CN104570976A - Monitoring system and method - Google Patents

Abstract

The invention discloses a monitoring system. The monitoring system comprises processing equipment. The processing equipment acquires state information output by each piece of equipment and models the state information of each piece of equipment to obtain a tree model, wherein the tree model comprises a root node and a plurality of branch nodes connected to the root node. A display device of the processing equipment displays attribute information interfaces of the branch nodes included by the root node. The invention further provides a monitoring method. According to the monitoring system and the monitoring method, a user can conveniently check the state of the corresponding equipment.

Description

Monitoring system and method

technical field

The invention relates to a monitoring system and method.

Background technique

Currently, the state monitoring of each terminal equipment in a designated area such as a factory, a power station or a production line is carried out through a monitoring system. If the monitoring system is used to monitor the operating status and working environment of each terminal equipment, the monitoring system also Used to display the status information of each terminal device, such as displaying the status information of each terminal device through a portable device, wherein the status information of each terminal device can be displayed in a page of the portable device, and the user can display the status information on the portable device Slide your finger to view the status information of a terminal device. However, when the monitoring system monitors hundreds or even thousands of terminal devices, users need to spend more time searching for hundreds or thousands of status information, which brings great inconvenience to users in finding abnormal terminal devices. It is inconvenient and reduces the work efficiency of the user, and frequently checking the status information of a certain terminal device by sliding a finger may reduce the sensitivity of the portable device.

Contents of the invention

In view of the above, it is necessary to provide a monitoring system and method for conveniently viewing the status information of each device.

A monitoring system for monitoring several devices, the monitoring system comprising:

A network communication device, used to obtain different types of status information output by each device;

A display device, set in a processing device, the display device is used to display a monitoring interface;

a storage device for storing different types of state information output by each device; and

A processing device, used to obtain the state information output by each device transmitted by the network communication device, the processing device also models the state information output by each device to obtain a tree model, the tree model includes a node, The root node includes several branch nodes, each branch node includes several devices, each branch node includes a node attribute, and the node attribute of each branch node includes a collection of state information output by all devices connected to the branch node, each node has a corresponding On the monitoring interface of the node, the processing device displays an attribute information interface corresponding to the node attribute of the branch node in the monitoring interface of the root node.

A monitoring method for monitoring several devices, the monitoring method comprising:

Obtain different types of status information output by each device;

Modeling the state information output by each device to obtain a tree model, wherein the tree model includes a node and a number of branch nodes connected to the root node, each branch node includes a number of devices, and each branch node includes a Node attributes, the node attributes of each branch node include a collection of state information output by all devices connected to the branch node, each node has a monitoring interface corresponding to the node; and

The property information interface corresponding to the node properties of the branch nodes connected to the root node is displayed in the monitoring interface of the root node.

The above monitoring system and method obtains the status information output by each device, and models the status information of each device to obtain a tree model, and the display device of the processing device displays the child nodes of the next layer contained in each node Attribute information interface, so that users can view the status information of the corresponding device.

Description of drawings

Fig. 1 is a block diagram of a preferred embodiment of the monitoring system of the present invention.

FIG. 2 is a block diagram of a preferred embodiment of the processing apparatus of FIG. 1. FIG.

FIG. 3 is a block diagram of a preferred embodiment of the processing device of FIG. 2 .

FIG. 4 is a schematic diagram of the distribution of several devices in FIG. 1 .

Fig. 5 is a schematic diagram of the model establishment of the monitoring system of the present invention.

FIG. 6 is a schematic diagram of each node and its node attributes in FIG. 5 .

7 and 8 are schematic diagrams of a preferred embodiment of the monitoring interface of the present invention.

Fig. 9 and Fig. 10 are flowcharts of a preferred embodiment of the monitoring method of the present invention.

Description of main component symbols

processing equipment 10 Communications network 20 communication device 30 equipment 40 processing device 50 display device 100 storage device 102 input device 104 network communication device 106 bus 108 Timing Refresh Unit 500 model building unit 502 exception counting unit 504 communication detection unit 506 display drive unit 508 Factory A 60 Area A 600 Area B 601 Room L01 602 Room L02 604 Room L03 603 Room L04 605 monitoring interface 80, 70, 90 Attribute information interface 800, 801, 700, 701, 900, 901 first indication area 802, 803, 702, 703, 902, 903 Second indicator area 804, 805, 704, 705, 904, 905 third indicator area 806, 807, 706, 707, 906, 907 Sign information area 808, 809, 708, 709, 908, 909 title area 810, 811, 710, 711, 910, 911 status indicator area 812, 813, 712, 713, 912, 913

The following specific embodiments will further illustrate the present invention in conjunction with the above-mentioned drawings.

