JP2006304022A - Monitoring device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a monitoring device capable of monitoring a plurality of monitoring locations and identifying an abnormality occurrence location.
In a monitoring device, each monitoring camera 1 installed in each of a plurality of monitoring locations, sensor means 2 for detecting an abnormality in each monitoring location, and an image of the monitoring location where the sensor means 2 has detected an abnormality are acquired. By providing the control unit 3 that operates the possible surveillance camera 1, the above-described problem can be solved.
[Selection] Figure 1

Description

  The present invention relates to a monitoring device for a house or the like, and more particularly to improvement of a monitoring device suitable for the security of a house or the like.

  In a monitoring device, particularly in a security device such as a house, that is, a monitoring device suitable for crime prevention, fire, etc., for example, a sensor that detects an abnormality and an abnormal signal output from the sensor are operated to activate an image of the monitoring camera. There is known a control device including a control device that captures the image and a monitoring control server that transmits an image captured by the control device via a communication line.

  In this monitoring device, as described above, the monitoring camera is activated using the abnormal signal as a trigger to capture the image into the memory in the control device, and the control device transfers the captured image together with a signal for identifying itself to the monitoring control server. To do.

  The monitoring control server searches the user database based on the identification signal to identify the user who is using the monitoring device, and the transferred image information and the identified user identification number (hereinafter referred to as ID). Is stored in the storage device after being associated, and an e-mail notifying that the sensor has detected an abnormality is created and transmitted to the mobile terminal of the user.

  The user who has received this e-mail can refer to the image by accessing the monitoring control server using the portable terminal, and can send the control command from the portable terminal to the monitoring control server. Via this, it is possible to instruct the control device to pan the surveillance camera and turn on the illumination for illuminating the imaging range.

That is, according to this monitoring device, first, there is an advantage that the user of the monitoring device can receive the first report of the abnormality in the house, and further, there is an advantage that the contents of the abnormality can be confirmed by the image of the monitoring camera. (For example, refer to Patent Document 1).
JP 2002-15390 A (FIG. 1)

  As described above, the conventional monitoring device is useful in that the user himself / herself can confirm an abnormality occurring in a house or the like, but has the following problems.

  That is, this conventional monitoring device can detect an abnormality in one monitoring place and photograph the monitoring place with a monitoring camera, but there are usually a plurality of places to be monitored in a house or the like. In addition, it is difficult to photograph a plurality of surveillance locations with a single surveillance camera.

  And since the intruder's intrusion route cannot be specified in advance, the user has a desire to monitor a plurality of rooms in the house, and there is a case where a heater is used in each of the plurality of rooms. Is the same.

  When a room other than the monitoring place becomes a fire place, the temperature of the monitoring place may rise even with the conventional monitoring device, so this can not be detected, but it is already too late when it is detected. In such a case, there is a desire to quickly identify the location of the fire, and there is also a desire to promptly give an intruder a warning such as lighting or warning sound.

  Therefore, the present invention was devised in order to improve the above-mentioned problems, and the purpose of the present invention is to monitor a plurality of monitoring locations and to identify a location where an abnormality has occurred. Is to provide.

  The monitoring device of the present invention includes a monitoring camera installed at each of a plurality of monitoring locations, a sensor means for detecting an abnormality at each monitoring location, and a monitoring camera capable of acquiring an image of the monitoring location where the sensor means has detected an abnormality. By providing a control unit that operates the device, the problem is solved.

  According to the monitoring device of the present invention, it is possible to detect an abnormality at a plurality of monitoring locations and to photograph the monitoring location where the abnormality has occurred with a monitoring camera. Can identify the monitoring location where the abnormality occurred.

  The present invention will be described below based on the embodiments shown in the drawings. FIG. 1 is a diagram illustrating a system configuration of a monitoring apparatus according to an embodiment. FIG. 2 is a flowchart showing an operation when an abnormal signal is input in the monitoring apparatus according to the embodiment. FIG. 3 is a flowchart of a processing procedure for changing whether or not a control signal can be output in the monitoring apparatus according to the embodiment.

  As shown in FIG. 1, the monitoring device in one embodiment includes a plurality of monitoring locations such as a house, each monitoring camera 1 installed in each of M monitoring locations in this embodiment, and an abnormality in each monitoring location. Each sensor means 2 that outputs an abnormal signal upon detection of an error, a control section 3 that operates the monitoring camera 1 to acquire an image when an abnormal signal from the sensor means 2 is received, and a communication means 4 such as the Internet from the control section 3 And a server 5 to which information including image information is transmitted.

