CN109245934B - Fault processing method, device, system, control equipment and management equipment - Google Patents

Abstract

The disclosure provides a fault processing method, a fault processing device, a fault processing system, a control device and a management device, and relates to the field of fault processing. The method comprises the following steps: if the state roll call data issued by the gateway concentrator is not received, the channel configuration data is sent to other gateway concentrators; sending a channel change success message to the management device through the first gateway concentrator, wherein the first gateway concentrator is a gateway concentrator responding to channel configuration data; and receiving the address configuration information sent by the management equipment through the first gateway concentrator so as to report data and/or receive a control instruction through the first gateway concentrator after completing the address configuration of the communication module. The method and the device can enable the control equipment to transmit information through other network management concentrators when a certain gateway concentrator fails by using a dual-channel mode.

Description

Fault processing method, device, system, control equipment and management equipment

Technical Field

The present disclosure relates to the field of fault handling, and in particular, to a fault handling method, apparatus, system, control device, and management device.

Background

In the power peak regulation control system, an upper management device is connected with a gateway concentrator, and different control devices are distributed below the gateway concentrator. In order to ensure that the control devices controlled under a gateway concentrator are not affected by other gateway concentrators in the system, the control devices mounted by another gateway concentrator avoid the same channel. However, if a gateway concentrator reports a failure, the control device connected to the gateway concentrator loses control, and the other gateway concentrators cannot control the control device because the channels are different. In addition, when the number of the bottom layer control devices connected to the power peak shaving system is too large, whether the control devices are in fault or not cannot be judged in real time.

Disclosure of Invention

The technical problem to be solved by the present disclosure is to provide a method, an apparatus, a system, a control device and a management device for processing a failure, where when a certain gateway concentrator fails, the control device can transmit information through other network management concentrators.

According to an aspect of the present disclosure, a fault handling method is provided, including: if the state roll call data issued by the gateway concentrator is not received, the channel configuration data is sent to other gateway concentrators; sending a channel change success message to the management device through the first gateway concentrator, wherein the first gateway concentrator is a gateway concentrator responding to channel configuration data; and receiving the address configuration information sent by the management equipment through the first gateway concentrator so as to report data and/or receive a control instruction through the first gateway concentrator after completing the address configuration of the communication module.

Optionally, if the state roll call data issued by the gateway concentrator to which the communication module belongs is not received, the channel mode of the communication module is changed from the working mode to the debugging mode; after the address configuration of the communication module is completed, a first mode transition instruction sent by the management device through the first gateway concentrator is received, so that the channel mode of the communication module is changed from the debugging mode to the working mode.

Optionally, the state information of the control device is sent to the management device through the affiliated gateway concentrator, wherein if the management device does not receive the state information, it is determined that the affiliated gateway concentrator fails, and if the management device receives the state information, it is determined whether the control device fails according to the state information.

Optionally, if the control device fails, the address configuration instruction sent by the management device through the affiliated gateway concentrator is not responded, wherein the affiliated gateway concentrator sends the failure information of the control device to the management device.

Optionally, if the control device is repaired, the response management device reports data and/or receives the control command through the gateway concentrator.

Optionally, when the control device fails, receiving a second mode transition instruction sent by the management device through the gateway concentrator, so as to transition the channel mode of the communication module from the working mode to the debugging mode; after responding to an address configuration instruction sent by the management device through the gateway concentrator, receiving a first mode transition instruction sent by the management device through the gateway concentrator so as to transition the channel mode of the communication module from the debugging mode to the working mode.

Optionally, the communication module is a wireless communication module.

Optionally, the channel configuration data is transmitted to other gateway concentrators within a predetermined frequency channel range.

