TWM467974U - Security system - Google Patents

Description

Security system

This creation is about a security system, especially for a security system that can be tested without disarming the settings.

With the advancement of technology and the improvement of the quality of life, the safety of the living environment has become a topic of great concern, and its scope covers homes, office buildings, laboratories, factories, financial institutions and other public places. The industry has begun to focus more on developing various security monitoring systems, making the security service industry a fast-growing area.

In general, many different security monitoring systems currently have multiple sensors installed in an environment to monitor the environment to protect the lives and property of users. When one or part of the sensor of the monitoring system generates mechanical or electrical problems, the maintenance personnel must release the warning mode of the monitoring system to enter the environment for maintenance, otherwise the rest of the monitoring system operates normally. The sensor senses that when the inspector enters, it will cause the monitoring system to issue an unnecessary alarm.

However, in the case of the de-alerting mode, the monitoring system is unable to record or monitor the condition of the security personnel or maintenance personnel in the environment. Therefore, the user and the control center personnel cannot know any maintenance personnel in the environment. Overhaul, this is a major problem for users and control center personnel.

In addition, since the maintenance personnel are inspected in the case of releasing the warning mode of the monitoring system, if there is any reason for the alarm to be issued during the maintenance, for example, when an outside person enters the environment from any place outside the environment, the monitoring system It is impossible to carry out any warning or notification, etc., to remind the security personnel or maintenance personnel that there is an invasion by an outsider.

In view of the above-mentioned problems of the prior art, the purpose of the present invention is to provide a security system to solve the problem that many different security monitoring systems of the prior art need to be in the monitoring mode of the de-alerting mode before the maintenance system can be operated. In turn, the personnel and users who generated the control center could not know the problem of any maintenance work performed by the maintenance personnel in the environment.

According to the purpose of the present invention, a security system is proposed, which has a system mode, and the system mode includes an alert mode and a de-alerting mode. The security system includes a receiving module, a plurality of sensing modules, and a processing module. The receiving module receives the authentication signal. A plurality of sensing modules are respectively disposed in a plurality of blocks of the area, and each sensing module generates a sensing signal according to the touch event. The processing module is connected to the receiving module and the plurality of sensing modules, and receives the authentication signal and the sensing signal. When the processing module receives the authentication signal, the processing module switches the system mode of the security system to the maintenance mode, and sets the received sensing signal as an inspection signal and transmits it to the remote server.

Preferably, the security system may include a warning module connected to the processing module. When the security system is in the alert mode, the processing module sets the received sensing signal as a warning signal, and the warning module receives the warning signal and generates a warning message according to the warning signal.

Preferably, the inspection signal may include identification data associated with the location of the corresponding sensing module, and the server generates an inspection path according to the inspection signal and the corresponding identification data. News.

The sensing module preferably includes an image capturing device. When the sensing module generates a sensing signal, the image capturing device performs an image capturing operation to obtain an image signal.

The image signal can be transmitted to the servo end to generate image information, and the servo end can generate maintenance service information according to the inspection path information and the image information.

Preferably, the security system further comprises a memory module, which is connected to the processing module and stores the maintenance signal and the image signal.

Wherein, when the processing module receives another authentication signal in the inspection mode, the processing module can restore the security system to the system mode before receiving the authentication signal.

When the processing module receives the setting signal, the processing module can switch the system mode from the maintenance mode or the de-alert mode to the alert mode. When the processing module receives the release signal, the processing module can adjust the system mode from the maintenance mode. The mode or alert mode is switched to the de-alarm mode.

Among them, the triggering event is preferably an external force contact or detecting an object displacement.

The sensing module of the security system is preferably a sensor, and the receiving module is preferably a card reader. The warning module is preferably a light emitting device, a sound output device or a display device.