Detailed ways

Below in conjunction with accompanying drawing and preferred embodiment the present invention is described in further detail:

Please refer to FIG. 1 , a preferred embodiment of the monitoring system of the present invention includes several devices 40 , a communication device 30 connected to these devices 40 and a processing device 10 communicating with the communication device 30 through a communication network 20 . In this embodiment, each device 40 outputs several different types of status information corresponding to the device 40, such as running status information, communication status information, parameter status information, etc., wherein the running status information indicates the running status of the device, such as whether the device is normal Running; the communication status information indicates whether the communication between the device and the processing device 10 is smooth or interrupted; the parameter status information is the value obtained after intelligent processing of various parameter information output by the device 40 . The communication device 30 is used to send the different types of status information output by the devices 40 to the processing device 10 through the communication network 20, wherein the communication network 20 can be a Bluetooth network, a WLAN or a World Wide Web. In other embodiments, each device 40 can be directly connected to the processing device 10, for example, the processing device 10 can be connected to each device 40 through a CAN (Controller Area Network, controller area network) bus.

Please refer to Fig. 2, this processing device 10 comprises a display device 100, a storage device 102, an input device 104, a network communication device 106 and a bus 108 and the display device 100, storage device 102, input device 104 and The network communication device 106 is connected to the processing device 50 .

The network communication device 106 is connected to the communication device 30 through the communication network 20 to receive the status information of each device 40 transmitted by the communication device 30 . In other implementations, when each device 40 is directly connected to the processing device 10 , the network communication device 106 communicates with each device 40 through the CAN bus.

The display device 100 is used for displaying a monitoring interface, and the monitoring interface displays a plurality of monitoring information.

The input device 104 can be a mouse or a keyboard or a touch screen for performing an input operation.

The storage device 102 is used for storing different types of status information output by each device 40 .

Please refer to FIG. 3 together. The processing device 50 includes a timing refresh unit 500 , a model building unit 502 , an abnormality counting unit 504 , a communication detection unit 506 and a display driving unit 508 .

The communication detection unit 506 is used to receive the status information of each device 40 transmitted from the communication device 30 , including different types of status information such as communication status information, operation status information and parameter status information of each device 40 . The communication detection unit 506 also judges whether there is a device with an abnormal state, and when there is a device with an abnormal state, the communication detection unit 506 outputs abnormal signals corresponding to different state types of the abnormal device to the abnormal counting unit 504 For example, when the communication state of a device 40 is abnormal, the communication detection unit 506 outputs an abnormal signal corresponding to the abnormal communication state of the device with abnormal state to the abnormal counting unit 504; when the operating state of a device 40 is abnormal, the The communication detection unit 506 outputs an abnormal signal corresponding to the abnormal operation state of the abnormal equipment to the abnormal counting unit 504; The abnormal signal of abnormal parameter status is sent to the abnormal counting unit 504 .

When the abnormal counting unit 504 receives the abnormal signal output by the communication detection unit 506, the abnormal counting unit 504 calculates the abnormal number of different state types of the abnormal state device 40 according to the abnormal signal of the abnormal state device 40, To generate abnormal information corresponding to the abnormal state equipment 40, if the communication detection unit 506 detects that the abnormal type of the abnormal state equipment 40 includes abnormal signals of abnormal communication status and abnormal operating status, if the abnormal counting unit 504 After receiving an abnormal signal output by the communication detection unit 506 relative to an abnormal communication state of the abnormal device 40, the abnormal counting unit 504 judges that the abnormal number of the abnormal communication status of the abnormal device 40 is 1, if the abnormal When the counting unit 504 receives the abnormal signal output by the communication detection unit 506 relative to the abnormality of the two operating states of the abnormal device 40, the abnormal counting unit 504 judges that the abnormal number of abnormal operating states of the abnormal device 40 is 2. In this way, the abnormality information of the abnormal device 40 includes one abnormal communication state and two abnormal operating states.