According to another aspect of the present disclosure, a fault handling method is also provided, including: if the state data of the control equipment reported by the gateway concentrator to which the control equipment belongs is not received, determining that the gateway concentrator to which the control equipment belongs has a fault; after receiving a channel change success message sent by the control equipment through the first gateway concentrator, sending address configuration information to the control equipment through the first gateway concentrator so that the first gateway concentrator reports data and/or receives a control instruction after the address configuration of a communication module of the control equipment is completed; the first gateway concentrator is a gateway concentrator which responds to the channel configuration data after the control device sends the channel configuration data to other gateway concentrators.

Optionally, in response to completion of address configuration of the communication module of the control device, sending a first mode transition instruction to the control device through the first gateway concentrator, so that the control device transitions the channel mode of the communication module from the debug mode to the working mode; if the control equipment does not receive the state roll call data issued by the gateway concentrator, the channel mode of the communication module is changed from the working mode to the debugging mode.

Optionally, if the state data of the control device reported by the gateway concentrator to which the control device belongs is received, whether the control device fails is determined according to a fault flag bit in the state data.

Optionally, the determining whether the control device fails according to a fault flag in the status data includes: if the fault flag bit mark is a fault, an address configuration instruction is sent to the control equipment through the gateway concentrator, wherein if the gateway concentrator does not receive a reply message of the control equipment, the gateway concentrator sends fault information of the control equipment; and if the control equipment fault information sent by the gateway concentrator is received, determining that the control equipment is in fault.

Optionally, an address configuration instruction is sent to the control device through the affiliated gateway concentrator, and if a reply message sent by the affiliated gateway concentrator is received, a first mode transition instruction is sent to the control device through the affiliated gateway concentrator, so that the control device transitions the channel mode of the communication module from the debugging mode to the working mode.

According to another aspect of the present disclosure, there is also provided a fault handling apparatus including: the channel configuration unit is used for sending channel configuration data to other gateway concentrators if the state roll call data sent by the gateway concentrator to which the channel configuration unit belongs is not received; a first message sending unit, configured to send a channel change success message to the management device through a first gateway concentrator, where the first gateway concentrator is a gateway concentrator that responds to channel configuration data; the first message receiving unit is configured to receive address configuration information sent by the management device through the first gateway concentrator, so that after the address configuration of the communication module is completed, data and/or a control instruction is reported through the first gateway concentrator.

Optionally, the channel configuration unit is further configured to change the channel mode of the communication module from the working mode to the debugging mode if the status roll call data issued by the gateway concentrator to which the communication module belongs is not received; and after the address configuration is completed, after the first message receiving unit receives a first mode transition instruction sent by the management device through the first gateway concentrator, the channel mode of the communication module is changed from the debugging mode to the working mode.

Optionally, the first message sending unit is further configured to send the state information of the control device to the management device through the gateway concentrator to which the control device belongs, where if the management device does not receive the state information, it is determined that the gateway concentrator to which the control device belongs is faulty, and if the management device receives the state information, it is determined whether the control device is faulty according to the state information.

Optionally, the first message sending unit is further configured to, if the control device fails, not respond to the address configuration instruction sent by the management device through the affiliated gateway concentrator, where the affiliated gateway concentrator sends the failure information of the control device to the management device.

Optionally, the first message sending unit is further configured to respond to the address configuration instruction sent by the management device through the affiliated gateway concentrator if the control device is repaired, so as to report data and/or receive the control instruction through the affiliated gateway concentrator.

Optionally, the first message receiving unit is further configured to receive, when the control device fails, a second mode transition instruction sent by the management device through the affiliated gateway concentrator so as to transition the channel mode of the communication module from the operating mode to the debug mode, and receive, after the first message sending unit responds to the address configuration instruction sent by the management device through the affiliated gateway concentrator, a first mode transition instruction sent by the management device through the affiliated gateway concentrator so as to transition the channel mode of the communication module from the debug mode to the operating mode.

Optionally, the communication module is a wireless communication module.

Optionally, the channel configuration unit is configured to send channel configuration data to other gateway concentrators within a predetermined frequency channel range.

According to another aspect of the present disclosure, a control device is also proposed, which includes the above fault handling apparatus.