According to the purpose of the present creation, a security system is further provided, which has a system mode, and the system mode includes an alert mode and a release alert mode. The security system includes a receiving module, a plurality of sensing modules, and a processing module. The receiving module receives the authentication signal. A plurality of sensing modules are respectively disposed in a plurality of blocks of the area, and each sensing module generates a sensing signal according to the touch event. The processing module is connected to the receiving module and the plurality of sensing modules, and the processing module receives the authentication signal and the sensing signal. Among them, when the security department When in the alert mode, the processing module sets the received sensing signal as a warning signal. When the processing module receives the authentication signal in the alert mode, the processing module switches the system mode of the security system to the maintenance mode, and The received sensing signal is set as an inspection signal and transmitted to the remote server.

The inspection signal may include identification data associated with the location of the corresponding sensing module, and the server generates the inspection path information according to the inspection signal and the corresponding identification data.

The security system further includes a warning module, and the connection processing module, when the server receives the inspection signal that does not match the inspection path information, determines that the sensing module corresponding to the inspection signal that does not match the inspection path information senses an abnormality. And sending an abnormal signal to the processing module, and the processing module controls the warning module to generate a warning message.

The sensing module preferably includes an image capturing device. When the sensing module generates the sensing signal, the image capturing device captures the image to obtain the image signal, and transmits the image signal to the server to generate the image information. The servo end generates maintenance service information based on the inspection path information and image information.

As stated above, the creation security system of the present invention can have the following advantages:

(1) In addition to the alert mode and the de-alerting mode, an overhaul mode is provided to completely monitor various system modes of the security system.

(2) By switching the security system to the maintenance mode in the alert mode, the maintenance personnel can enter the monitoring environment to perform the maintenance and repair system without having to switch the security system to the de-alerting mode to solve the many preservations. The monitoring system must first switch to the de-alerting mode, stop the warning and monitoring functions, and then enable the maintenance personnel to enter the environment for maintenance.

(3) The maintenance signal can be provided in the maintenance mode by the sensing signal generated by the sensing module, so that the controller can know the path that the maintenance personnel walks when performing maintenance in the environment.

(4) The maintenance signal information can be provided to the control personnel by the inspection route information and the image signal generated by the image capture device, so as to know the behavior of the maintenance personnel during the maintenance in the environment, and the maintenance personnel can be overhauled. The behavior is transparent, which allows the user to be assured that the maintenance personnel are in the environment for maintenance.

(5) At the same time, the environment can be maintained during the maintenance process, which can prevent the outsider from entering the environment when the security system is released from the alert mode, so that the maintenance personnel or the control personnel cannot know the problem, thereby improving the environment. Security.

1‧‧‧Security System

10‧‧‧ receiving module

11a~11q‧‧‧Sensing module

12‧‧‧Processing module

13‧‧‧Warning module

14‧‧‧Image capture device

15‧‧‧Memory Module

2‧‧‧ Area

20a~20j‧‧‧ Block

3‧‧‧Server

S40~S45‧‧‧Steps

Figure 1 is a first schematic diagram of a first embodiment of the security system of the present invention.

Figure 2 is a second schematic diagram of the first embodiment of the security system of the present invention.

Figure 3 is a schematic diagram of a second embodiment of the security system of the present invention.

Figure 4 is a schematic diagram of a third embodiment of the security system of the present invention.

Figure 5 is a flow chart of the maintenance method of the creation security system.

The embodiments of the security system of the present invention will be described below with reference to the related drawings. For the sake of understanding, the same components in the following embodiments are denoted by the same reference numerals.

Please refer to FIG. 1 and FIG. 2 , which are a first schematic diagram and a second schematic diagram of a first embodiment of the security system of the present invention. As shown in the figure, the security system 1 includes a receiving module 10, a plurality of sensing modules 11a-11q, and a processing module 12. The security system 1 has a system mode such as an alert mode and a release alert mode. The receiving module 10 receives the authentication message number. A plurality of sensing modules 11a-11q are respectively disposed in a plurality of blocks 20a-20j of the area 2. Each of the sensing modules 11a-11q generates a sensing signal according to the touch event. The processing module 12 is connected to the receiving module 10 and the sensing modules 11a 11 11q, and receives the authentication signal and the sensing signal. When the system mode of the security system 1 is in the alert mode, the processing module 12 sets the received sensing signal as an alert signal to issue an alert. When the security system 1 receives the authentication signal, the processing module 12 switches the system mode of the security system 1 to the maintenance mode, and sets the received sensing signal as the detection signal, and transmits the detection signal to the remote server. 3.

