TW201530506A - Cloud group monitoring system - Google Patents

Abstract

A kind of cloud group monitoring system is applicable to a group of remote ends for monitoring environmental parameters at multiple locations and also gives an alarm, which comprises a plurality of monitoring devices mounted at said locations respectively, and a cloud server connected electrically to the monitoring devices. Each monitoring device can sense environmental parameters and issue a corresponding alarm signal. The cloud server has multiple built-in group rules which can be compared to find its corresponding group rules in accordance with the alarm signal and then accordingly issue the alarm message to a chief contact person and a secondary contact person of the group rules. The plurality of monitoring devices are grouped and controlled via the cloud server, the group mutual mode is employed to design alarm scheme, thereby enhancing environmental parameters monitoring and emergency treatment efficiency of the monitoring devices located within a group, this invention is an innovative monitoring system design.

Description

Cloud group monitoring system

The invention relates to a monitoring system, in particular to a monitoring system for group monitoring through cloud technology.

The status monitoring of the existing manufacturing equipment and production equipment is performed by pre-installing an emergency button or a detecting unit, such as when the equipment is damaged or a public security event occurs, by pressing the emergency button, or the detecting unit When the sensing environment parameter does not meet the specified conditions, the alarm is activated, and the preset alarm message is sent to a receiving end, and the user of the receiving end is notified to rush to the scene to cancel the fault condition or try to control and improve the environmental parameters. However, the current alarm notification design transmits the alarm message to a single receiving end. If the receiving end does not find the alarm message in time, it will delay the timing of the equipment repair or the optimal timing of environmental control, causing a major loss.

In recent years, cloud technology has begun to rise. Many companies will buy space with cloud service providers, or set up a cloud server for the company's operation, and set up data or software on the cloud server for employees to log in to the cloud anytime, anywhere. The required information or office, the cloud server controls the circulation of all data. Therefore, if the cloud service and monitoring system can be integrated, the functionality and value of the monitoring system will be greatly improved.

Accordingly, it is an object of the present invention to provide a monitoring system for grouping environmental parameter monitoring and alerting via cloud services.

Therefore, the cloud group monitoring system of the present invention is suitable for grouping remote monitoring of environmental parameters of multiple locations and performing alarms, including a plurality of monitoring devices respectively installed at the locations, and a signal that can be connected to the monitoring devices Connected cloud server. Each monitoring device includes at least one detecting unit, and a micro control unit connected to the detecting unit, wherein the detecting unit can sense a specific environmental parameter and correspondingly output a detecting signal, and the micro control unit can be The detection signal is driven to send an alarm signal, and the alarm signal has specific identification data. The cloud server can receive the alarm signal sent by the monitoring device, including a rule database, and a central control unit. The rule database has multiple group rules, and each group rule has multiple The identification information of the monitoring device, a primary contact information, and at least one secondary contact data, the central control unit may compare the corresponding group from the rule database according to the identification information of the received alarm signal Rules, and send an alert message according to the primary contact information of the group rule, and when the reply message is not received in response to one of the primary contact information within one reply time, the contact person according to the group rule The data is sent again with this alert message.

The utility model has the advantages of: grouping and controlling a plurality of monitoring devices through the cloud server, and designing alarms by using the group mutual assistance mode, thereby improving environmental parameter monitoring and emergency processing efficiency of the monitoring device setting locations in the group; Is a fairly innovative monitoring system design.

3‧‧‧Monitor

31‧‧‧Detection unit

32‧‧‧Automatic processing unit

33‧‧‧Micro Control Unit

4‧‧‧Cloud Servo

41‧‧‧Rules database

42‧‧‧Central Control Unit

421‧‧‧Central Control Module

422‧‧‧Time Module

800‧‧‧Electronic devices

801‧‧‧Location

901~909‧‧‧Steps

Other features and effects of the present invention will be apparent from the following description of the embodiments of the present invention. FIG. 1 is a schematic diagram of a preferred embodiment of a cloud group monitoring system. FIG. 2 is a schematic diagram of the preferred embodiment. Functional block diagram; and Figure 3 is a flow chart of the steps in the execution of the preferred embodiment.

As shown in FIG. 1 and FIG. 2, the cloud group monitoring system of the present invention is applicable to grouping and monitoring environment parameters of a plurality of different locations 801 through cloud mode integration, and detecting when an environmental parameter changes or is abnormal. The electronic device 800 used by the corresponding primary contact and the secondary contact is immediately notified. The environmental parameter may be ultraviolet light intensity in air, gas concentration, fire smoke concentration, temperature or humidity, or water pH, conductivity, turbidity or bacterial concentration, or voltage and current of the device. Signal changes, etc., or vehicle anti-theft systems, etc., as long as the sensor can be detected by the sensor is the scope of the aforementioned environmental parameters. The electronic device 800 used by the primary contact and the secondary contact is of a type that can be connected to a telephone communication network or the Internet for data transmission, such as a mobile phone, a tablet computer, a notebook computer, or a desktop computer, but not Limited to the above types.