According to another aspect of the present disclosure, there is also provided a fault handling apparatus including: a failure determining unit, configured to determine that a gateway concentrator to which the control device belongs has a failure if state data of the control device reported by the gateway concentrator to which the control device belongs is not received; a second message receiving unit, configured to receive a channel change success message sent by the control device through the first gateway concentrator; the second message sending unit is used for sending address configuration information to the control equipment through the first gateway concentrator so as to report data and/or receive a control instruction through the first gateway concentrator after the address configuration of a communication module of the control equipment is finished; the first gateway concentrator is a gateway concentrator which responds to the channel configuration data after the control device sends the channel configuration data to other gateway concentrators.

Optionally, the second message sending unit is further configured to send, in response to completion of address configuration of the control device, a first mode transition instruction to the control device through the first gateway concentrator, so that the control device transitions the channel mode of the communication module from the debug mode to the working mode; if the control equipment does not receive the state roll call data issued by the gateway concentrator, the channel mode of the communication module is changed from the working mode to the debugging mode.

Optionally, the failure determining unit is configured to determine whether the control device fails according to a failure flag in the status data if the status data of the control device reported by the gateway concentrator to which the control device belongs is received.

Optionally, the failure determining unit is configured to notify the second message sending unit to send an address configuration instruction to the control device through the gateway concentrator to which the second message sending unit belongs if the failure flag bit identifier indicates that the failure occurs, where the gateway concentrator to which the second message sending unit belongs sends failure information of the control device if the gateway concentrator to which the second message sending unit belongs does not receive a reply message of the control device; and if the second message receiving unit receives the control equipment fault information sent by the gateway concentrator, determining that the control equipment is in fault.

Optionally, the second message sending unit is further configured to send an address configuration instruction to the control device through the affiliated gateway concentrator, and if the second message receiving unit receives a reply message sent by the affiliated gateway concentrator, the second message sending unit sends a first mode transition instruction to the control device through the affiliated gateway concentrator, so that the control device transitions the channel mode of the communication module from the debug mode to the working mode.

According to another aspect of the present disclosure, a management device is also provided, which includes the above fault handling apparatus.

According to another aspect of the present disclosure, there is also provided a fault handling system, including: a control device; a management device; and the gateway concentrator is used for sending the state roll call data to the control equipment and sending the state information of the control equipment to the management equipment.

According to another aspect of the present disclosure, a power peak shaving system is also provided, which includes the above fault handling system.

According to another aspect of the present disclosure, there is also provided a fault handling apparatus including: a memory; and a processor coupled to the memory, the processor configured to perform a fault handling method, such as described above, based on the instructions stored in the memory.

According to another aspect of the present disclosure, a computer-readable storage medium is also proposed, on which computer program instructions are stored, which instructions, when executed by a processor, implement the steps of the fault handling method described above.

Compared with the prior art, the fault processing device of the control equipment disclosed by the invention can send channel configuration data to other gateway concentrators when not receiving the state roll call data sent by the gateway concentrator, so that the control equipment can be mounted under other gateway concentrators, and therefore, when a certain gateway concentrator fails, the control equipment can transmit information through other network management concentrators.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description, serve to explain the principles of the disclosure.

The present disclosure may be more clearly understood from the following detailed description, taken with reference to the accompanying drawings, in which:

fig. 1 is a schematic flow chart diagram illustrating an embodiment of a fault handling method according to the present disclosure.

Fig. 2 is a schematic flow chart of another embodiment of the fault handling method of the present disclosure.

Fig. 3 is a schematic flow chart of another embodiment of the fault handling method of the present disclosure.

Fig. 4 is a flowchart illustrating a fault handling method according to still another embodiment of the disclosure.

Fig. 5 is a schematic structural diagram of an embodiment of the control device of the present disclosure.

Fig. 6 is a schematic structural diagram of an embodiment of a management device of the present disclosure.

Fig. 7 is a schematic structural diagram of an embodiment of the fault handling system of the present disclosure.