Specifically, in addition to the alert mode and the de-alerting mode, the security system 1 of the present invention provides an overhaul mode for completely monitoring the state of the entire security system 1; in addition, the maintenance personnel are not required to switch to the security system 1 When the warning mode is released, the area 2 maintained by the security system 1 can be entered, and the other modules in the sensing modules 11a to 11q or the area 2 can be inspected. Therefore, when the maintenance personnel want to repair some of the sensing modules in the area 2, such as the sensing modules 11a, 11b, the maintenance personnel can first pass the specific card (if the system mode of the security system 1 is in the alert mode). The radio frequency identification card transmits the authentication signal to the receiving module 10 (such as a card reader) by inputting a specific password. After receiving the authentication signal, the processing module 12 switches the system mode of the security system 1 from the security mode to the maintenance mode according to the authentication signal transmitted by the receiving module 10.

At this time, the maintenance personnel can enter the blocks 20a and 20b of the area 2, and perform maintenance on the sensing modules 11a and 11b to be repaired. The sensing modules 11a and 11b generate sensing signals (for example, Sa and Sb, respectively) according to the touch event, and transmit the signals to the processing module 12. In this embodiment, the sensing modules 11a-11g can be various types of sensors, such as temperature, smoke, humidity or infrared space detection. Therefore, when the sensing mode When the groups 11a and 11b are subjected to external contact by the maintenance personnel, such as the contact type maintenance behavior, the sensing modules 11a and 11b generate the sensing signals Sa and Sb. Moreover, as shown in FIG. 2, since the maintenance personnel enters the area 2, the sensing module 11c at the entrance is first touched. Therefore, the sensing module 11c also generates a sensing signal (for example, Sc).

Then, when the system mode of the security system 1 is in the maintenance mode, when the processing module 12 receives the sensing signals (in this example, Sa, Sb, and Sc), each sensing signal is set as an inspection signal (for example, Ra, Rb and Rc) are transmitted to the servo terminal 3 for the servo terminal 3 to determine that the sensing modules 11a, 11b, 11c in the region 2 are activated in the inspection mode. Servo terminal 3 can be a remote security control center.

When the maintenance personnel complete the inspection, the other authentication signal can be transmitted to the receiving module 10 by using a specific card or a specific password, and the processing module 12 can make the system mode from the maintenance mode according to the other authentication signal. Switching back to the system mode before receiving the authentication signal, in this case, the alert mode, so that the security system 1 can perform the maintenance of the area 2 again.

Thereby, the security system 1 of the present invention can switch the system mode to the maintenance mode by being in the alert mode in the system mode of the security system 1, so as to provide the maintenance personnel to stop the security system without switching to the de-alarm mode. In the case of the alert function, it is possible to enter the protected area for maintenance.

It is worth mentioning that, except for the switch from the alert mode to the maintenance mode, if the system mode of the security system 1 is originally the release alert mode, when the processing module 12 receives the authentication signal when the alert mode is released, the system mode can also be Switch to the inspection mode, and then set the generated sensing signal as the inspection signal for transmission. When the pending module 12 receives another authentication signal, the system mode is switched back to the alarm before the authentication signal is removed. Ring mode.

In addition, as shown in FIG. 1 , the security system 1 may further include an alert module 13 connected to the processing module 12 . When the system mode of the security system 1 is in the alert mode, if the processing module 12 receives the sensing signal, the processing module 12 sets the sensing signal as a warning signal and transmits it to the warning module 13 to enable the warning mode. Group 13 generates a warning message to alert the occurrence of an abnormal condition. The warning module 13 can be a light-emitting device (such as a light-emitting diode), a sound output device, a display device, or a combination thereof, and the warning message can be a corresponding light, sound, text, image, or a combination thereof. The processing module 12 can further transmit the warning signal to the servo terminal 3 for the controller of the servo terminal 3 to perform necessary processing.

