 16a to 16n shown in FIG. 1 are transmitted to the management server 3 via the network line 2. Then, the transmitted image data is received by the control device 10 via the communication device 9, and is stored in the temporary image data storage unit 11 a of the database 11.

FIG. 4 is a flowchart showing a process of counting the number of workers 17a to 17n entering and leaving the low-temperature warehouse 1 and setting an alarm-issuing time when one worker is detected.
As shown in FIG. 4, first, the worker detection unit 12 searches the image data stored in the temporary image data storage unit 11a (SA1).

Next, the worker detection unit 12 determines whether the workers 17a to 17n are detected in the image data (SA2). When the worker detection unit 12 does not detect the workers 17a to 17n in step SA2 (No in SA2), the process of step SA1 is repeated.

When it is determined in step SA2 that the worker detection unit 12 has detected the workers 17a to 17n (Yes in SA2), the image analysis unit 13 causes the workers 17a to 17n to enter the entrances 16a to 16n of the low temperature warehouse 1. It is analyzed whether or not the user has entered from the room or exited from the entrances 16a to 16n of the low temperature warehouse 1 (SA3).
In step SA3, when the workers 17a to 17n detected by the worker detection unit 12 do not enter or leave the low temperature warehouse 1 (No in SA3), the process of step SA1 is repeated.

In step SA3, when the workers 17a to 17n enter or leave the low temperature warehouse 1 (Yes in SA3), the image analysis unit 13 inputs the workers 17a to 17n. The number of people leaving the room is counted (SA4). Then, the control device 10 inputs the corresponding number of persons into the number of persons entering room field 11b-a, the number of persons leaving room field 11b-b, and the total number of persons field 11b-c of the worker management table 11b in the low temperature warehouse shown in FIG. At the same time, the time when the workers 17a to 17n enter or leave the room is entered in the entry/exit detection time fields 11b-d.

Subsequently, the image analysis unit 13 determines whether or not the total number of workers 17a to 17n in the low temperature warehouse 1 (the value of the total number of people field 11b-c) has become one (SA5). If the total number of persons field 11b-c in the low temperature warehouse 1 is not "1" in step SA5 (No in SA5), the process returns to step SA1 and waits for input of new image data.

In step SA5, when the value of the total number of people field 11b-c becomes "1" (Yes in SA5), the preset number of people is set from the time when the value of the total number of people field 11b-c becomes "1". After the work permission time (for example, 15 minutes), the alarm issuance time is set and input in the alarm issuance time field 11b-e (SA6).

In addition, when a new entry/exit of the workers 17a to 17n to/from the low temperature warehouse 1 is detected, the result of the new entry/exit is recorded in the latest information of the low temperature warehouse operator management table 11b. On the line following the line that contains.

FIG. 5 shows an administrator terminal 4 owned by the administrator and/or the outside of the low temperature warehouse 1 when the abnormality detection unit 14 detects that the single person work in the low temperature warehouse 1 has exceeded the single person work permission time. 9 is a flowchart showing a process up to issuing warning information to the alarm devices 8a to 8n.

The abnormality detection unit 14 refers to the value of the alarm notification time field 11b-e of the worker management table 11b in the low-temperature warehouse of FIG. 3 every fixed time (for example, 1 minute). Then, as shown in FIG. 5, the abnormality detection unit 14 compares the alarm notification time with the current time, and the current time becomes the alarm notification time recorded in the alarm notification time field 11b-e. It is determined whether or not (SB1).

If the abnormality detection unit 14 determines in step SB1 that the current time has not advanced from the alarm issuance time (No in SB1), the process waits until a predetermined time elapses and the next reference is performed.
When the abnormality detection unit 14 determines in step SB1 that the current time is ahead of the alarm notification time of the alarm notification time field 11b-e (Yes in SB1), the warning output unit 15 determines that the network line The notification is issued to the administrator terminal 4 owned by the administrator via 2 (SB2).

Further, at the same time as the alarm is issued in step SB2, the warning output unit 15 issues warning information warning the abnormality occurring in the low temperature warehouse 1 to the alarm devices 8a to 8n such as patrol lamps that transmit to the outside of the low temperature warehouse 1. Report (SB3).
As a result, it becomes possible to inform the manager and the outside of the low temperature warehouse 1 that the workers 17a to 17n are left in the low temperature warehouse 1 for more than the one-person work permission time. By counting a vehicle such as a forklift as one worker, it is possible to notify the manager and the outside of the low temperature warehouse 1 that only the vehicle remains in the low temperature warehouse 1.

