TW202029005A - Cloud image push notification monitoring system - Google Patents

Abstract

A cloud image push notification monitoring system is configured to monitor a plurality of monitored device. The cloud image push notification monitoring system includes a plurality of actuator, a plurality of lens, a least one gateway device, a server and a mobile device. Wherein, the mobile device is configured to send a control command to the server. After the control module of the server receives the control command, send a driving command to the gateway device. After the gateway device receive the driving command, the gateway device drives the actuator and the lens. The lens screens the monitored device and produce a monitor image. The monitor image is transmitted to the server via the gateway device. The push module transmits the monitor image to the mobile device via the push message.

Description

Cloud image push notification monitoring system

A monitoring system, especially a cloud image push notification monitoring system

The Internet of Things technology is a very popular technology in recent years, allowing various electrical appliances to connect to the Internet through wireless communication modules, and to remotely and monitor through the network function, allowing users to control the equipment through the mobile APP. Further, the Internet of Things technology can also be used as a means of abnormal monitoring. Once an abnormality occurs, the user will be notified through the network to eliminate the abnormality and reduce the damage. Taiwan's new patent M423888 proposes a solution that is to set up a camera indoors and use image recognition technology to determine the abnormal state of the room. Although this technical solution can determine the abnormal state of the room, the image recognition technology requires a higher level of computing power, and the related equipment needs to use a higher specification processor, which leads to an increase in equipment cost. Moreover, real-time image transmission also requires more network bandwidth, which may occupy the use of network traffic. Moreover, the current image recognition technology cannot accurately determine the occurrence of abnormalities. The above three reasons have greatly increased the cost of the technical solution, and it is not easy to promote in practice. Therefore, how to solve the above problems is worth considering for those with ordinary knowledge in this field.

In view of the above problems, the present invention provides a cloud image push notification monitoring system, which monitors equipment through network control, push broadcast and image transmission, and is equipped with a box channel device to integrate monitoring information, which can effectively reduce the system setup cost and can Accurately transmit the actual scene when the suspected abnormality occurs. The present invention provides a cloud image push notification monitoring system suitable for monitoring multiple monitored devices. The cloud image push notification monitoring system includes multiple actuators, multiple camera lenses, at least one cassette device, a servo host, and a mobile device. Device. The actuator is arranged on the monitored device. The camera lens is set to face the monitored device and the control point respectively. The box channel device is communicatively connected with the actuator and the camera lens. The servo host is communicatively connected to the box channel device, and the servo host includes a push module and a control module. The push module is suitable for generating push information. The control module is suitable for transmitting a driving command to the cassette device. The mobile device is communicatively connected to the server host and receives the push information. Wherein, the driving command is transmitted to the cassette device, the cassette device drives the actuator and the camera lens, the camera lens shoots the monitored equipment and generates a surveillance image file, and the surveillance image file passes through the cassette device Sent to the server host, and the push module sends the monitored image file to the mobile device via the push information. In the above cloud image push notification monitoring system, the box channel device further includes a communication module, and the box channel device is communicatively connected to the server host via the communication module. The aforementioned cloud image push notification monitoring system further includes a sensor, which is set on the monitored device, and the sensor is adapted to detect the status of the monitored device and generate device status information. The aforementioned cloud image push notification monitoring system, wherein the device status information is sent to the server host, and the server host determines the device status information. If the device status information is abnormal, the server host generates at least one warning message and passes the The push module sends a warning message to the mobile device. In the above cloud image push notification monitoring system, if the device status information is abnormal, the server host obtains the device or control point image file from the camera lens and transmits it to the mobile device via the push module. In the aforementioned cloud image push notification monitoring system, the actuator is driven when the monitored device does not receive the driving instruction, and the servo host regards the monitored device as abnormal. In the aforementioned cloud image push notification monitoring system, the control module further includes a control rule table, and the control module generates the driving command according to the control rule table. In the above cloud image push notification monitoring system, the mobile device is further adapted to send a control command to the servo host, and after receiving the control command, the control module sends the driving command to the cassette device. The aforementioned cloud image push notification monitoring system, wherein one of the mobile devices is the main mobile device, and the main mobile device is suitable for authorizing other mobile devices so that the other mobile devices can receive the mobile device from the server host Push news. In the above cloud image push notification monitoring system, the main mobile device is also suitable for setting the control command and the driving command that the authorized mobile device can send.