The cloud group monitoring system includes a plurality of monitoring devices 3 and a cloud server 4 connected to the monitoring devices 3 and the electronic devices 800 via a telephone communication network and/or an internet signal.

The monitoring devices 3 are respectively disposed at different locations 801, for example For example, they are set in different households, company factories, or different fish tanks or breeding ponds. Each of the monitoring devices 3 includes a plurality of detecting units 31, a plurality of automatic processing units 32, and a signal connected to the detecting units 31 and the micro-control units 33 of the automated processing units 32.

The detecting unit 31 can respectively sense one of the environmental parameters as described above, and correspondingly output a detecting signal, for example, for detecting fire smoke or gas, etc., and the detecting unit 31 generates the detecting The test signals respectively have a detection data about the measured environmental parameters, and a type identification data for identifying the type of the detection unit 31.

The automated processing units 32 can be respectively driven by the micro control unit 33 to start changing the environmental parameters of the location 801, for example, being activated to sprinkle water to reduce the fire smoke concentration and the like. In an implementation, the automatic processing unit 32 can be configured to change the environmental parameter according to the type of the environmental parameter detected by the detecting unit 31, for example, when the detecting unit 31 detects the humidity type in the air. The automatic processing unit 32 may be a humidifier capable of increasing the humidity of the air, or a dehumidifier capable of reducing the humidity; when the detecting unit 31 is detecting the gas, the automated processing unit 32 is capable of exhausting a ventilation device, or a power door and window that can be driven to open; when the detecting unit 31 is used to detect the electrical signal of the device, the automatic processing unit 32 can be a power-off device capable of turning off the power of the device; Alternatively, when the detecting unit 31 detects the intensity of the ultraviolet light, the automated processing device may be an electric sunshade device that can be driven by the micro control unit 33 to be deployed. Since the types of the detection units 31 and the automatic processing units 32 are numerous, the implementation is not limited to the above categories. .

The micro-control unit 33 can be triggered by the detection signal of the detecting unit 31, and send an alarm signal to the cloud server device 4 through the telephone communication network or the Internet, and the content of the alarm signal includes the detection signal. The data, and an identification data representing the location 801 or identity of the micro control unit 33. And the micro control unit 33 can be driven by the cloud server 4 to automatically control the operation of the corresponding automatic processing unit 32. In this embodiment, the micro control unit 33 is an Arduino single-chip microcomputer, but the implementation is not limited thereto.

The cloud server 4 can be connected to the micro control unit 33 of the monitoring device 3 and the electronic device 800 via a telephone communication network and an Internet to exchange data. Since the cloud server device 4, the monitoring device 3 and the electronic device 800 communicate with each other to exchange data as a conventional technology and the manner is numerous, and is not the focus of the present invention, it will not be described in detail.

The cloud server device 4 includes a rule database 41 and a central control unit 42. The rule database 41 has a plurality of group rules, and a plurality of automatic rules and a plurality of alarm messages respectively corresponding to different types of identification data. Each group rule has multiple identification materials, and multiple primary contact data, multiple secondary contact data and multiple processed messages corresponding to different identification data.

When the rule database 41 establishes the group rules, according to the installation location or function attribute of the monitoring devices 3, or the mutual contact of the primary contact or the secondary contact of the location of each monitoring device 3, The monitoring devices 3 form a plurality of groups 802, each group 802 corresponding to a group rule, and the identity identification data of the monitoring devices 3 of the same group 802 are established in each group rule, and Each of the identification materials establishes a primary contact data and one or more secondary contact data, wherein the secondary contact data is the primary contact data corresponding to the other identification data in the same group rule, that is, The primary contact information in the same group rule can be used as the secondary contact data of other identification data to play the role of group mutual assistance.

The automation rules are respectively corresponding to the type identification data of the detection units 31, and respectively correspond to the automatic processing units 32 of the monitoring devices 3, and each automation rule can be used to drive the monitoring devices 3 The micro control unit 33 causes the micro control units 33 to respectively drive and control the corresponding automation processing unit 32 to change the corresponding environmental parameters.

The alarm messages are respectively corresponding to different types of identification data, and respectively have different contents, and can be outputted by the electronic device 800 that receives the alarm messages, so that the user can know which type of detection unit 31 is currently being detected. Abnormal environmental parameters were detected.