  The communication means 4 only needs to be capable of information communication, and is not limited to the Internet, and may be a wired, wireless, mobile phone communication network, or the like.

  Hereinafter, the monitoring camera 1 will be described in detail. The monitoring camera 1 includes a CCD (charge coupled device, not shown) and a lens (not shown), and is configured as a CCD camera. Each sensor means 2 includes an infrared sensor 21 and a temperature sensor 22 and is provided at a monitoring location. Specifically, the infrared sensor 21 indicates whether there is an intruder in the monitoring location. The temperature sensor 22 is installed at a location where the temperature of the monitoring location can be detected.

  Specifically, for example, when there is an intruder at the monitoring location, the infrared sensor 21 detects this and changes the output voltage, but the voltage signal after this change is regarded as an abnormal signal. The temperature sensor 22 also changes the voltage to be output according to the temperature change at the monitoring location. The voltage signal output when the temperature at the monitoring location is equal to or higher than a predetermined temperature is used as an abnormal signal.

  That is, each sensor means 2 detects an abnormality in the monitoring place where each sensor unit 2 is installed. In particular, when the intruder enters the monitoring place, the infrared sensor 21 detects the abnormality and the temperature of the monitoring place is abnormal. In response to this, a temperature abnormality is detected by the temperature sensor 22 and an abnormality signal is output. That is, each sensor means 2 outputs an abnormality signal corresponding to an abnormality type such as an intruder entering the monitoring place or a temperature abnormality.

  The control unit 3 converts an analog image signal output from each surveillance camera 1 into a digital signal, an analog voltage signal output from the infrared sensor 21 as a digital signal, and further an analog voltage signal output from the temperature sensor 22. An A / D converter 31 for converting each signal into a digital signal, and identification information for identifying which infrared sensor 21 or temperature sensor 22 is an abnormal signal are attached to the abnormal signal input from each sensor means 2. Output control unit 32, a compressed circuit 34 that captures the converted image signal and compresses the image information, a main control unit 35 that processes the control procedure in the monitoring device, and a flash in which the control procedure is stored A ROM that stores information generated when the ROM and the arithmetic processing unit 35 process the control procedure (Romdom ac) information of the communication means 4, the storage device 36 configured to include the “access memory”, the output control unit 38 that can receive a command from the main control unit 35 and output a control signal to each of the output terminals 37 a and 37 b. And a communication interface 39 that enables transmission and reception.

  The A / D converter 31 and the output terminals 37a and 37b are provided in a number corresponding to the number of monitoring locations.

  Therefore, in this monitoring apparatus, the input control unit 32 can identify the sensor in which the abnormality is detected among the infrared sensor 21 and the temperature sensor 22 respectively installed at a plurality of monitoring locations from the identification information of each sensor. Thus, it is possible to operate only the surveillance camera 1 capable of photographing the surveillance location where the abnormality has occurred.

  Each monitoring camera 1 is connected to the main control unit 35, and can perform zooming, panning, and photographing according to a command from the main control unit 35.

  Moreover, the output terminal 37a in the control unit 3 is connected to the illumination device 6 that irradiates the photographing range of each surveillance camera 1, and the other output terminal 37b is connected to the alarm device 7 that can generate an alarm sound. Yes.

  In this case, the output control unit 38 can output a voltage as a control signal to the lighting device 6 and the alarm device 7 via the output terminals 37a and 37b, respectively, and can turn on and off the lighting device 6. The alarm device 7 can generate and extinguish alarm sound.

  And this control part 3 is the monitoring place where the infrared sensor 21 and the temperature sensor 22 which are outputting the abnormal signal are basically installed when the abnormal signal is inputted from the infrared sensor 21 and the temperature sensor 22. In this case, the surveillance camera 1 installed in the surveillance location is operated to photograph the surveillance location, and the image of the surveillance location where the abnormality has occurred is compressed by the compression circuit 34 and compressed. The image information is transmitted together with its own recognition ID from the communication interface 39 to the server 5 via the communication means 4.

  The control unit 3 can select whether or not to output control signals output to the output terminals 37a and 37b via the output control unit 38. Specifically, the control unit 3 can select a portable terminal or a terminal via the communication unit 4. This output permission / inhibition can be set by a command input to the control unit 3 from 10 (hereinafter referred to as a terminal or the like).