In this embodiment, the model building unit 502 models the state information of each device 40 according to the location information of each device 40 to obtain a tree model, wherein the tree model includes a node. The root node includes several branch nodes, and each branch node includes several leaf nodes, and each leaf node may include several child nodes, and so on. Each node connected to the root node contains one or more devices, and each node (ie root node, branch node, leaf node, and child node) includes a node attribute, and the node attribute of each node is the device contained in the node. A collection of status information for all devices. In other embodiments, the model building unit 502 can model the state information of each device 40 according to other conditions, and then obtain a corresponding tree model, such as modeling according to the type of each device 40 as a condition, that is, the same type Devices are connected to the same node. In other implementation manners, the model building unit 502 can also model the status information and abnormality information of each device 40 according to the location information of each device 40 .

Now take the monitoring of equipment in a factory as an example, please refer to Fig. 4 to Fig. 6, a factory 60 includes an area A 600 and an area B 601, wherein the area A 600 includes a room L01 602 and a room L02 604, L01 room 602 includes a device 1 and a device 2, L02 room 604 includes a device 3 and a device 4; the B area 601 includes a L03 room 603 and a L04 room 605, L03 room 603 includes a device 5 and a Equipment 6, room 605 of L04 includes a equipment 7 and a equipment 8.

In this embodiment, the model building unit 502 builds a corresponding tree model according to the location information of each device 40 . For example, the root node (node 1) of the tree model corresponds to the plant A 60, and the branch nodes (node 2 and node 3) connected to the root node correspond to area A 600 and area B 601 respectively; The leaf nodes (node 4 and node 5) of the node (node 2) represent the L01 room 602 and the L02 room 604 respectively, and the leaf nodes (node 6 and node 7) connected to the branch node (node 3) represent the L03 respectively Each leaf node of the room 604 and the L04 room 605 includes a child node. In this embodiment, none of the sub-node devices 1 to 8 includes the child nodes of the next layer, so in the tree model, if there is a node that does not include the child nodes of the next layer, it means that the node represents the corresponding device of. For example, the child node device 1 and device 2 connected to the leaf node 4 represent the device 1 and device 2 respectively; the child node device 3 and device 4 connected to the leaf node 5 represent the device 3 and device 4 respectively; The child nodes Device 5 and Device 6 of the leaf node 6 represent the Device 5 and the Device 6 respectively; the child nodes Device 7 and Device 8 connected to the leaf node 7 represent the Device 7 and the Device 8 respectively. In other implementations, the number of state information of devices contained in each node may be different, for example, a leaf node 7 may only include a child node device 7, and a child node device 8 may be directly connected to a node 3 of a branch node.

The node attributes of each node include a collection of status information and abnormal information of all devices connected to the node. For example, the node attributes of node 1 include the set of status information and abnormal information output by equipment 1 to equipment 8, that is, the status information output by equipment 1 to equipment 8 and the abnormal information generated by the abnormal counting unit 504; the node attributes of node 2 include equipment A collection of status information and abnormal information output from 1 to device 4; a node attribute of node 3 includes a collection of status information and abnormal information output from device 5 to device 8; a node attribute of node 4 includes the output status information of device 1 and device 2 and the collection of abnormal information; the node attribute of node 5 includes the collection of status information and abnormal information output by device 3 and device 4; the node attribute of node 6 includes the collection of status information and abnormal information output by device 5 and device 6; node 7 The node attributes of device 7 and device 8 include the set of status information and exception information output by device 7; the node attributes of device 1 include the status information and exception information of device 1; the node attributes of device 2 include the status information and exception information of device 2 information; the node attribute of device 3 includes the status information and abnormal information of the device 3; the node attribute of device 4 includes the status information and abnormal information of the device 4; the node attribute of device 5 includes the status information and abnormal information of the device 5; The node attribute of the device 6 includes the status information and abnormal information of the device 6; the node attribute of the device 7 includes the status information and the abnormal information of the device 7; the node attribute of the device 8 includes the status information and the abnormal information of the device 8. In other implementation manners, if there is no abnormal information for each device in a node, the node attribute of the node may only include a set of state information of the devices included in the node.

The node attribute of each node connected to the root node corresponds to an attribute information interface, that is, the collection of status information and abnormal information of all equipment contained in the node is displayed in an attribute information interface, such as the attribute information of the branch node node 2 The interface displays a collection of status information and abnormal information including equipment 1 to equipment 4.