<Second embodiment example>
The above-described first embodiment is a worker safety countermeasure system in the low-temperature warehouse 1 that utilizes image analysis, and is preset by a setting device (not shown) according to the set temperature, size or size of the low-temperature warehouse 1. The allowed work time for one person is changed. That is, in the safety countermeasure system of the first embodiment, the one-person work permission time corresponding to each of the low temperature warehouses 1a to 1n having different temperatures is calculated, and the safety of the workers 17a to 17n in the low temperature warehouses 1a to 1n is calculated. The safety measures to ensure

FIG. 6 is a schematic diagram showing the overall configuration of a safety countermeasure system for workers 17a to 17n according to the second embodiment of the present invention.
As shown in FIG. 6, the difference between the second embodiment and the first embodiment shown in FIG. 1 is that a thermometer T for measuring the internal temperature is provided in the low temperature warehouse 1. The database 11 is provided with a low-temperature warehouse management table 11c, and the management server 3 is provided with a work permission time calculation unit 19.
The low temperature warehouse management table 11c records temperature data measured by the thermometer T provided in the low temperature warehouse 1. The work permission time calculation unit 19 refers to the temperature data in the low temperature warehouse 1 recorded in the low temperature warehouse management table 11c, and the work in the low temperature warehouse 1 when the temperature is lower than a preset temperature. Calculate the work permission time for one person.

FIG. 7 shows an example of the low temperature warehouse management table 11c. The low temperature warehouse management table 11c stores a warehouse number, which is a management number of a plurality of low temperature warehouses 1 (hereinafter referred to as low temperature warehouses 1a to 1n). In the field 11c-a, the room temperature field 11c-b that represents the room temperature [°C] of the low temperature warehouses 1a to 1n, and the work permission time for one person in the low temperature warehouses 1a to 1n, the number of minutes can be increased or decreased with respect to the preset set time. An increase/decrease value (minute) field 11c-c indicating whether or not is provided.

As shown in FIG. 7, in the warehouse number field 11c-a, the number No. is assigned to each of the low temperature warehouses 1a to 1n. 1-No. n are given in order. Further, in the room temperature (°C) field 11c-b, No. 1-No. The room temperature (°C) measured by the thermometer T provided in each of the low temperature warehouses 1a to 1n is recorded corresponding to the warehouse number of n. For example, "-18°C" for the first low-temperature warehouse 1a, "-26°C" for the second low-temperature warehouse 1b, and "-30°C" for the third low-temperature warehouse 1c. The room temperature (° C.) actually measured by the thermometer T provided in each low-temperature warehouse 1 is recorded.

In the increase/decrease value field 11c-c, the warehouse number. For the low temperature warehouse 1a of No. 1, the increase/decrease value "-2" indicates that the warehouse No. For the low temperature warehouse 1b of No. 2, the increase/decrease value "-4" is stored in the warehouse No. For the low temperature warehouse 1c of No. 3, the increase/decrease value "-6" is recorded. This increase/decrease value (minute) indicates the increase/decrease value (minute) with respect to the time (for example, 15 minutes or 60 minutes) at which the work by one person is permitted at a temperature (set temperature) preset by a setting device (not shown). ..

For example, the warehouse No. It is assumed that the set temperature in the cold warehouse 1a of No. 1 is −15° C. and the one-person work permission time is set to 15 minutes. However, it is also conceivable that the temperature inside the cold-warm warehouse 1a becomes -18°C and becomes lower than the set temperature of -15°C. In such a case, it is required to correct and reset the one-person work permission time to a time shorter than the preset 15 minutes. The increase/decrease value (minutes) in the increase/decrease value field 11c-c indicates the increase/decrease value (minutes) of the one-person work permission time in this case. That is, the warehouse No. shown in FIG. The increase/decrease value −2 minutes of the low temperature warehouse 1a of 1 indicates that the one-person work permission time is set to 13 minutes, which is 2 minutes shorter than 15 minutes.