  Therefore, for example, when the infrared sensor 21 detects that an intruder has entered the monitoring place as an abnormality and an abnormality signal is input to the control unit 3, the monitoring place where the abnormality is generated in the monitoring camera 1 And / or the lighting device 6 and / or the alarm device 7 can be activated, or both can be deactivated. That is, the operation of the monitoring device for the abnormal signal can be linked not only to the photographing of the monitoring camera 1 but also to the lighting device 6 and the alarm device 7 connected to the monitoring device.

  On the other hand, the server 5 includes a communication interface 51 that enables information exchange with the communication unit 4 and a specifying unit that specifies a user and a monitoring place by referring to the user database 52 based on the recognition ID transmitted from the control unit 3. 53, an e-mail creating unit 54 for creating an e-mail, an information processing unit 55 for processing information transmitted from the control unit 3, and an image database 56 for storing image information.

  In the server 5, when the recognition ID and the image information are received from the control unit 3, the specifying unit 53 specifies the user and the monitoring place by referring to the user database 52 based on the recognition ID, and the information processing unit 55 stores the image information in the image database 56, and the mail creation unit 54 sends the mail address of the user's terminal 10 or the like registered in the user database 52 in advance to the mail of the content in which the abnormality occurred. Create, attach image information, and send an e-mail to the e-mail address.

  The mail creation unit 54 can convert the format of the image information so that the user matches the terminal 10 that receives the email, and the communication interface 51 matches the terminal 10 that the user receives the email. Thus, the communication protocol can be appropriately converted.

  Further, when the server 5 transmits mail, the telephone service server may be used once.

  In addition, the user can directly access the monitoring device 1 from the terminal 10 or the like via the communication means 4 to remotely operate the monitoring camera 1, the lighting device 6, and the alarm device 7.

  Specifically, when the user gives a command from the terminal 10 or the like to the control unit 3, the surveillance camera 1 takes a picture of the monitoring location, pans and zooms the surveillance camera 1, and further sends a control signal to the control unit 3. By making it output, the lighting device 6 can be turned on / off, the alarm device 7 can generate an alarm sound or the alarm sound can be extinguished.

  It should be noted that information regarding which monitoring location an abnormality is detected may be transmitted to the user terminal 10 or the like instead of the image information or in addition to the image information.

  As described above, in this monitoring apparatus, since an abnormality at a plurality of monitoring locations can be detected and the monitoring location where the abnormality has occurred is captured by the monitoring camera, a plurality of monitoring locations can be monitored and the user can be monitored. Can identify the monitoring location where the abnormality occurred.

  Moreover, in addition to photographing the monitoring location where an abnormality has occurred, lighting of the lighting device 6 at the monitoring location and an alarm sound of the alarm device 7 can give a timely warning to an intruder at the monitoring location, Theft can be prevented in advance.

  If the lighting device 6 is turned on prior to the operation of the monitoring camera 1, the infrared sensor 21 detects that there is an intruder at the monitoring location and the monitoring camera 1 captures the monitoring location. In addition, the intruder can be specified even when the abnormality occurs at night.

  Moreover, in this monitoring apparatus, although an abnormal signal can be output individually corresponding to the abnormal type of the sensor means 2, this control unit 3 corresponds to the abnormal signal corresponding to the abnormal type. The user can select whether or not to output the control signal.

  Therefore, for example, the illumination device 6 is turned on for an abnormal signal of the infrared sensor 21, but an alarm sound can be generated by the alarm device 7 for the abnormal signal of the temperature sensor 22. .

  In this way, in this monitoring device, since it is possible to select whether or not the control signal can be output, it is possible for the user of the monitoring device to perform an operation according to his / her preference, and to set the user Therefore, it is possible to realize a security system with a high degree of freedom.

  The operation of the monitoring apparatus configured as described above will be described with reference to the flowchart shown in FIG.

  In step 80, the monitoring device determines whether or not an abnormal signal from each sensor means 2 is input. If there is an abnormal signal input, the process proceeds to step 81, and no abnormal signal is input. Until the repeated abnormal signal is input, the presence / absence of repeated input is continuously determined.

  Note that the determination in step 80 is that there is an abnormal signal when the infrared sensor 21 and / or the temperature sensor 22 of each sensor means 2 outputs an abnormal signal. In addition, this determination is determined to be abnormal even if any of the sensor means 2 in the plurality of monitoring locations detects an abnormality.