Each node has a monitoring interface corresponding to the node, and the display driving unit 508 is used to display the attribute information interface corresponding to the node attribute of the next layer node included in each node in the corresponding monitoring interface. For the monitoring interface of the root node (node 1), the monitoring interface 80 of the display driver unit 508 includes an attribute information interface 800 of the branch node node 2 and an attribute information interface 801 of the branch node node 3 (as shown in FIG. 7 ).

In this embodiment, the monitoring system is used to monitor the inverter and other equipment of a photovoltaic power station, that is, the plant A is the photovoltaic power station, and equipment 1 to equipment 8 are all inverters, and equipment 1 to equipment 8 are used for When converting solar energy into electrical energy, the parameter information output by each device includes the installed capacity of the device, the intensity of solar radiation, the electrical efficiency of the system, the current total power, the average power generation per kilowatt (KW) of the day, and the power generation of the day and other parameter status information.

Preferably, please refer to FIG. 7 and FIG. 8, the display driving unit 508 is used to display the monitoring interface 80 of node 1 in the display device 100, the monitoring interface 80 includes the attribute information interface 800 of node 2 and the attribute of node 3 Information interface 801 . The attribute information interface 800 includes a title area 810 , a status indication area 812 and a sign information area 808 , wherein the status indication area 812 includes first to third indication areas 802 , 804 and 806 . The title area 810 is used to display the name of the corresponding node, that is, "area A". The first indication area 802 is used to indicate the operating status of the equipment included in node 2, that is, the operating status of equipment 1 to equipment 4. For abnormal devices, for example, the normal working voltage of devices 1 to 4 is 3.3V, if there is a device with a working voltage of 4V among the devices included in node 2, at this time, the device can operate normally but will issue a warning, the display The drive unit 508 displays the first indication area 802 in orange; when there is a device included in the node 2 that stops running due to a fault, for example, when there is a device with an operating voltage of 5V among the devices included in the node 2 , the first indicator area 802 is displayed in red; when the devices included in node 2 are operating normally, for example, the operating voltage of all devices included in node 2 is 3.3V, the display driving unit 508 will display the first indicator Area 802 is shown in green. The second indication area 804 is used to indicate the parameter status of the equipment included in the node 2 . When there is a device with abnormal output parameters among the devices included in node 2 and the abnormality is preset as a general warning prompt, the display drive unit 508 will display the second indicator area 804 in orange; when the node 2 When there is a device with abnormal output parameters among the included devices and there is a predefined serious fault prompt in the abnormality, the second indicator area 804 will be displayed in red; when the output parameters of the devices included in node 2 are all normal, the The display driving unit 508 displays the second indicator area 804 in green. The third indicator area 806 is used to indicate the communication status of the equipment included in node 2. When the equipment included in node 2 has a normal communication with the processing equipment 10 but the equipment is in the local operation mode, and there is no communication disconnection with the processing device. When the device is opened, for example, there may be a device for local debugging among the devices included in node 2. When the device enters debugging, the communication between the device and the processing device is normal, but it will not output any data to the processing device. At this time, The device is in the local operation mode, and the display driver unit 508 displays the third indication area 806 as orange; The area 806 is displayed in red; when the devices included in the node 2 can communicate with the processing device 10 normally, the display driving unit 508 displays the third indication area 806 in green. In other implementation manners, the display driving unit 508 also displays the number of different abnormal state types included in the node in the corresponding indication area, for example, when node 2 includes a device with an abnormal communication state type, the attribute information of node 2 The third indicator area 806 in the interface 800 displays a number "1". The sign information area 808 is used to display the set of parameter status information of the equipment included in the node 2, for example, the total installed capacity is the sum of the inverter installed capacity in the parameter information output by the equipment 1 to equipment 4 included in the node 2. The average power generation per kilowatt is the average value of the average power generation per kilowatt of the day in the parameter information output by the equipment 1 to equipment 4 included in the node 2 . The attribute information interface 801 includes a title area 811 , a status indication area 813 and a sign information area 809 , wherein the status indication area 813 includes first to third indication areas 803 , 805 and 807 . The title area 811 is used to display the name of the corresponding node, that is, "Zone B", the first indication area 803 is used to indicate the operating status of the equipment contained in the node 3, and the second indication area 805 is used to indicate the equipment contained in the node 3 The parameter status of the third indicator area 807 is used to indicate the communication status of the equipment contained in the node 3 .