FIG. 8 is a schematic diagram showing the configuration of the plurality of low temperature warehouses 1a to 1n.
As shown in FIG. 8, a plurality of low temperature warehouses 1a to 1n are arranged in a building 20 in which a low temperature warehouse is managed. Each of the low temperature warehouses 1a to 1n is provided with respective doorways 16a to 16n, cameras 6a to 6n, and alarm devices 8a to 8n such as patrol lamps.
When an abnormality occurs in the low temperature warehouses 1a to 1n, the alarm devices 8a to 8n transmit the low temperature warehouse having the abnormality to the outside. Virtual boundary lines 18a to 18n are provided in each of the low temperature warehouses 1a to 1n. The cameras 6a to 6n detect entry into and exit from the low temperature warehouses 1a to 1n depending on whether or not the workers 17a to 17n have crossed the virtual boundaries 18a to 18n, and send them to the management server 3 (see FIG. 6). To do.

FIG. 9 shows an example of the worker management table 11b in the low temperature warehouse that reflects the difference in room temperature (° C.) in the low temperature warehouses 1a to 1n. 9, the difference from the worker management table 11b in the low temperature warehouse of FIG. 3 is that the warehouse No. of FIG. Warehouse No. same as field 11c-a The point is that it has fields 11b-f. Rows 11b-1 to 11b-5 shown in FIG. 9 show temporal changes in the entry and exit conditions of the workers 17a to 17n to and from the low temperature warehouses 1a to 1n. It is shown as a time change for all the warehouses 1a-1n.

The number of people entering the room 11b-a, the number of people leaving the room 11b-b, the total number of people field 11b-c, and the entry/exit detection time field 11b-d are the same as in FIG. However, as described later, the value of the alarm notification time field 11b-e is the same as the value of the room temperature (°C) field 11c-b and the increase/decrease value (minute) field 11c-c of the low temperature warehouse management table 11c shown in FIG. It is the time when the alarm is issued considering the value.

As shown in FIGS. 6 and 8, the entry and exit of workers and vehicles into and from the low temperature warehouses 1a to 1n are photographed by the cameras 6a to 6n, and the photographed image data is recorded in the recording device 7. Then, the recorded image data is transmitted to the management server 3 via the network line 2. The management server 3 stores the received image data in the temporary image data storage unit 11a. The functions of the worker detection unit 12, the image analysis unit 13, the abnormality detection unit 14, the warning output unit 15, the temporary image data storage unit 11a of the database 11, and the worker management table 11b in the low temperature warehouse are the same as those in FIG. Therefore, the description is omitted.

The cameras 6a to 6n detect entry and exit of the workers 17a to 17n from the low temperature warehouses 1a to 1n, and send image data to the management server 3. The image analysis unit 13 of the management server 3 analyzes the received image data, and inputs the result of entering/leaving the low temperature warehouses 1a to 1n into the low temperature warehouse worker management table 11b. At this time, in the example of FIG. 9, as shown in the row 11b-2, the warehouse No. Warehouse No. of fields 11b-f. If the number of people entering room 2 is 4, the warehouse No. Input "4" in the number of people entering the room 11b-a corresponding to 2. Further, since the number of persons leaving the room is 0, "0" is input in the field 11b-b of leaving people.

And the existing warehouse No. If the number of persons in the low temperature warehouse 1b, which is 2, is "2", the number of persons newly entered "4" is added and "6" is input to the total number of persons field 11b-c. The entry/exit detection time at this time is input to the entry/exit detection time fields 11b-d. Here, "2018/08/02 22:50:03" (22:50:3 on August 2, 2018) is input.

Further, in row 11b-3 of FIG. The management information for 1 (low temperature warehouse 1a) is recorded. As shown in row 11b-3, "1" is recorded in the total number of persons field 11b-c in the low temperature warehouse 1a, which means that the number of workers working in the low temperature warehouse 1a is It means being alone.

The final entry/exit detection time for the low temperature warehouse 1a is "2018/08/02 23:00:03" (August 2, 2018 23:00:3). Therefore, if the room temperature (° C.) at the current time is not taken into consideration, a time added with a predetermined work time for one person (here, 15 minutes), that is, “2018/08/02 23:15:03” (2018 Warning information (alarm) will be issued at 23:15:3 on August 2nd.