Fig. 8 is a schematic structural diagram of another embodiment of the fault handling system of the present disclosure.

Fig. 9 is a schematic structural diagram of an embodiment of the fault handling apparatus of the present disclosure.

Fig. 10 is a schematic structural diagram of another embodiment of the fault handling apparatus of the present disclosure.

Detailed Description

Various exemplary embodiments of the present disclosure will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present disclosure unless specifically stated otherwise.

Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

For the purpose of promoting a better understanding of the objects, aspects and advantages of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic flow chart diagram illustrating an embodiment of a fault handling method according to the present disclosure. This embodiment is performed by a fault handling means of the control device.

In step 110, if the status roll call data issued by the gateway concentrator to which the gateway belongs is not received, the channel configuration data is sent to other gateway concentrators. When the gateway concentrator operates normally, the gateway concentrator polls the control equipment mounted by roll calling and reports the state data of the control equipment to the upper-layer server. When the control device does not receive the status roll call data sent by the gateway concentrator, the control device indicates that the gateway concentrator may fail, and therefore the control device sends channel configuration data to other gateway concentrators.

In one embodiment, the gateway concentrator communicates with the control device wirelessly. That is, the control device transmits the channel configuration data to the other gateway concentrator through the wireless communication module.

In step 120, a channel change success message is sent to the management device by the first gateway concentrator, wherein the first gateway concentrator is the gateway concentrator responding to the channel configuration data. After the control device sends channel configuration data to other gateway concentrators, if the first gateway concentrator returns a channel configuration response, the fact that the signal strength between the control device and the first gateway concentrator can meet the communication requirement is indicated.

In step 130, address configuration information sent by the management device through the first gateway concentrator is received, so that after the address configuration of the communication module is completed, data is reported or a control instruction is received through the first gateway concentrator. After the control equipment changes the channel of the communication module, the management equipment can perform address configuration again for the wireless communication module of the control equipment according to the address information under the prior fault gateway concentrator, and after the address configuration of the wireless communication module of the control equipment is completed, peak shaving control and state data reporting can be performed normally.

In this embodiment, when the failure processing apparatus of the control device does not receive the status roll call data issued by the gateway concentrator to which the control device belongs, the apparatus sends channel configuration data to other gateway concentrators, so that the control device is mounted under other gateway concentrators, and thus when a certain gateway concentrator fails, the control device can perform information transmission through other network management concentrators.

Fig. 2 is a schematic flow chart of another embodiment of the fault handling method of the present disclosure.

In step 210, if the status roll call data issued by the gateway concentrator to which the communication module belongs is not received, the channel mode of the communication module is changed from the working mode to the debugging mode. The channel mode of the wireless communication module of each control device is sequentially jumped from a working mode to a debugging mode, wherein in the working mode, a peak shaving control instruction, a state query and the like can be received; in the debugging mode, address configuration, channel configuration, emergency fault reporting, or the like can be performed.

In step 220, channel configuration data is transmitted to other gateway concentrators within a predetermined frequency channel range. For example, a certain control device communicates with the affiliated gateway concentrator by using 10-20Hz, the first gateway concentrator communicates with the control device mounted on the first gateway concentrator by using 30-40Hz, if the affiliated gateway concentrator fails, the wireless communication module of the control device changes frequency channels, for example, the wireless communication module transmits channel configuration frames on the 30-40Hz frequency channels, and if the first gateway concentrator responds, the control device can communicate with the first gateway concentrator.

In step 230, a channel change success message is sent to the management device through the first gateway concentrator.

In step 240, address configuration information sent by the management device through the first gateway concentrator is received. When the message of successful channel change recorded by the management device is sent by the wireless communication module of the last control device under the failure concentrator, the management device reconfigures the address for the control device according to the address information under the failure gateway concentrator before.

In step 250, after the address configuration of the communication module is completed, a first mode transition instruction sent by the management device through the first gateway concentrator is received, so as to transition the channel mode from the debug mode to the working mode.