The central control unit 42 includes a central control module 421 and a timing module 422. The central control module 421 can analyze each of the alarm signals from the monitoring devices 3, and compare the identification data and the type identification data entrained by the alarm signal, and compare the built-in data from the rule database 41. A group rule with the identification data and an automated rule and alert message corresponding to the category identification data. The central control module 421 can also be compared according to And the contact information corresponding to the identity data in the group rule is sent to the electronic device 800 corresponding to the primary contact data by the contact information, and the notification is sent to the electronic device 800 corresponding to the primary contact data The main contact of the electronic device 800 is used. At the same time, the central control module 421 drives the timing module 422 to start timing a reply time. If a reply message of the primary contact information is received during the reply time period, the central control module 421 transmits the reply message of the group rule to the electronic device corresponding to the contact data. 800, let the contact know that the main contact has gone to handle. If the reply message is not received at the end of the reply time, the central control module 421 will transmit the alarm message to the electronic device 800 corresponding to the contact data, thereby notifying the contact to handle the processing. . When the identification data corresponds to multiple secondary contact data, the central control module 421 transmits the reply message and the alarm message to the electronic device 800 corresponding to all the secondary contact data.

When the cloud group monitoring system of the present invention is installed and installed, the monitoring device 3 can be installed and installed at the predetermined monitoring location 801, that is, the detecting unit 31 is installed at each of the locations 801 to be monitored and the automated processing is performed. The unit 32 is connected to the detection unit 31 and the automatic processing unit 32 by the micro control unit 33. Then, the monitoring devices 3 are grouped, that is, the group rules are established in the rule database 41 of the cloud server 4, and the same group is established in each group rule. The identification information of all monitoring devices 3, and the corresponding primary contact information, secondary contact information, and the reply message. Then, further detecting the detection unit 31 used by the monitoring devices 3 The type and type identification data is used to establish a corresponding alarm message in the rule database 41, and the automation rules are established in the rule database 41 for the functions of the automated processing unit 32, that is, the cloud group monitoring is completed. The construction of the system.

The following describes the functions of the present invention in terms of the flow of steps in the operation of the cloud group monitoring system of the present invention.

First, in step 901, the monitoring devices 3 respectively start monitoring the environmental parameters of the location 801. After each monitoring device 3 is activated, the detecting units 31 respectively start detecting specific environmental parameters of the environment. The following is an example of detecting fire smoke, and detecting unit 31 for detecting fire smoke. When the fire smoke is sent, a detection signal is sent to the micro control unit 33, and the micro control unit 33 is triggered to output an alarm signal containing the detection signal and the identification data to the cloud server 4.

Step 902: After receiving the alarm signal, the central control module 421 of the cloud server device 4 first compares the type identification data of the detection signal entrained by the alarm signal from the rule database 41. If there is a corresponding automation rule, if there is a corresponding automation rule, then steps 903 and 904 are executed. If there is no corresponding automation rule, step 906 is executed.

In step 903, the cloud server device 4 determines whether the automation rule has been transmitted to the monitoring device 3, and if so, indicates that the monitoring device 3 changes the environment parameter after starting the automatic processing unit 32. The measuring unit 31 still detects fire smoke, indicating environmental parameters. If it is not controlled or improved, step 905 will be continued. If the automated rule is compared to the monitoring device 3 for the first time, execution 904 is continued. In step 904, the cloud monitoring device 3 returns the automation rule to the monitoring device 3 that sends the alarm signal, and drives the micro control unit 33 to drive and control the corresponding automatic processing unit 32 to operate, thereby changing environmental parameters, such as driving The sprinkler type automated processing unit 32 begins to sprinkle water to reduce or eliminate fire smoke.

In step 905, when the cloud server 4 cannot compare the corresponding automation rules, the cloud server 4 compares the corresponding alarm message from the rule database 41 according to the type identification data entrained by the alarm signal, and according to the alarm. The identification data entrained by the signal compares the corresponding group rule, and compares all the primary contact data and the secondary contact data corresponding to the identification data in the group rule, and sends the alert message first. The electronic device 800 corresponding to the main contact data.

Then, the steps 906 and 907 are executed, and the cloud server device 4 determines whether a reply message corresponding to the main contact information is received within the reply time. If yes, step 908 is performed, if not received within the reply time. To reply to the message, go to step 909. In step 908, the cloud server 4 transmits a reply message to the electronic device 800 corresponding to all the secondary contact data, so that all the secondary contacts know that the primary contact is already being processed. In step 909, the cloud server device 4 transmits the alarm message to the electronic device 800 corresponding to all the secondary contact data, so as to notify the secondary contacts to go to the process to avoid the disaster.