However, the warehouse No. in the low temperature warehouse management table 11c shown in FIG. Looking at the current room temperature (° C.) and the increase/decrease value (min) of 1 (low temperature warehouse 1a), the room temperature (° C.) field 11c-b is “-18”, and the increase/decrease value (min) field 11c-c is “-2”. "It has become. That is, when the room temperature (° C.) is 18° C. below the freezing point, the time at which the warning information is issued is set to −2 minutes, that is, the one-person work permission time is shortened by 2 minutes.
In consideration of this point, in the alarm notification time field 11b-d shown in FIG. 9, the time "2018/08/02 23:13: 03” (23:13:3 on August 2, 2018) is input as the alarm notification time.

As in the case of FIG. 1, the abnormality detection unit 14 detects that the workers 17a to 17n are working independently in the low temperature warehouses 1a to 1n for longer than the predetermined single-work permission time, and outputs the warning output unit 15 Receives warning information from the abnormality detection unit 14 and outputs a warning.
The warning information from the warning output unit 15 is issued via the network line 2 to the administrator's terminal 4 and the warning devices 8a to 8n for transmitting the warning to the outside of the low temperature warehouses 1a to 1n.

FIG. 13 shows an example of the warning screen 21 issued to the administrator terminal 4. The difference from FIG. 12 described in the first embodiment is that the warning screen 21 of FIG. The display area 21c is provided. That is, in FIG. 13, in addition to the warning message display area 21a and the alarm time display area 21b of FIG. Anomaly detection display warehouse No. A display area 21c is provided.

FIG. 10 shows that when the number of workers 17a to 17n entering and leaving the low temperature warehouses 1a to 1n is measured, the alarm time is set when one person's work is detected, and the room temperature (°C) of the low temperature warehouses 1a to 1n is set. 9 is a flowchart showing a process up to setting a one-person work permission time together.
The processing from step SC1 to step SC6 in FIG. 10 is performed by using the image data captured by the cameras 6a to 6n installed at the entrances 16a to 16n of the low temperature warehouses 1a to n, in addition to the steps SA1 to SA6 in FIG. It is the same as the processing up to.

As shown in FIG. 10, first, the worker detection unit 12 searches the low temperature warehouses 1a to 1n for image data stored in the temporary image data storage unit 11a (SC1).

Then, the worker detection unit 12 determines whether or not the workers 17a to 17n are detected in the searched image data (SC2). If the worker detecting unit 12 does not detect the workers 17a to 17n in step SC2 in any of the low temperature warehouses 1a to 1n (No in SC2), the process in step SC1 is repeated.

In step SC2, when it is determined that the worker detection unit 12 has detected the workers 17a to 17n in any of the low temperature warehouses 1a to 1n (Yes in SC2), the image analysis unit 13 It is analyzed whether or not the workers 17a to 17n enter from the entrances 16a to 16n of the low temperature warehouses 1a to 1n or exit from the entrances 16a to 16n of the low temperature warehouses 1a to 1n (SC3).
In step SC3, when the workers 17a to 17n detected by the worker detection unit 12 do not enter or leave any of the low temperature warehouses 1a to 1n (No in SC3), the process of step SC1 is performed. Return.

In step SC3, when the workers 17a to 17n detected by the worker detection unit 12 enter or leave the low temperature warehouse 1a to 1n (Yes in SC3), the image is displayed. The analysis unit 13 counts the number of persons entering and leaving the workers 17a to 17n (SC4). Then, the control device 10 controls the warehouse No. of the worker management table 11b in the low temperature warehouse shown in FIG. In the fields 11b-f, the warehouse numbers of the low temperature warehouses 1a to 1n are stored. In addition to inputting the number, the number of people after entering/leaving is input in the number of people entering room 11b-a, the number of leaving people field 11b-b, and the total number of peoples field 11b-c. Also, at the same time, the low temperature warehouse No. entered. In the entry/exit detection time fields 11b-d of the low temperature warehouses 1a-1n corresponding to, the time when the workers 17a-17n enter/exit the room is entered.

Subsequently, the control device 10 determines whether or not the total number of workers 17a to 17n in the low temperature warehouses 1a to 1n (the value of the total number of people field 11b-c) has become one (SC5). If the total number of persons field 11b-c in the low temperature warehouses 1a to 1n is not "1" in step SC5 (No in SC5), the process returns to step SC1 to input new image data regarding the low temperature warehouses 1a to 1n. wait.