When the display driver unit 508 receives the input operation of the input device 104, such as clicking on the attribute information interface 810 of node 2, the display driver unit 508 will display the nodes of the next layer contained in node 2 (ie, node 4 and node 5) The attribute information interface of node 2 is displayed in the monitoring interface 70 of the node 2, such as the attribute information interface 700 of node 4 and the attribute information interface 701 of node 5. The attribute information interface 700 includes a title area 710 , a status indication area 712 and a sign information area 708 , wherein the status indication area 712 includes first to third indication areas 702 , 704 and 706 . The title area 710 is used to display the name of the corresponding node, namely "L01". The first indication area 702 is used to indicate the operating status of the devices included in node 4 (i.e., device 1 and device 2). device, the display drive unit 508 displays the first indicator area 702 in orange; when there is a device that stops running due to a fault among the devices included in the node 4, the first indicator area 702 is displayed in red; When the devices included in the node 4 are running normally, the display driving unit 508 displays the first indicator area 702 in green. The second indication area 704 is used to indicate the parameter status of the equipment included in the node 4 . When there is a device with abnormal output parameters among the devices included in node 4 and the abnormality is preset as a general warning prompt, the display drive unit 508 will display the second indicator area 704 in orange; when the node 4 When there is a device with abnormal output parameters among the included devices and there is a predefined serious fault prompt in the abnormality, the second indicator area 704 will be displayed in red; when the output parameters of the devices included in node 4 are all normal, the The display driving unit 508 displays the second indicator area 704 in green. The third indicator area 706 is used to indicate the communication state of the equipment included in the node 4. When the equipment included in the node 4 has a normal communication with the processing equipment 10 but the equipment is in the local operation mode, and there is no communication disconnection with the processing device. When the device is turned on, the display driver unit 508 will display the third indicator area 706 as orange; is red; when the devices included in the node 4 can communicate with the processing device 10 normally, the display driving unit 508 will display the third indicator area 706 in green. In other implementation manners, the display driving unit 508 also displays the number of different abnormal state types contained in the node in the corresponding indication area, for example, when the communication state type of a device included in node 4 is abnormal, the attribute information of node 4 The third indicator area 706 of the interface displays a number "1". The sign information area 709 is used to display a collection of parameter status information of the devices of the child nodes contained in the node 5 (ie, the device 3 and the device 4 ). The attribute information interface 701 includes a title area 711 , a status indication area 713 and a sign information area 709 , wherein the status indication area 713 includes first to third indication areas 703 , 705 and 707 . The title area 711 is used to display the name of the corresponding node, i.e. "L02", the first indication area 703 is used to indicate the operating status of the equipment contained in the node 5, and the second indication area 705 is used to indicate the status of the equipment contained in the node 5 Parameter status, the third indicator area 707 is used to indicate the communication status of the equipment included in the node 5 .

When the display driver unit 508 receives the input operation of the input device 104, such as clicking on the attribute information interface 700 of node 4, the display driver unit 508 will display the nodes of the next layer contained in node 4 (that is, device 1 and device 2 ) is displayed in the monitoring interface 90 of the node 4 , such as the attribute information interface 900 of the device 1 and the attribute information interface 901 of the device 2 . The attribute information interface 900 includes a title area 910 , a status indication area 912 and a sign information area 908 , wherein the status indication area 912 includes first to third indication areas 902 , 904 and 906 . The title area 910 is used to display the name of the corresponding node, that is, "equipment 1", the first indication area 902 is used to indicate the running state of the equipment 1, the second indication area 904 is used to indicate the parameter status of the equipment 1, and the second indication area 904 is used to indicate the parameter status of the equipment 1. The three indication area 906 is used to indicate the communication status of the device 1 , and the sign information area 908 is used to display various parameter information of the device 1 . In this embodiment, the communication between the device 1 and the processing device 10 is abnormal, therefore, the third indicator area 906 in the attribute information interface of the device 1 is displayed in red or orange. In other embodiments, if the device 1 has multiple abnormal parameter states (for example, three parameter states are abnormal), the second indicator area 904 of the attribute information interface 900 is displayed in red, and the character "3" is also displayed on the second indicator area 904. In the second indication area 904. The attribute information interface 901 includes a title area 911 , a status indication area 913 and a sign information area 909 , wherein the status indication area 913 includes first to third indication areas 903 , 905 and 907 . The title area 911 is used to display the name of the corresponding node, that is, "equipment 2", the first indication area 903 is used to indicate the running status of the equipment 2, the second indication area 905 is used to indicate the parameter status of the equipment 2, and the second indication area 905 is used to indicate the parameter status of the equipment 2. The three indication area 907 is used to indicate the communication state of the device 2 , and the sign information area 909 is used to display various parameter information of the device 2 . In this embodiment, when a node does not contain child nodes, that is, the node corresponds to a device. At this time, if the device corresponding to the node has abnormal state information, the indication area in the node attribute interface of the node will display the relative The indication information of the status abnormal type, for example, the third indication area 906 in the node attribute information interface 900 of the device 1 displays the indication information of the abnormal communication status.