By grouping a plurality of monitoring devices 3 and issuing When the main contact information of the monitoring device 3 of the alarm signal does not reply to the alarm message, the alarm message is immediately forwarded to the design of the secondary contact data in the same group rule, and the group management can be located in a plurality of different locations. The monitoring device of 801 uses group mutual assistance to ensure that when a monitoring device 3 sends an alarm message, someone will definitely go to the processing, which can completely improve the shortcomings of the conventional alarm system. Further, in conjunction with preset automation rules, grouping the automated processing units 32 that drive the monitoring devices 3 to operate to change environmental parameters is quite convenient.

In this embodiment, the cloud server device 4 sends the alarm message according to the primary contact data and the secondary contact data after the operation of driving the monitoring device 3 to change the environmental parameter fails, but in implementation, When the automation rule is transmitted to the monitoring device 3, an alarm message is also issued simultaneously to notify the relevant contact person in synchronization. In addition, when implemented, the automated processing unit 32 and the automated rules are not necessary, so that when the cloud server 4 receives the alarm signal, the cloud server 4 sends the alarm message according to the corresponding primary contact data and the secondary contact data. Notify the relevant contact person to proceed.

In summary, by controlling the design of the plurality of monitoring devices 3 in a grouping manner, the group mutual assistance mode can be utilized to improve the environmental parameter monitoring and emergency processing efficiency of the monitoring device 3 setting locations 801 in the group, which can be avoided. The existing alarm system only informs a single receiving end, and the receiving end does not receive the message and misses the aging effect. When the primary contact corresponding to the monitoring device 3 that issued the alarm signal cannot go to the processing, the other contact person can be notified immediately. Is a fairly innovative monitoring system design. Therefore, indeed The object of the invention can be achieved.

The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent changes and modifications made by the patent application scope and patent specification content of the present invention, All remain within the scope of the invention patent.

3‧‧‧Monitor

31‧‧‧Detection unit

32‧‧‧Automatic processing unit

33‧‧‧Micro Control Unit

4‧‧‧Cloud Servo

41‧‧‧Rules database

42‧‧‧Central Control Unit

421‧‧‧Central Control Module

422‧‧‧Time Module

800‧‧‧Electronic devices

Claims (5)

A cloud group monitoring and alarming system is suitable for grouping remotely monitoring environmental parameters of multiple locations and performing alarms, and includes: a plurality of monitoring devices respectively installed at the locations, each monitoring device including at least one detection The unit and the signal are connected to the micro control unit of the detecting unit, and the detecting unit can sense a specific environmental parameter and correspondingly output a detecting signal, and the micro control unit can be driven by the detecting signal to issue an alarm correspondingly. a signal, and the alarm signal has specific identification data; and a cloud server connected to the monitoring device to receive the alarm signal sent by the monitoring device, the cloud server includes a rule database, and a In the central control unit, the rule database has a plurality of group rules, each group rule stores identification information of a plurality of monitoring devices, a primary contact information, and at least one secondary contact data, and the central control The unit may compare the corresponding group rule from the rule database according to the identification data of the received alarm signal, and root The primary contact information of the group rule sends an alert message, and when a reply message corresponding to one of the primary contact information is not received within one reply time, the contact information according to the group rule is sent again. Alert message. The cloud group monitoring system of claim 1, wherein each monitoring device further comprises at least one automatic processing unit that can be driven by the micro control unit to change an environmental parameter of the location, and the alarm sent by each micro control unit The signal also has a type of identification corresponding to the detection signal In addition, the rule database further has a plurality of automatic rules corresponding to the specific type identification data, and the central control unit can compare the automation corresponding to the type identification data of the alarm signal from the rule database. The rules are sent to the monitoring device that issued the alarm signal, and the micro control unit of the monitoring device can be driven by the automation rule to drive the operation of the automated processing unit. The cloud group monitoring system of claim 2, wherein the central control unit comprises a central control module and a timing module, wherein the central control module can identify the data and the type identification data according to the identification signal of the alarm signal Corresponding group rules and automation rules are compared from the rule database, and the alarm message can be sent according to the primary contact information and the contact information, and the timing module is based on the central control module. The primary contact sends the alert message and begins timing the reply time. The cloud group monitoring system of claim 3, wherein the central control module sends a processed message according to the contact information when receiving the reply message within the reply time. The cloud group monitoring system of claim 2, wherein the rule database further has a plurality of alarm messages respectively corresponding to different types of identification data, and the central control unit identifies the data according to the type of the alarm signal from the rule data. After the Kubie responds to the corresponding alert message, the alert message is sent.