Moreover, when the system mode of the security system 1 is in the alert mode or the maintenance mode, and the receiving module 10 receives the release signal, the processing module 12 switches the system mode from the alert mode or the maintenance mode to the de-alarm mode according to the release signal. To stop the security alert function of the security system 1. When the security system 1 is in the disarming mode, one of the embodiments is such that the sensing module 11 does not sense and does not emit a sensing signal, so the processing module 12 does not receive the sensing signal for setting. In another embodiment, the processing module 12 can receive the sensing signal but does not perform any action, and therefore does not transmit the signal to the warning module 13 or the servo terminal 3.

In other embodiments, the security system 1 can also be designed to be arbitrarily switchable between various system modes. For example, when the security system 1 is in the alert mode or the alert mode, the processing module 12 can control the system mode of the security system 1 to switch to the maintenance mode if receiving the authentication signal. If the release signal is received in the alert mode or the maintenance mode, the processing module 12 can switch the system mode to the de-alarm mode. Similarly, if the setting signal is received during the maintenance mode or the warning mode, the processing module 12 The system mode can be switched to the alert mode. Therefore, the security system 1 can receive various signals via the receiving module 10, and the processing module 12 connected thereto can determine and switch the system mode of the security system 1 according to the received signals, thereby correspondingly generating Alert signal, maintenance signal or no signal for flexible switching and identification of the state of the security system 1.

Please refer to Figure 2. When the processing module 12 switches the system mode to the maintenance mode according to the authentication signal, and the maintenance personnel enters the area 2 for maintenance, if several of the sensing modules (for example, 11h~11q) pass through, the sensing module 11h~11q The sensing signals are respectively generated according to the sensed displacement of the object (for example, when the sensing module is an infrared space detector) or the touch, and transmitted to the processing module 12. After receiving the sensing signal, the processing module 12 sets the sensing signal as an inspection signal and transmits it to the remote server 3 through a dedicated line, a local line or a network.

The sensing signals generated by each of the sensing modules 11a 11q include identification data associated with the locations of the sensing modules 11a-11q, such as the circuit numbers corresponding to the sensing modules 11a-11q. Therefore, the server 3 can obtain the inspection path information according to the identification data in the inspection signal sequentially received. For example, the servo end 3 may have a plan view of the area 2 (as shown in FIG. 2), and the numbers of the sensing modules 11a-11q and their positions are correspondingly marked on the plan view. Therefore, when the servo terminal 3 sequentially receives the inspection signal, the inspection path information may be generated according to the inspection signal and the plan view, that is, the passing path of the maintenance personnel in the area 2.

Thereby, the sensing signal generated by the sensing module of the security system 1 of the present invention in the inspection mode can provide a path for the controller or the user to know when the maintenance personnel perform maintenance in the area 2.

Please refer to FIG. 3, which is a schematic diagram of a second embodiment of the security system of the present invention. Please also refer to Figure 1 and Figure 2. As shown in the figure, the components of the security system in this embodiment are similar to those of the components described in the first embodiment, and therefore will not be described again. It should be noted that, in this embodiment, the sensing modules 11a-11q may further include an image capturing device 14 in addition to the sensor, and the image capturing device 14 may be a network camera or a conventional Monitor. Therefore, when the sensing modules 11a-11q generate the sensing signals, the corresponding image capturing device 14 performs an image capturing operation to obtain the image signals.