In step SC5, if the value of the total number of persons field 11b-c in the low temperature warehouse 1a to 1n becomes "1" (Yes in SC5), the value of the total number of persons field 11b-c becomes From the time when it becomes “1”, the alarm issuing time is set after 15 minutes in consideration of the preset work time for one person (for example, 15 minutes) (SC6).

Next, the work permission time calculation unit 19 of the management server 3 of FIG. 6 determines the room temperature of the low temperature warehouses 1a to 1n in which the value of the total number of persons field 11b-c of the low temperature warehouse worker management table 11b is "1". To check. This is because it is necessary to change the preset work permission time (here, 15 minutes) depending on the room temperature (° C.) of the low temperature warehouses 1a to 1n.

Therefore, the work permission time calculation unit 19 of the management server 3 refers to the low temperature warehouse management table 11c shown in FIG. Here, the warehouse No. in the low temperature warehouse management table 11c. The room temperature (°C) field 11c-b of 1 (low temperature warehouse 1a) is "-18". The increase/decrease value (minute) in the increase/decrease value (minute) field 11c-c is "-2".
Therefore, the work permission time calculation unit 19 sets an increase/decrease value of −2 minutes corresponding to room temperature (° C.) below freezing of 18° C. in addition to the alarm time set in step SC6. That is, the preset warehouse number. If the 1-person work permission time of 1 (low temperature warehouse 1a) is 15 minutes, the warning information (alarm) is set to be issued 13 minutes after subtracting 2 minutes from 15 minutes (SC7).

Although FIG. 11 is the same as the flow chart shown in FIG. 5 schematically, FIG. 11 is different from FIG. 5 in that not only one low-temperature warehouse 1a but also a plurality of low-temperature warehouses 1a to 1n handle abnormality detection processing. different.

That is, FIG. 11 is a flowchart for explaining the process when the abnormality detection unit 14 detects that the workers 17a to 17n have exceeded the one-person work permission time in any of the low temperature warehouses 1a to 1n. When the abnormality detection unit 14 detects that the one-person work permission time is exceeded in at least one of the low temperature warehouses 1a to 1n, the administrator terminal 4 owned by the administrator and the outside of the low temperature warehouse 1 are detected. Warning information is issued to the alarm devices 8a to 8n that transmit the abnormality.

Note that the processing from step SD1 to step SD3 in FIG. 11 is the same as the processing with respect to one low temperature warehouse in which an abnormality is detected, and is substantially the same as the processing from step SB1 to step SB3 in FIG. The description is omitted. However, the alarm issuance time in step SD1 is different from the alarm issuance time in step SB1 in FIG. 5, and is an issuance time in consideration of the increase/decrease in the one-person work permission time in step SC7 in FIG.

In the embodiment of the present invention described above, when the warning information is generated, the condition is that there is only one worker in the low temperature warehouse 1, but it is not always limited to one worker. Not that. When the number of workers in the low temperature warehouse 1 is equal to or less than the preset number required by the manager, the time permitted to work with the number of persons or less may be set as the work permission time.

It should be noted that the present invention is not limited to the above-described embodiments, but includes various modifications. For example, the above-described embodiments have been described in detail in order to explain the present invention in an easy-to-understand manner, and are not necessarily limited to those having all the configurations described.

Further, the above-mentioned respective configurations, functions, processing units, processing means, etc. may be realized by hardware by designing a part or all of them with, for example, an integrated circuit. Further, the above-described respective configurations and functions may be realized by software by a processor interpreting and executing a program that realizes each function. Information such as a program, a table, and a file that realizes each function can be stored in a memory, a recording device such as a hard disk and an SSD (Solid State Drive), or a recording medium such as an IC card, an SD card, and a DVD.
In addition, the control lines and information lines shown are those that are considered necessary for explanation, and not all the control lines and information lines on the product are necessarily shown. In practice, it may be considered that almost all configurations are connected to each other.