In step 260, the first gateway concentrator reports status data or receives a peak shaving control command.

In this embodiment, when the failure processing apparatus of the control device does not receive the status roll call data issued by the gateway concentrator to which the control device belongs, the channel mode is changed, channel configuration data is sent to other gateway concentrators, and the channel mode is changed again when the control device is mounted to other gateway concentrators, so that when a certain gateway concentrator fails, the control device can perform information transmission through other network management concentrators.

Fig. 3 is a schematic flow chart of another embodiment of the fault handling method of the present disclosure.

In step 310, the state information of the control device is sent to the management device through the home gateway concentrator. If the management equipment does not receive the state information, the gateway concentrator which the management equipment belongs to is determined to be in fault, and if the management equipment receives the state information, whether the control equipment is in fault is judged according to the state information. For example, if the control device fails, the fault flag bit in the status information is identified as a fault, the management device sends an address configuration instruction to the control device through the home gateway concentrator, and if the home gateway concentrator does not receive a reply message of the control device, the management device sends control device fault information to the management device, and the management device determines that the control device fails.

In step 320, the channel mode of the communication module is changed from the operating mode to the debug mode when the control device fails. In this step, although the control device has failed, the communication module of the control device does not have a failure, and therefore, the communication module can receive the second mode transition instruction transmitted by the management device, and the channel mode of the communication module is changed from the operating mode to the debug mode.

In step 330, if the control device fails, the management device does not respond to the address configuration instruction sent by the gateway concentrator, where the gateway concentrator sends the failure information of the control device to the management device. In this step, the management device issues an address configuration instruction to the control device, and no response is made due to a failure of the control device. The worker maintains the designated control device.

In step 340, if the control device is repaired, the address configuration command sent by the management device through the gateway concentrator is responded.

In step 350, a first mode transition instruction sent by the management device through the gateway concentrator is received, so as to transition the channel mode of the communication module from the debugging mode to the working mode.

In step 360, data is reported through the affiliated gateway concentrator or a control instruction issued by the affiliated gateway concentrator is received.

In this embodiment, if the control device at the bottom layer fails, the centralized controller may report the failure to the management device in time, so as to remind a worker to repair the control device in time.

Fig. 4 is a flowchart illustrating a fault handling method according to still another embodiment of the disclosure. This embodiment is performed by a fault handling means of the management device.

In step 410, if the status data of the control device reported by the gateway concentrator to which the control device belongs is not received, it is determined that the gateway concentrator to which the control device belongs has a fault. When the gateway concentrator operates normally, the control equipment mounted by roll calling is polled, the state data of the control equipment is reported to the upper management equipment, and if the gateway concentrator fails, the state data of the control equipment is not reported to the upper management equipment.

In step 420, after receiving the channel change success message sent by the control device through the first gateway concentrator, the first gateway concentrator sends address configuration information to the control device, so that the control device reports data or receives a control instruction through the first gateway concentrator after completing address configuration. The first gateway concentrator is a gateway concentrator which responds to the channel configuration data after the control device sends the channel configuration data to other gateway concentrators.

After the gateway concentrator to which the control equipment belongs fails, the control equipment cannot receive the state roll call data, the channel mode of the communication module is changed from a debugging mode to a working mode, channel configuration data are sent to other gateway concentrators in a preset frequency channel range, and if a first gateway centralized controller returns a channel configuration response, the fact that the signal strength between the control equipment and the first gateway controller can meet communication requirements is shown.

After the address configuration of the communication module of the control device is completed, the management device may further send a first mode transition instruction to the control device through the first gateway concentrator, so that the control device transitions the channel mode of the communication module from the debug mode to the working mode, and the control device reports data or receives the peak shaving control instruction through the first gateway concentrator.