That is to say, one or more image capturing devices 14 can be disposed in the sensing modules 11a 11q of the present invention for image monitoring of the environment. As shown in FIG. 3, in the embodiment, an image capturing device 14 is disposed in one of the sensing modules 11h as an example, but not limited thereto. The image capturing device 14 is disposed in each of the measuring modules 11a to 11q. Therefore, when the sensing module 11h generates a sensing signal according to the touch of the maintenance personnel, the image capturing device 14 can sense the triggered by the linkage of the sensing module 11h or the control of the processing module 12. The block 20a in which the module 11h is located performs an image capturing operation to obtain an image signal by taking an image of the maintenance personnel passing through or repairing the sensing module 11h. The processing module 12 can also transmit the image signal to the server 3 to generate image information and store it. The server 3 can further combine the image information with the aforementioned inspection path information to obtain the inspection behavior information. Specifically, the inspection behavior information may provide an image of the maintenance process of the maintenance personnel in the area 2. The maintenance behavior information may also be stored on the server 3 for viewing.

In this way, the security system 1 of the present invention can not only provide the control personnel or the user through the inspection signal, but also learn the path taken by the maintenance personnel in the area for maintenance. The image signal generated by the image capture device 14 is used to provide the controller or the user with any behaviors performed by the maintenance personnel in the environment for maintenance.

Please refer to FIG. 4, which is a schematic diagram of a third embodiment of the security system of the present invention. Please also refer to Figure 1 to Figure 3. As shown in the figure, the components of the security system in this embodiment are similar to those of the components described in the above embodiments, and therefore will not be described again. It is to be noted that, in this embodiment, the security system 1 preferably further includes a memory module 15 connected to the processing module 12 and storing the maintenance signal, the warning signal and the image signal. In this way, the control personnel or the user can be provided to access historical or instant messages and images to know that the maintenance personnel have overhauled the sensing modules 11a-11q in the area 2, where they have passed or whether there is no touch and no need to repair the sensing. The modules 11a~11q, in turn, achieve the transparency of the maintenance behavior of the maintenance personnel, thereby achieving the effect of reassuring the user.

Moreover, the processing module 12 can transmit the inspection signal, the warning signal and the image signal to the server 3 for display and storage. Therefore, the security system 1 of the present invention can provide the controller 3 of the server 3 to obtain the information and images of the scene at the same time as the maintenance personnel in the area 2, and can also obtain the maintenance signal generated by the processing module 12, It is known which maintenance modules are overhauled by the maintenance personnel and the maintenance route information of the maintenance personnel. As shown in Fig. 2, when an outsider (such as a thief) enters the area 2, the sensing module (such as the sensing module 11e) touched by the outsider and the sensing module currently being repaired by the maintenance personnel (such as the sense) The measurement module 11a) is different. Therefore, when the servo terminal 3 receives the inspection signal that does not match the inspection path information, it is determined that the sensing module corresponding to the inspection signal that does not match the inspection path information senses an abnormality. That is, the controller of the server 3 can immediately pass the inspection signal generated by the processing module 12 and the inspection path information does not match, and the determination block 20e is invaded by an outsider at this time, thereby notifying the on-site maintenance personnel or other The security personnel can go to the maintenance or send the abnormal signal to the security system 1 by the server 3, so that the processing module 12 can control the warning module 13 to generate a warning message according to the abnormal signal to maintain the security of the area 2.

It can be seen that the security system 1 of the present invention can not only provide the controller or the user to know which of the sensing modules 11a 11q and the blocks 20a to 20j in the area 2 have been repaired by the maintenance personnel in the area 2, The control personnel at the servo terminal 3 can provide the maintenance system 1 in the maintenance mode by the maintenance signal, and can still monitor the area 2 for abnormal conditions such as an intruder, thereby improving the security of the environment.

Please refer to Figure 5, which is a flow chart of the maintenance method of the creation security system. Please also refer to Figures 1 to 4 together. As shown in the figure, the maintenance method of the security system of the present invention comprises the following steps: (S40): the authentication signal is received by the receiving module.

(S41): The mode is switched to the maintenance mode according to the authentication signal control system mode.

(S42): sensing whether there is a touch event by the sensing module, if yes, proceeding to step S43; if not, proceeding to step S44.