1, 1a to 1n... Low temperature warehouse, 2... Network line, 3... Management server, 4... Administrator terminal, 5, 9... Communication device, 6a-6n... Camera, 7... Recording device, 8a-8n... Alarm device 10... Control device, 11... Database, 11a... Temporary image data storage unit, 11b... In-house worker management table, 11b-a... Number of people entering room, 11b-b... Number of people leaving room, 11b-c... Total number of people, 11b- d... Room entry/exit detection time, 11b-e... Alarm notification time, 11b-f... Warehouse number, 11b-1 to 11b-5... Row of in-house worker management table, 11c... Low temperature warehouse management table, 11c-a ... Warehouse number, 11c-b... Room temperature, 11c-c... Increase/decrease value, 12... Worker detection section, 13... Image analysis section, 14... Abnormality detection section, 15... Warning output section, 16a-16n... Low temperature warehouse entrance/exit, 17a to 17n... Workers, 18a to 18n... Virtual boundary line, 19... Work permission time calculation unit, 20... Management building, 21... Warning screen image, 21a... Warning display area, 21b... Warning time display area, 22c …Abnormality detection warehouse number

Claims (7)

A safety measure system for managing the situation of workers who work in a low temperature warehouse by using images of workers who enter and leave the low temperature warehouse,
A camera installed outside the entrance of the low-temperature warehouse and shooting workers entering and leaving the entrance of the low-temperature warehouse,
An operator detection unit that receives image information captured by the camera and recognizes that the worker has entered the cold storage and that the worker has exited the cold storage,
When it is detected that the number of workers entering/leaving information is received from the worker detection unit and the number of workers is equal to or less than a preset number of people, the work is performed in the low temperature warehouse for more than a predetermined work permission time. Includes an abnormality detection unit that outputs warning information,
A safety measure system, comprising: a warning output unit that receives the warning information output by the abnormality detection unit and outputs the warning information. At the entrance and exit of the low temperature warehouse, a virtual boundary line that crosses when entering and leaving the room is provided, and the camera photographs the worker who crosses the virtual boundary line.
The safety measure system according to claim 1. The safety measure system according to claim 1, wherein the worker is composed of several persons or one person, and the number of persons less than or equal to the preset number is one person. The safety measure system according to claim 3, wherein the worker detection unit detects a vehicle other than a human being who is a worker and recognizes one vehicle as one worker. The warning output unit outputs the warning information to an alarm device installed at an entrance of the low-temperature warehouse and/or an administrator terminal accessed by an administrator of the low-temperature warehouse,
The safety measure system according to claim 1. Using the images taken of workers entering and leaving the low temperature warehouse, a safety measure system for managing the situation of workers working in the low temperature warehouse,
A camera provided on the outside of the entrance/exit of each low-temperature warehouse of the plurality of low-temperature warehouses, and a camera for photographing the worker among the workers entering/leaving at the entrance/exit of the low-temperature warehouse,
An operator detection unit that receives image information taken by the camera, recognizes that the worker has entered each low temperature warehouse, and that the worker has exited each low temperature warehouse,
Receives information on the number of workers entering/leaving from the worker detection unit, and detects that the number of workers who have become less than or equal to a preset number of people is working in each low temperature warehouse over a predetermined work permission time. An abnormality detection unit that
When the abnormality detection unit detects that the number of workers equal to or less than the preset number of people is working in each low temperature warehouse for more than a predetermined work permission time, the abnormality detection unit A warning output part that receives warning information from and outputs a warning,
With reference to the low temperature warehouse management table that records the temperature, the area, and the size of the low temperature warehouse, and the temperature, the area, and the size in the low temperature warehouse that are recorded in the low temperature warehouse management table, the plurality of In each of the low-temperature warehouses, a work-permitted time calculating unit that obtains an increase/decrease value of the work-permitted time of workers who have become less than or equal to a preset number of people in each low-temperature warehouse,
Safety measures system with. A safety measure method for managing the situation of workers who work in a low-temperature warehouse, using images taken of workers entering and leaving the low-temperature warehouse,
A camera is provided outside the entrance of the low temperature warehouse, and a step of photographing the worker among the workers entering and leaving the entrance of the low temperature warehouse,
A step of recognizing that the worker has entered the low temperature warehouse and that the worker has exited the low temperature warehouse by receiving the image information taken by the camera by the operator detection unit;
The abnormality detection unit receives information on the entering/leaving room of the workers from the worker detection unit, and indicates that the number of workers, which is less than or equal to a preset number, is working in the low temperature warehouse for more than a predetermined work permission time. Detecting by
When the abnormality detection unit detects that the number of workers who have become equal to or less than the preset number of people is working in the low temperature warehouse for more than a predetermined work permission time, the abnormality detection unit Receiving the warning information from the, and outputting the warning information by the warning output unit,
Safety measures including.

Images