In this embodiment, if the fault processing apparatus of the management device does not receive the status data of the control device reported by the gateway concentrator to which the control device belongs, it determines that the gateway concentrator to which the control device belongs has a fault, and after receiving a channel change success message sent by the control device through the first gateway concentrator, sends address configuration information to the control device through the first gateway concentrator, so that the control device performs information transmission through the first gateway concentrator.

In another embodiment of the present disclosure, if the failure processing apparatus receives the status data of the control device reported by the gateway concentrator, it determines whether the control device fails according to a failure flag in the status data. For example, if the fault flag bit is identified as a fault, the management device sends an address configuration instruction to the control device through the gateway concentrator to which the management device belongs, wherein if the gateway concentrator to which the management device belongs does not receive a reply message of the control device, the gateway concentrator to which the management device belongs sends fault information of the control device; and if the management equipment receives the control equipment fault information sent by the gateway concentrator, determining that the control equipment is in fault.

If the control device is maintained, the fault processing apparatus of the management device may further send an address configuration instruction to the control device through the gateway concentrator to which the control device belongs, and if a reply message sent by the gateway concentrator to which the control device belongs is received, send a first mode transition instruction to the control device through the gateway concentrator to which the control device belongs, so that the control device transitions the channel mode of the communication module from the debug mode to the working mode.

Fig. 5 is a schematic structural diagram of an embodiment of the fault handling apparatus of the present disclosure. The failure processing apparatus is applied to a control device, and includes a channel configuration unit 510, a first message transmission unit 520, and a first message reception unit 530.

The channel configuration unit 510 is configured to send channel configuration data to other gateway concentrators if the status roll call data issued by the gateway concentrator to which the communication module belongs is not received, where the channel configuration unit 510 is further configured to change the channel mode of the communication module from the working mode to the debugging mode if the status roll call data issued by the gateway concentrator to which the communication module belongs is not received; and after the address configuration is completed, after the first message receiving unit 530 receives a first mode transition instruction sent by the management device through the first gateway concentrator, the channel mode of the communication module is changed from the debug mode to the working mode.

When the gateway concentrator operates normally, the gateway concentrator polls the control equipment mounted by roll calling and reports the state data of the control equipment to the upper-layer server. When the control device does not receive the status roll call data sent by the gateway concentrator, the control device indicates that the gateway concentrator may fail, and therefore the control device sends channel configuration data to other gateway concentrators.

In one embodiment, the gateway concentrator communicates with the control device wirelessly. That is, the control device transmits channel configuration data to other gateway concentrators through the wireless communication module, and the channel configuration unit 510 transmits the channel configuration data to other gateway concentrators within a predetermined frequency channel range.

The first message sending unit 520 is configured to send a channel change success message to the management device through a first gateway concentrator, where the first gateway concentrator is a gateway concentrator responding to the channel configuration data. After the control device sends channel configuration data to other gateway concentrators, if the first gateway concentrator returns a channel configuration response, it indicates that the signal strength between the control device and the first gateway concentrator can meet the communication requirement, and the first message sending unit 520 sends a channel change success message to the management device.

The first message receiving unit 530 is configured to receive address configuration information sent by the management device through the first gateway concentrator, so that after the address configuration of the communication module is completed, the first gateway concentrator reports data and/or receives a control instruction.

In this embodiment, when the failure processing apparatus of the control device does not receive the status roll call data issued by the gateway concentrator to which the control device belongs, the apparatus sends channel configuration data to other gateway concentrators, so that the control device is mounted under other gateway concentrators, and thus when a certain gateway concentrator fails, the control device can perform information transmission through other network management concentrators.

In another embodiment of the present disclosure, the first message sending unit 520 is further configured to, if the control device fails, not respond to an address configuration instruction sent by the management device through the affiliated gateway concentrator, where the affiliated gateway concentrator sends the failure information of the control device to the management device; for example, when the control device replies to the address configuration instruction, the reply frame carries information of the control device, but the reply frame does not have information of the control device due to a failure of the control device, and is abnormal, so that the reply frame cannot be normally sent out. If the control device is repaired, the first message sending unit 520 responds to the address configuration instruction sent by the management device through the affiliated gateway concentrator, so as to report data through the affiliated gateway concentrator or receive the control instruction issued by the affiliated gateway concentrator.