(S43): generating a sensing signal according to the touch event, and generating an inspection signal accordingly.

(S44): Another authentication signal is received by the receiving module.

(S45): According to the other authentication signal, the system mode is switched from the maintenance mode to the system mode before receiving the authentication signal.

The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of this creation shall be included in the scope of the appended patent application.

1‧‧‧Security system

10‧‧‧ receiving module

11a~11q‧‧‧Sensing module

12‧‧‧Processing module

13‧‧‧Warning module

3‧‧‧Server

Claims (14)

A security system has a system mode, the system mode includes an alert mode and a release alert mode, the security system includes: a receiving module, which receives an authentication signal; and a plurality of sensing modules are respectively set in one The plurality of sensing modules respectively generate a sensing signal according to a touch event; a processing module connecting the receiving module and the plurality of sensing modules, the processing The module receives the authentication signal and the sensing signals; wherein, when the processing module receives the authentication signal, the processing module switches the system mode of the security system to an inspection mode, and receives the The sensing signal is set to an inspection signal and transmitted to a remote server. The security system of claim 1, further comprising: a warning module connected to the processing module; wherein, when the security system is in the alert mode, the processing module receives the The sensing signal is set to a warning signal, and the warning module receives the warning signal and generates a warning message. The security system of claim 1 or 2, wherein the maintenance signals include an identification data associated with the locations of the corresponding sensing modules, and the servos are based on the inspection signals and phases. The corresponding identification data generates an inspection path information. The security system of claim 3, wherein the sensing module includes an image capture device, and the image capture device is generated when the sensing module generates the sensing signal Then capture the image to obtain an image signal. The security system of claim 4, wherein the image signal is transmitted to the server to generate image information, and the server generates an inspection behavior information according to the inspection path information and the image information. The security system of claim 4, further comprising a memory module connected to the processing module and storing the inspection signal and the image signal. The security system of claim 2, wherein when the processing module receives another authentication signal in the inspection mode, the processing module restores the security system to the one before receiving the authentication signal. System mode. The security system of claim 2, wherein the processing module switches the system mode from the maintenance mode or the de-alert mode to the alert when the processing module receives a setting signal. The mode, when the processing module receives a release signal, the processing module switches the system mode from the maintenance mode or the alert mode to the release alert mode. The security system of claim 1 or 2, wherein the triggering event is an external force contact or detecting an object displacement. The security system of claim 2, wherein the sensing module is a sensor, the receiving module is a card reader, and the warning module is a light emitting device, a sound output device or a display device. A security system has a system mode, the system mode includes an alert mode and a release alert mode, the security system includes: a receiving module, which receives an authentication signal; and a plurality of sensing modules are respectively set in one The plurality of sensing modules respectively generate a sensing signal according to a touch event; and a processing module that connects the receiving module and the plurality of sensing modules, Processing mode The group receives the authentication signal and the sensing signals; wherein, when the security system is in the alert mode, the processing module sets the received sensing signal as a warning signal, when the processing module is in the When the alert mode receives the authentication signal, the processing module switches the system mode of the security system to an overhaul mode, and sets the received sensing signal as an overhaul signal and transmits it to a remote server. . The security system of claim 11, wherein the maintenance signals include an identification data associated with the positions of the corresponding sensing modules, and the server is configured according to the inspection signals and corresponding The identification data generates an inspection path information. The security system of claim 12, further comprising a warning module connected to the processing module, wherein the server receives the inspection signal that is inconsistent with the inspection path information, and determines the inspection path The sensing module corresponding to the inspection signal that is inconsistent with the information senses an abnormality, and sends an abnormal signal to the processing module, and the processing module controls the warning module to generate a warning message. The security system of claim 12, wherein the sensing module includes an image capture device, and when the sensing module generates the sensing signal, the image capturing device captures The image is obtained by an image to be transmitted to the server to generate image information, and the server generates an inspection behavior information according to the inspection path information and the image information.