  Subsequently, in step 81, the control unit 3 specifies a plurality of monitoring locations. Specifically, the monitoring location is specified by specifying the sensor means 2 generating the abnormal signal.

Then, the process proceeds to step 82, where the control unit 3 generates an output flag Z _NX (N = 1, 2) for outputting control signals to the output terminals 37a, 37b. Note that the value of X is a variable for specifying the monitoring location. In this case, since there are M monitoring locations, X = 1, 2,...

The output flag Z _NX is a value indicating whether or not a control signal should be output to each of the output terminals 37a and 37b specified by the value of X. In this embodiment, the output flag Z _1X Corresponds to the output terminal 37a, and hereinafter the output flag _Z2X corresponds to the output terminal 37b.

When there are a plurality of monitoring locations where an abnormality has been detected, the output flag Z _NX indicates the number of monitoring locations where an abnormality has occurred in order to activate the lighting device 6 or the alarm device 7 at each monitoring location where the abnormality has occurred. Only generated.

In the generation of the output flag Z _NX , when only the infrared sensor 21 outputs an abnormal signal, the output flag Z _NX = the output set value F _1NX and only the temperature sensor 22 outputs an abnormal signal If the output flag Z _NX = the output set value F _2NX and both the infrared sensor 21 and the temperature sensor 22 output an abnormal signal, the value of the output flag Z _NX is the logic of F _1NX and F _2NX It is the sum value.

The output set value F _1NX and the output set value are values set by the user in advance. As will be described in detail later, when the output set value F _1NX is 1, when an abnormal signal is input, The setting is to turn on the lighting device 6 by causing the control unit 3 to output a control signal. When the output set value F _1NX is 0, the lighting device 6 is not turned on. Similarly, even when the output set value F _2NX is set, the alarm device 7 is set to be activated if this value is 1, while the output set value F _2NX is set not to be activated if the value is 0.

Subsequently, in step 83, when the value of the output flag _ZNX is 1, a control signal is output to the output terminals 37a and 37b at the monitoring location specified by the value of X.

  Further, in step 84, the control unit 3 drives the monitoring camera 1 capable of capturing the monitoring location specified by the value of X to capture the monitoring location, compresses this image information by the compression circuit 34, and temporarily stores the storage device. To store.

  In step 85, the control unit 3 transmits the compressed image information together with the identification ID from the communication interface 39.

  Subsequently, the process proceeds to step 86, and when the arbitrarily set time has elapsed, the control unit 3 stops outputting the control signal and ends this process.

  In this monitoring apparatus, the processing from step 80 to step 86 described above is repeated, and abnormality of the monitoring place is always detected, and the monitoring place is continuously monitored.

  The processing at the monitoring place is as described above. On the other hand, when the server 5 receives the information from the control unit 3 in step 104, the specifying unit 53 specifies the user, and the mail creating unit 54 displays the user's terminal or the like. The text and image information indicating that an abnormality has been detected are transmitted to 10. Note that information on the occurrence time of the abnormality may be included in the text of the e-mail.

  Further, the control output may be stopped by allowing the user to stop the control output by sending a remote operation command from the terminal 10 or the like to the control unit 3.

  As described above, since the control unit 3 can select whether or not to output the control signals output to the output terminals 37a and 37b via the output control unit 38, the user of the monitoring device can perform an operation according to his / her preference. Since it is possible to give the user a degree of freedom of setting, a security system with a high degree of freedom can be realized.

  For example, in this monitoring device, the monitoring location where an abnormality has occurred with respect to the abnormal signal is specified, and not only photographing with the monitoring camera 1, but also the lighting device 6 and alarm device connected to the monitoring device 7 can be interlocked with each other, or both of them can be made not to operate, and the intruder can be identified even when the abnormality occurs at night. Since the surveillance camera 1 and the lighting device 6 or the alarm device 7 are operated by specifying the monitoring place where the abnormality has occurred, a timely warning can be given to the intruder, and theft can be prevented in advance. Become.

  Now, the setting of whether or not the control signal can be output to the output terminals 37a and 37b of the control unit 3 is performed by the processing procedure shown in FIG.

  This processing procedure is executed as an interrupt process when the user accesses the control unit 3 from the terminal 10 or the like 10 via the communication means 4, and in step 90, the control unit 3 requests input of a recognition ID and a password.