In one embodiment, the first message receiving unit 530 is further configured to receive a first mode transition instruction sent by the management device through the affiliated gateway concentrator after the first message sending unit 520 responds to the address configuration instruction sent by the management device through the affiliated gateway concentrator, so as to transition the channel mode of the communication module from the debug mode to the working mode.

In this embodiment, if the control device at the bottom layer fails, the centralized controller may report the failure to the management device in time, so as to remind a worker to repair the control device in time.

Fig. 6 is a schematic structural diagram of another embodiment of the fault handling apparatus of the present disclosure. The fault handling apparatus is applied to a management device, and includes a fault determining unit 610, a second message receiving unit 620, and a second message transmitting unit 630.

The failure determining unit 610 is configured to determine that the gateway concentrator to which the control device belongs has a failure if the state data of the control device reported by the gateway concentrator to which the control device belongs is not received. When the gateway concentrator operates normally, the control equipment mounted by roll calling is polled, the state data of the control equipment is reported to the upper management equipment, and if the gateway concentrator fails, the state data of the control equipment is not reported to the upper management equipment.

The second message receiving unit 620 is configured to receive a channel change success message sent by the control device through the first gateway concentrator. After the gateway concentrator to which the control device belongs fails, the control device cannot receive the state roll call data, the channel mode of the communication module is changed from the debugging mode to the working mode, channel configuration data are sent to other gateway concentrators within a preset frequency channel range, if a first gateway centralized controller returns a channel configuration response, the signal strength between the control device and the first gateway controller can meet the communication requirement, and the control device sends a channel change success message to the management device through the first gateway concentrator.

The second message sending unit 630 is configured to send address configuration information to the control device through the first gateway concentrator, so that the control device reports data or receives a control instruction through the first gateway concentrator after address configuration is completed; the first gateway concentrator is a gateway concentrator which responds to the channel configuration data after the control device sends the channel configuration data to other gateway concentrators.

After the address configuration of the communication module of the control device is completed, the second message sending unit 630 may further send a first mode transition instruction to the control device through the first gateway concentrator, so that the control device changes the channel mode of the communication module from the debug mode to the working mode, and thus the control device reports data or receives the peak shaving control instruction through the first gateway concentrator.

In this embodiment, if the management device does not receive the status data of the control device reported by the gateway concentrator to which the control device belongs, it determines that the gateway concentrator to which the control device belongs has a fault, and after receiving a channel change success message sent by the control device through the first gateway concentrator, sends address configuration information to the control device through the first gateway concentrator, so that the control device performs information transmission through the first gateway concentrator.

In another embodiment of the present disclosure, the failure determining unit 610 is configured to determine whether the control device fails according to a failure flag in the status data if the status data of the control device reported by the gateway concentrator is received. For example, if the failure flag bit is identified as a failure, the second message sending unit 630 sends an address configuration instruction to the control device through the gateway concentrator to which the control device belongs, where the gateway concentrator to which the control device belongs sends failure information of the control device if the gateway concentrator does not receive a reply message of the control device; if the second message receiving unit 620 receives the control device failure information sent by the gateway concentrator to which the second message receiving unit 620 belongs, the failure determining unit 610 determines that the control device has failed.

If the control device is maintained, the second message sending unit 630 may also send an address configuration instruction to the control device through the gateway concentrator to which the control device belongs, and if the second message receiving unit 620 receives a reply message sent by the gateway concentrator to which the control device belongs, the second message sending unit 630 sends a first mode transition instruction to the control device through the gateway concentrator to which the control device belongs, so that the control device transitions the channel mode of the communication module from the debug mode to the working mode.