The timing refresh unit 500 is used to set a preset time, and every preset time, the display drive unit 508 is triggered to refresh the sign information area in the attribute information interface of each node in the control interface, so as to timely update the node including each The purpose of the parameter information of the device.

Please refer to Fig. 9 and Fig. 10, a preferred embodiment of the monitoring method of the present invention includes the following steps:

In step S1 , the communication detection unit 506 of the processing device 50 obtains status information output by each device 40 . In this embodiment, the status information output by each device 40 includes the running status information, communication status information and parameter status information of the device.

In step S2, the communication detection unit 506 of the processing device 50 also determines whether there is an abnormal device, and if there is an abnormal device, execute step S3; otherwise, when there is no abnormal device, execute step S4.

In step S3, the abnormality counting unit 504 of the processing device 50 counts the different status abnormal types of the abnormal equipment respectively, so as to generate abnormal information corresponding to the abnormal equipment.

In step S4, the model building unit 502 of the processing device 50 models the state information and abnormality information output by each device according to the location information of each device, so as to obtain a corresponding tree model.

In step S5, the display driving unit 508 of the processing device 50 displays the attribute information interface corresponding to the node attribute of the next layer node included in the root node of the tree model in a monitoring interface.

Step S6, the display drive unit 508 of the processing device 50 displays the status indication information of all the devices included in the node in the status indication area in the attribute information interface of the node included in the monitoring interface, if all the devices in the node have Normal, the status indication area in the attribute information interface of the node in the monitoring interface is displayed in green; if there is an abnormal device in the node, the status indication area in the attribute information interface of the node in the monitoring interface is displayed in red or In orange, the display driving unit 508 of the processing device 50 also displays the abnormal numbers of different abnormal types of the equipment with abnormal status included in the node in the status indication area of the attribute information interface of the node.

In step S9, the display drive unit 508 of the processing device 50 judges whether to select an attribute information interface of a node; when the attribute information interface of a node is selected, execute step S10; otherwise, when the attribute information interface of a node is not selected, execute step S9 S13.

Step S10, the display driver unit 508 of the processing device 50 judges whether the selected node is a device; when the selected node is a device, execute step S12; when the selected node is not a device, execute step S11. In this implementation manner, when a node does not include a lower layer node, it means that the node is a device.

In step S11, the display driving unit 508 of the processing device 50 displays the attribute information interface of the next layer node included in the selected node.

In step S12, the display driving unit 508 of the processing device 50 displays an attribute information interface corresponding to the device.

In step S13, the display drive unit 508 of the processing device 50 periodically refreshes the parameter information in the sign information area in the attribute information interface of the node.

The above-mentioned monitoring system and method obtains the status information output by each device, and models the status information and abnormal information of each device to obtain a tree model, wherein the tree model includes a node, several nodes connected to the root node Branch nodes, several leaf nodes connected to each branch node and several child nodes connected to each leaf node, each node includes a corresponding node attribute; the display device 100 of the processing device 10 displays the nodes of the next layer contained in each node Attribute information interface, so that users can view the status information of the corresponding device. In addition, when there is a device with an abnormal state, the attribute information interface of the node containing the abnormal device will display the corresponding indication information, which is convenient for users to quickly find the abnormal device. Therefore, when searching for a device with an abnormal state, The user only needs to click the attribute information interface of the child node indicating the abnormal information, so that the user can search for the abnormal equipment in an orderly manner, thereby avoiding the problem of reducing the sensitivity of the equipment due to frequent user input operations.