The present invention provides a cloud image push notification monitoring system, which monitors various monitored equipment through the Internet and box channel devices, and informs users through push broadcasts and images, which can effectively monitor the status of various monitored equipment and reduce The cost of the system. Please refer to FIG. 1, which shows the cloud image push notification monitoring system of the present invention. The cloud image push notification monitoring system 100 is suitable for monitoring multiple monitored devices 10 and multiple control points. The monitored device 10 is, for example, a home appliance or electrical appliance monitored by the cloud image push notification monitoring system 100, and the control point is, for example, monitoring Location where the camera was taken. The cloud image push notification monitoring system 100 includes a plurality of actuators 110, a plurality of sensors 120, a plurality of camera lenses 130, a cassette device 140, a servo host 150, and a mobile device 160. The actuator 110 is arranged on the monitored device 10, and the actuator 110 is suitable for a device that drives the monitored device 10, and different actuators 110 are used due to different types of the monitored device 10. For example, motor actuators suitable for rolling doors, electronic switch actuators suitable for indoor lighting, etc. The sensor 120 is also disposed on the monitored device 10, and the sensor 120 senses the state of the monitored device 10 and generates device status information. The sensor 120 will sense different types of status information according to the type of the monitored device 10, such as a gas flow sensor suitable for gas stoves, a displacement sensor suitable for sensing the position of an iron rolling door, and so on. A plurality of camera lenses 130 are respectively arranged to face the monitored device 10 and the control point. That is to say, each monitored device 10 and the control point will have a corresponding camera lens 130 for shooting, and the camera lens 130 will shoot after receiving a driving instruction from the cassette device 140 to provide the monitored device 10 images. The cassette device 140 is communicatively connected to the actuator 110, the sensor 120 and the camera lens 130. The cassette device 140 is a Gateway device, which is connected to a plurality of actuators 110, sensors 120 and camera lenses 130, and receives or transmits data therewith. At the same time, the cassette device 140 is also communicatively connected to the server host 150, and receives or transmits data with the server host 150. In this embodiment, the information of the plurality of actuators 110, the sensor 120 and the camera lens 130 is first collected by the cassette device 140, and then transmitted to the servo host 150 via the cassette device 140. The configuration of the cassette device 140 can integrate the data of multiple actuators 110, sensors 120 and camera lens 130, so the data of multiple actuators 110, sensors 120 and camera lens 130 can be simultaneously transmitted to the servo host 150 And perform calculations. Further, in some embodiments, the cassette device 140 further includes a communication module, such as WIFI module, ZigBee module, Bluetooth, NB-IoT module, LoRa module, Sigfox module, radio frequency Modules and other wireless communication modules, or RS232 modules, RS422 modules, RS485 modules, Ethernet modules, and other wired communication modules, and the cartridge channel device 140 is connected to the servo host through the communication module. In an embodiment, the cassette device 140 is further adapted to receive a driving command from the servo host 150. After receiving the driving instruction, the cassette device 140 transmits the corresponding actuator 110 and the camera lens 130 according to the content of the driving instruction, and drives the monitored device 10 to act and the camera lens 130 to shoot. The server host 150 is the main computing center of the cloud image push notification monitoring system 100, which can be operated by a single server or jointly operated by multiple servers. The server host 150 is communicatively connected to the cassette device 140 and can transmit or receive data with the cassette device 140. In this embodiment, the server 150 further includes a push module 151 and a control module 152. The push module 151 is adapted to generate push information, and the push information is transmitted to the mobile device 160. The control module 152 is adapted to transmit a driving command to the cassette device 140. In a preferred embodiment, the control module 152 also includes a management and control rule table, and the control module 152 generates a driving command according to the management and control rule table. The control rule table includes a variety of conditional expressions, and the control module 152 determines whether the conditional expressions are established to generate a driving command and send it to the cassette device 140. In other words, the control module 152 will send a driving command under appropriate conditions, such as automatically shutting down the monitored device 10 when an abnormality occurs. In another embodiment, the control module 152 receives the control command from the mobile device 160 before generating the corresponding driving command and sending it to the cassette device 140. In one embodiment, the servo host 150 is adapted to receive the equipment status information from the sensor 120 and the monitoring image file of the camera lens 130, and obtain the equipment status information and the monitoring image file through the cassette device 140. In one embodiment, the server host 150 determines the device status information, and if it is determined to be abnormal, at least one warning message is generated, and the warning message is sent to the mobile device 160 via the push module 151. In addition, the surveillance image file of the camera lens 130 can also be transmitted to the mobile device 160 via the push module 151. Among them, the abnormal conditions judged by the servo host 150 include the actuator 110 being driven when the drive command is not received (for example, the rolling door is opened by external force), and the monitored device 10 is operating for more than a certain period of time (for example, the gas stove is not closed) Wait. The mobile device 160 is a device used by the user, such as a smart phone or a tablet computer. The mobile device 160 is communicatively connected to the server host 150, and receives push information, equipment status information, monitoring image files, and warning information from the server host 150. In other words, the user can browse or receive push information, equipment status information, monitoring image files, and warning information from