  Then, when the recognition ID and password are transmitted from the terminal 10 or the like, the process proceeds to step 91, where the control unit 3 refers to the recognition ID and password stored in the storage device 36 and enters the input recognition. It is determined whether the ID and password match.

  As a result of this determination, if the recognition ID and the password match, the process proceeds to step 92. If not, the process ends, and the process is not resumed unless there is another access.

  In the above example, the recognition ID is input. However, when a unique user ID is given to the user, the determination may be made based on the match between the user ID and the password.

  In step 92, the user selects either monitoring device control or output settings. Specifically, a character string “control” and “output setting” and a selection button are displayed in front of each character string on the display device of the user terminal 10 or the like, and the user makes the above selection using the selection button. Prompt.

  Then, when the user selects the control of the monitoring device, the process proceeds to the above-described remote operation process, and when the user selects the output setting, the process proceeds to step 93.

  Further, the process proceeds to step 93, where the user is requested to specify the monitoring location, and the monitoring location is specified by the user. Specifically, the monitoring location is designated by allowing the user to input the value of X, which is a variable for specifying the monitoring location.

  In step 94, a sensor that outputs an abnormal signal at the designated monitoring location is selected. In this embodiment, the infrared sensor 21 or the temperature sensor 22 is selected. Specifically, a character string “sensor 1” and “sensor 2” is displayed on the display device of the user terminal 10 or the like, and a selection button is displayed in front of each character string, and the user selects the above using the selection button. Prompt.

  When the character string “infrared sensor” can be associated with the character string “sensor 1”, “infrared sensor” may be displayed instead of the character string “sensor 1”. Similarly, “temperature sensor” may be displayed for “sensor 2”.

  In step 95, the output setting related to the sensor selected by the user is performed. In this embodiment, since there are two output terminals 37a and 37b, on and off are selected for each of the output terminals 37a and 37b. When the user's selection is completed, the control unit 3 stores the setting information in the storage device. 36.

Note that since the setting information includes, for example, two output terminals 37a and 37b, the output setting value F _1NX (N = 1, 2, X = 1, if the setting information is related to the abnormal signal of the infrared sensor 21. 2... M), if the setting information is related to the abnormal signal of the temperature sensor 22, the output setting value F _2NX (N = 1, 2, X = 1, 2. It is stored in 36 flash ROMs.

Further, the values of the output set values F _1NX and F _2NX are set to 1 meaning on or 0 meaning off.

In this embodiment, whether or not the control signal can be output to the output terminals 37a and 37b is determined based on the output setting values F _1NX and F _2NX described above.

  Subsequently, in step 96, in order to prompt the user to finish the output setting, a character string “end setting” and “continue setting” and a character string before each character string are displayed on the display device of the user terminal 10 or the like. A selection button is displayed on the screen, and the user is prompted to make the selection using the selection button.

  Then, when the user selects the end of setting, the setting process is ended, and when the user desires to continue the setting, the process proceeds to step 93.

When the above setting is completed, the control unit 3 performs a restart process. At the time of restart, the monitoring device program is executed following the OS (operating system). At this time, the output set values F _1NX and F _2NX stored in the flash ROM of the storage device 36 in step 95 are read once. In executing the monitoring device program, the read output setting values F _1NX and F _2NX are always valid values during the subsequent processing on the monitoring device program.

  Therefore, unless the restart process is performed, the output set value set in step 95 is not valid, and the output set value changed by the output setting is valid only after the restart process is performed. It becomes.

  Further, when performing the restart process, the control unit 3 transmits information indicating that the restart process has been performed together with the identification ID and information on the output setting value to the server 5 as restart information.

In the server 5 that has received this transmission, first, the specifying unit 53 refers to the user database 52 based on the identification ID, specifies the user and the monitoring location, and then the mail creating unit 54 stores the mail registered in the user database. To the address, an e-mail is created with text _indicating that the monitoring device has been restarted and the contents of the output setting values F _1NX and F _2NX , and transmitted to the user terminal 10 or the like.

  Therefore, whenever the user changes the output setting in the monitoring device, the user can always confirm that the monitoring device has been restarted, and can check again the output setting value that the user has changed.

  In addition, if the user does not receive the e-mail, the monitoring device has not performed the restart process, so it can be confirmed that the changed output installation value is not valid. Thus, it can be confirmed that the setting change has failed, so that there is no risk of operating the monitoring device without noticing the setting change mistake.