Claims (11)

1. A monitoring system is used to monitor several devices, the monitoring system comprising: A network communication device, used to obtain different types of status information output by each device; A display device, set in a processing device, the display device is used to display a monitoring interface; a storage device for storing different types of state information output by each device; and A processing device, used to obtain the state information output by each device transmitted by the network communication device, the processing device also models the state information output by each device to obtain a tree model, the tree model includes a node, The root node includes several branch nodes, each branch node includes several devices, each branch node includes a node attribute, and the node attribute of each branch node includes a collection of state information output by all devices connected to the branch node, each node has a corresponding On the monitoring interface of the node, the processing device displays an attribute information interface corresponding to the node attribute of the branch node in the monitoring interface of the root node. 2. The monitoring system as claimed in claim 1, characterized in that: each branch node also includes some leaf nodes, and each leaf node includes several sub-nodes, when the attribute information interface of a node in the monitoring interface is selected, the processing The device displays, on the monitoring interface of the selected node, an attribute information interface corresponding to the node attributes of the next layer nodes included in the selected node. 3. The monitoring system according to claim 2, wherein the processing device includes a communication detection unit, a model building unit, a display drive unit and an abnormal counting unit, and the communication detection unit is used to obtain each The different types of state information output by the device, and also judge whether there is a device with an abnormal state according to the obtained state information of each device of different types. When there is a device with an abnormal state, the network detection unit outputs a corresponding Abnormal signals of different abnormal types are sent to the abnormal counting unit; the abnormal counting unit calculates the abnormal quantity of each abnormal type of the abnormal device according to the abnormal signal of the abnormal device, so as to generate abnormal information corresponding to the abnormal device; The model building unit models the state information and abnormal information of each device according to the location information of each device to obtain the tree model; the display drive unit states in the attribute information interface of each node containing the abnormal state device The abnormal indication information is displayed in the indication area. 4. The monitoring system according to claim 3, characterized in that: the attribute information interface of each node also includes a sign information area, and the sign information area shows a collection of parameter status information output by each device included in the node; The monitoring system also includes a communication device, which transmits the different types of status information output by each device to the network communication device of the processing device through a communication network, and the processing device also includes a timing refresh unit, which uses Refresh the parameter values in the sign information area of each node's device information interface at regular intervals. 5. The monitoring system according to claim 3, characterized in that: the display drive unit also displays the quantity corresponding to the abnormal state type in the state indication area in the attribute information interface of each node containing the abnormal state equipment; The attribute information interface of a node also includes a title area, the title area displays the name of the corresponding node, and the status indicator area of the attribute information interface of each node includes first to third indicator areas, and the first indicator area is used to indicate The operating status of each device included in the node; the second indicator area is used to indicate the parameter status corresponding to the result obtained after the parameters of each device included in the node are intelligently processed by the system; the third indicator area is used to indicate the node The communication status of each device contained in the node; when there are devices in the node that are operating normally but have issued a warning, and there is no device that is abnormal due to a fault, the first indicator area in the status indication area is displayed in orange; when When there is a fault in the equipment included in the node that causes the equipment to stop running, the first indicator area will be displayed in red; the display drive unit will also display the set of abnormal information corresponding to the abnormal operation status of the equipment included in the node on the In the first indication area, when the devices included in the node are operating normally, the display driver unit will display the first indication area in green; among the devices included in the node, there are devices with abnormal output parameters and the abnormalities are all When it belongs to the pre-defined general warning prompt, the second indication area in the status indication area is displayed in orange; when there is a device with abnormal output parameters among the devices included in the node and there is a pre-defined serious fault prompt in the abnormality , the second indication area is displayed in red; the display drive unit also displays in the second indication area the abnormal information set of abnormal parameters corresponding to the equipment contained in the node, when the parameters output by the equipment contained in the node are all When it is normal, the display drive unit displays the second indicator area as green; when the device contained in the node has normal communication with the processing device but the device is in the local operation mode, and there is no communication disconnection with the processing device When there is a device in the status indication area, the third indication area in the status indication area is displayed in orange; when there is a device that is disconnected from the processing device among the devices included in the node, the third indication area is displayed in red; the display The drive unit also displays in the third indicator area the set of abnormal communication information corresponding to the equipment contained in the node. When the equipment contained in the node communicates normally with the processing device, the display drive unit will display the The third indicator area is displayed in green. 