the server 150 via the mobile device 160. In addition, the mobile device 160 is also suitable for inputting a control command. The control command is, for example, instructing to drive a monitored device 10. The control command will be sent to the servo host 150. After the control module 151 of the servo host 150 receives the control command, it will The drive instruction is generated according to the content of the control instruction, and the drive instruction is transmitted to the cassette device 140, so that the cassette device 140 drives the corresponding actuator 110, and further starts the monitored device 10. In other embodiments, the mobile device 160 can also directly send drive commands to the cassette device 140, that is to say, the mobile device 160 can directly drive the monitored device 10 connected to the cassette device 140 without going through the servo host 150. Start or control. In another embodiment, the cloud image push notification monitoring system 100 may support multiple mobile devices 160, and one of the mobile devices 160 can be used as the main mobile device 160 and authorized to other mobile devices 160. The main mobile device 160 can input control instructions or drive instructions to remotely control the monitored device 10. After remotely controlling the monitored device 10, the push information sent by the server host 150 will be sent to the mobile device 160 as the main operation and its authorized mobile device 160, that is, even if the authorized mobile device 160 does not issue a control command or drive The command can also receive push information sent by the server host 150. Further, the mobile device 160 as the main operation can further set which authorized mobile device 160 can receive the push information. In addition, the mobile device 160 as the main operation can also be configured to drive or control commands issued by the authorized mobile device 160. In other words, the authority granted by the mobile device 160 that is mainly operated includes the monitored device 10 that can be controlled by the individual mobile device 160. The authorized mobile device 160 can also issue control commands and drive commands, but the authorized mobile device 160 can issue The control instructions and drive instructions of are restricted by the authority of the main operating mobile device 160. For example, the mobile device 160 that is mainly operated can authorize the specific monitored device 10 to be remotely controlled by the specific mobile device 160, and the mobile device 160 that is mainly operated can also remotely control the specific monitored device 10. Please refer to Figures 2 and 3. Figures 2 and 3 are schematic diagrams of the use of the cloud image push notification monitoring system. In the embodiment of Figs. 2 and 3, the monitored device 10 is an iron rolling door. Please refer to FIG. 2 first. The user can send a control command to the server host 150 through the mobile device 160. The control command is, for example, "open the rolling door". The control command is sent to the servo host 150, and the servo host 150 sends the corresponding driving command to the cassette device 140. The cassette device 140 drives the actuator 110 in the iron rolling door 10 to open the iron rolling door according to the content of the driving command. Next, please refer to FIG. 3. After the rolling door 10 is opened, the cassette device 140 drives the camera lens 130 to take a picture, so the camera lens 130 generates a surveillance image file. The monitored image file will then be sent to the server host 150 via the cassette device 140. At this time, the push module 151 of the server host 150 generates push information, and sends the push information to the mobile device 160, and the monitoring image file is entrained in the push information and sent to the mobile device 160. That is to say, in the embodiments of FIGS. 2 and 3, the user inputs a command via the mobile device 160 to remotely open the iron rolling door 10, and the cloud image push notification monitoring system 100 opens the iron rolling door 10. After the iron rolling door 10 is opened, the state of the iron rolling door 10 is captured through the camera lens 130, and the user can receive the notification and image of the opening of the iron rolling door 10 through the mobile device 160. Please refer to FIG. 4, which is a schematic diagram of an abnormal state. In this embodiment, the iron rolling door 10 is forcibly opened by the intervention of external force. At this time, the device status information of the sensor 120 is sent to the server host 150 via the cassette device 140. After the servo host 150 receives the equipment status information, since the rolling door 10 is opened without receiving a driving command, the servo host 150 determines that it is abnormal. At this time, the server host 150 will obtain the surveillance image file from the camera lens 130 via the cassette device 140, and the servo host 150 will generate at least one warning message. The server host 150 will send the surveillance image file and the warning message to the mobile via push broadcast.装置160。 Device 160. In other words, once the cloud image push notification monitoring system 100 finds that the monitored device 10 has an abnormal state, it will notify the user of the image of the monitored device 10 through push broadcast, so that the user can grasp the abnormal state in the first time And exclude it. The cloud image push notification monitoring system 100 of the present invention manages the actuator 110, the sensor 120, and the camera lens 130 of the monitored equipment 10 in the field through the box channel device 140, and the box channel device 140 is connected to the servo host 150 . The user connects to the server 150 through the mobile device 160, and can use the mobile device 160 to remotely control the monitored device 10, and after successfully controlling the monitored device, the mobile device 160 will receive push notification messages and images of the monitored device status. And when the monitored device 10 is abnormal, the user will also receive push notification messages and images of the monitored device status. Allow users to better grasp the actual situation and eliminate abnormal conditions in real time. The description of the present invention is as above, but it is not intended to limit the scope of patent rights claimed in this creation. The scope of its patent protection shall be determined by the attached scope of patent application and its equivalent fields. Any person with ordinary knowledge in the field, without departing from the spirit or scope of this patent, makes changes or modifications that are equivalent changes or designs completed under the spirit of this creation, and should be included in the following patent scope Inside.