  Further, when the output setting value is changed even though the user has not changed the setting of the monitoring device, the third party has arbitrarily changed the output setting value by receiving the above e-mail, For example, the user can know that the monitoring device has restarted due to the power being turned off once, etc., and by checking the output setting value information, the setting value can be changed arbitrarily, or the output setting value can be abnormal. If not, the abnormality of the monitoring device can be recognized immediately, and the user can immediately cope with these abnormal situations.

  That is, in this monitoring device, not only the degree of freedom of setting for operation is increased, but also the safety can be increased because the user can immediately cope with an abnormal situation.

  Although only the restarted information may be transmitted during the restart process, in this case, it is not possible to immediately know whether the monitoring device itself is abnormal or the output setting value has been changed, The user can be notified of the abnormality and given an opportunity to access the monitoring device, and the user can visually confirm the monitoring location by remote operation, so the crime prevention performance is improved.

  In this embodiment, at the time of restart, the server 5 creates an e-mail and transmits the e-mail to the user's terminal 10 or the like. Instead, the user's portable terminal is a cellular phone. In such a case, the control unit 3 may directly call the mobile phone and inform the user that the restart process has been performed by voice.

  Incidentally, in the present embodiment, the control unit 3 is directly accessed from the user terminal 10 or the like when changing the output setting value or performing the remote operation. 5 stores a program for executing the above-described output change and remote operation processing, and the control unit 3 stores the minimum information necessary for changing the output set value and for remote operation. If an information input device such as a keyboard can be directly connected to the control unit 3 and information can be input, the information input device can directly transmit to the control unit 3. It may be possible to access and perform operations such as setting and changing, and monitoring camera.

  The shape of the output terminal and the control signal are arbitrarily set. For example, if the shape of the output terminal is the same as that of the outlet, and the control signal is set to an AC voltage of 100 V, it is used particularly for crime prevention or disaster. Not only devices that can be used, but also household devices such as radios, televisions, washing machines, etc. can be activated, which allows intruders who have entered unmanned surveillance locations to perceive life sounds and steal It is also possible to prevent this.

  Further, in the present embodiment, the sensor means 2 includes the infrared sensor 21 and the temperature sensor 22, but other sensors may detect an abnormality in the monitoring location, and the two sensors described above. In addition to this, it is possible to increase the number of sensors that detect opening / closing of windows, the number of sensors that detect gas leaks and smoke, and the number of terminals that output control signals can be increased or decreased.

  Note that the above-described control processing procedure and output setting processing procedure are examples, and can be changed to be optimal according to the specifications of the monitoring device.

  This is the end of the description of the embodiment of the present invention, but the scope of the present invention is of course not limited to the details shown or described.

It is a figure which shows the system configuration | structure of the monitoring apparatus in one embodiment. It is a flowchart which shows the action | operation at the time of the abnormal signal input of the monitoring apparatus in one Embodiment. It is a flowchart of the process sequence which changes the output permission of the control signal in the monitoring apparatus of one embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Surveillance camera 2 Sensor means 21 Infrared sensor 22 Temperature sensor 3 Control part 31 A / D converter 32 Input control part 34 Compression circuit 35 Main control part 36 Storage device 37a, 37b Output terminal 38 Output control part 39 Communication interface 4 Communication means 5 Server 6 Lighting device 7 Alarm device

Claims (5)

Each monitoring camera installed in each of a plurality of monitoring locations, sensor means for detecting an abnormality at each monitoring location, and a control unit for operating the monitoring camera capable of acquiring an image of the monitoring location where the sensor means has detected an abnormality A monitoring device characterized by comprising. The monitoring system according to claim 1, further comprising an illuminating device that illuminates the imaging region when the monitoring camera is imaged. 3. The monitoring apparatus according to claim 1, further comprising an alarm device that is installed at a monitoring place where the sensor means detects an abnormality and generates an alarm sound when the abnormality is detected. The monitoring device according to claim 2 or 3, wherein the sensor means outputs an abnormality signal corresponding to the abnormality type and can set whether or not the lighting device is turned on for each abnormality type. The monitoring device according to claim 3 or 4, wherein the sensor means outputs an abnormality signal corresponding to the abnormality type and can set whether or not the alarm device is activated for each abnormality type.

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