6. The monitoring system according to any one of claims 1-5, characterized in that: when receiving an input operation for selecting an attribute information interface of a node, the display drive unit of the processing device also judges that the selected Whether the attribute information interface of the node is the attribute information interface of a device, when the attribute information interface of the selected node is the attribute information interface of a device, the display drive unit displays the attribute information interface of the device; wherein when a node does not include When the node is at the next layer, the display drive unit judges that the attribute information interface of the selected node is the attribute information interface of the device. 7. A monitoring method for monitoring several devices, the monitoring method comprising: Obtain different types of status information output by each device; Modeling the state information output by each device to obtain a tree model, wherein the tree model includes a node and a number of branch nodes connected to the root node, each branch node includes a number of devices, and each branch node includes a Node attributes, the node attributes of each branch node include a collection of state information output by all devices connected to the branch node, each node has a monitoring interface corresponding to the node; and The property information interface corresponding to the node properties of the branch nodes connected to the root node is displayed in the monitoring interface of the root node. 8. The monitoring method according to claim 7, characterized in that: the monitoring method further comprises: According to the different types of status information of each device, it is judged whether there is a device with an abnormal state; When there is a device with an abnormal state, calculate the number of abnormalities of each abnormal type of the device with an abnormal state according to the abnormal signal of the device with an abnormal state, so as to generate abnormal information corresponding to the device with an abnormal state; Modeling the status information and abnormal information of each device according to the location information of each device to obtain the tree model; and Abnormal indication information is displayed in the status indication area in the attribute information interface of each node including the abnormal equipment. 9. The monitoring method according to claim 7, characterized in that: the monitoring method further comprises: Displaying the parameter state information output by each device included in each node in the sign information area of the attribute information interface of the node; and Regularly refresh the parameter values in the sign information area in the attribute information interface of each node. 10. The monitoring method according to claim 7, 8 or 9, characterized in that: the monitoring method further comprises: When there are devices in the node that operate normally but issue warnings, and there are no devices that cause abnormal operation due to faults, the first indication area in the status indication area is displayed in orange; When there is a fault in the equipment included in the node that causes the equipment to stop running, the first indicator area is displayed in red; When all the devices included in the node are operating normally, the first indicator area in the status indicator area will be displayed in green; When there are devices with abnormal output parameters among the devices included in the node and the abnormalities are all predefined as general warning prompts, the second indication area in the status indication area will be displayed in orange; When there is a device with abnormal output parameters among the devices included in the node and there is a predefined serious fault prompt in the abnormality, the second indication area will be displayed in red; When the output parameters of the equipment included in the node are all normal, the second indicator area in the status indicator area will be displayed in green; When there is a device included in the node that communicates normally with the processing device but the device is in local operation mode, and there is no device that is disconnected from the processing device, the third indication area in the status indication area is displayed in orange ; When there is a device disconnected from the processing device among the devices included in the node, the third indication area is displayed in red; When there is a device with abnormal operation among the devices included in the node, the first indication area in the status indication area also displays the abnormal information set of the abnormal operation status of the abnormal device included in the node; When there is a device with abnormal output parameters among the devices included in the node, the second indication area in the status indication area also displays an abnormal information set of abnormal parameter status of the abnormal device included in the node; and When there is a device with abnormal communication with the processing device among the devices included in the node, the third indication area in the status indication area also displays the abnormal information set of the abnormal communication status of the abnormal device included in the node. 11. The monitoring method according to claim 10, characterized in that: the monitoring method further comprises: Judging whether an attribute information interface of a node is selected among several node attribute information interfaces in the currently displayed monitoring interface; When the attribute information interface of a node is selected, display the attribute information interface of the next layer node included in the selected node; When several node attribute information interfaces in the currently displayed monitoring interface are selected, determine whether the attribute information interface of the selected node is an attribute information interface of a device, wherein when the selected node does not include the next layer of nodes , determine that the attribute information interface of the node is an attribute information interface of a device; When the attribute information interface of the selected node is the attribute information interface of a device, the attribute information interface of the device is displayed.