10: Monitored equipment, iron rolling door 100: Cloud image push notification monitoring system 110: Actuator 120: Sensor 130: Camera lens 140: Cartridge device 150: Servo host 160: Mobile device

Figure 1 illustrates the cloud image push notification monitoring system of the present invention. Figures 2 and 3 show schematic diagrams of the use of the cloud image push notification monitoring system. Figure 4 shows a schematic diagram of an abnormal state.

10: monitored equipment

100: Cloud image push notification monitoring system

110: Actuator

120: Sensor

130: camera lens

140: Box Road Device

150: Servo host

160: mobile device

Claims (10)

A cloud image push notification monitoring system suitable for monitoring multiple monitored devices and multiple control points. The cloud image push notification monitoring system includes: multiple actuators arranged on the monitored device; multiple camera lenses, respectively It is set to face the monitored equipment and the control point; at least one cassette device, which is communicatively connected to the actuator and the camera lens; a servo host, which is communicatively connected to the cassette device, the servo host includes: a push broadcast A module is suitable for generating a push broadcast information; and a control module is suitable for sending a driving command to the cassette device; and a plurality of mobile devices, which are communicatively connected to the server host, and receive the push broadcast information; wherein After the drive command is transmitted to the cassette device, the cassette device drives the actuator and the camera lens, and the camera lens captures the monitored equipment or the control point and generates a surveillance image file through which the surveillance image file passes The box channel device is sent to the server host, and the push module sends the monitored image file to the mobile device via the push information. According to the cloud image push notification monitoring system described in the first item of the patent application, the box channel device further includes a communication module, and the box channel device is communicatively connected to the server host via the communication module. The cloud image push notification monitoring system described in item 1 of the scope of the patent application further includes a sensor, which is set on the monitored device, and the sensor is adapted to detect the state of the monitored device and generate a Status information of monitored equipment. For example, the cloud image push notification monitoring system described in item 4 of the scope of patent application, wherein the monitored device status information is sent to the server host, and the server host determines the monitored device status information, if the monitored device status information is Abnormal, the server host generates at least one warning message, and sends the warning message to the mobile device through the push module. For example, the cloud image push notification monitoring system described in item 5 of the scope of patent application, wherein, if the monitored device status information is abnormal, the server host obtains the device or the control point image file from the camera lens, and uses the push The broadcast module is sent to the mobile device. For example, in the cloud image push notification monitoring system described in item 5 of the scope of patent application, the actuator is driven when the monitored device does not receive the driving instruction, and the servo host determines that the monitored device is abnormal. According to the cloud image push notification monitoring system described in item 1 of the scope of patent application, the control module further includes a control rule table, and the control module generates the driving command according to the control rule table. For example, the cloud image push notification monitoring system described in the first item of the scope of patent application, wherein the mobile device is further adapted to send a control command to the servo host, and after receiving the control command, the control module sends the driving command to the Box road device. For example, in the cloud image push notification monitoring system described in claim 1, wherein one of the mobile devices is the main mobile device, and the main mobile device is suitable for authorizing other mobile devices so that other mobile devices The device can receive the push information from the server host. The cloud image push notification monitoring system described in item 9 of the scope of patent application, wherein the main mobile device is also suitable for setting the control command and the driving command that the authorized mobile device can send.

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