Fig. 7 is a schematic structural diagram of an embodiment of the fault handling system of the present disclosure. The fault handling system comprises a control device 710, a gateway concentrator 720 and a management device 730. In the embodiment, the control equipment failure or the gateway concentrator failure can be processed in time.

In one embodiment of the present disclosure, a power peaking system is protected, the power peaking system including a fault handling system. An embodiment will be described as an example.

As shown in fig. 8, a first control device 810 and a second control device 820 are mounted in a first gateway concentrator 830, and a third control device 840 is mounted in a second gateway concentrator 850. The control equipment and the gateway concentrator are communicated through the wireless communication module.

When the first gateway concentrator 830 operates normally, the roll call is performed on the first control device 810 and the second control device 820, and the status information of the first control device 810 and the second control device 820 is reported to the management device 860. The second gateway concentrator 850 also sends roll call data to the third control device 840 when operating normally, and reports the status information of the third control device 840 to the management device 860.

If the first gateway concentrator 830 fails, the management device 860 cannot receive the status information reported by the first gateway concentrator 830, and the first control device 810 and the second control device 820 cannot receive the status roll name data. The wireless communication modules of the first control device 810 and the second control device 820 would in turn hop from an operating mode to a commissioning mode and transmit channel configuration data to other gateway concentrators within the frequency channel. If the first control device 810 and the second control device 820 receive the response of the second gateway concentrator 850, it indicates that the first control device 810 and the second control device 820 can communicate with the second gateway concentrator 850. The first control device 810 and the second control device 820 may transmit a wireless communication module frequency change success to the management device 860 through the second gateway concentrator 850. The management device 860 reconfigures addresses for the wireless communication modules of the first control device 810 and the second control device 820 according to the address information under the first gateway concentrator 830. After the wireless communication modules of the first control device 810 and the second control device 820 reconfigure the addresses, the wireless communication modules are changed from the debugging mode to the working mode, so that the peak shaving control and the state data reporting can be performed normally.

In another embodiment, when the first control device 810 fails, the wireless communication module of the first control device 810 is in an active state, and does not reply with the status information to the upper management device 860 through the first gateway concentrator 830. The management device 860 may send a transition instruction to the wireless communication module of the first control device 810 to change the wireless communication module from the operating state to the commissioning state. When the management device 860 transmits the address configuration frame to the wireless communication module of the first control device 810 through the first gateway concentrator 830, the first control device 810 does not reply, and the first gateway concentrator 830 transmits control device failure information to the management device 860 to prompt maintenance of the first control device 810. After the maintenance of the first control device 810 is completed, when the management device 860 transmits an address configuration frame to the wireless communication module of the first control device 810 through the first gateway concentrator 830, the first control device 810 replies. The management device 860 sends an instruction to the first control device 810, and the wireless communication module changes from the debugging state to the working state, so as to perform peak shaving control and status data reporting normally.

In the embodiment, the equipment fault information can be reported rapidly through a dual-channel working mode, and when a certain gateway concentrator fails, the control equipment can transmit information through other network management concentrators, so that the running stability of the power peak shaving system is improved.

Fig. 9 is a schematic structural diagram of an embodiment of the fault handling apparatus of the present disclosure. The apparatus includes a memory 910 and a processor 920. Wherein: the memory 910 may be a magnetic disk, flash memory, or any other non-volatile storage medium. The memory is used to store instructions in the embodiments corresponding to fig. 1-4. Coupled to memory 910, processor 920 may be implemented as one or more integrated circuits, such as a microprocessor or microcontroller. The processor 920 is configured to execute instructions stored in a memory.

In one embodiment, as also shown in FIG. 10, the apparatus 1000 includes a memory 1010 and a processor 1020. Processor 1020 is coupled to memory 1010 by a BUS 1030. The device 1000 may also be coupled to external storage 1050 via storage interface 1040 for external data retrieval, and may also be coupled to a network or another computer system (not shown) via network interface 1060. And will not be described in detail herein.

In this embodiment, the data instruction is stored in the memory, and the instruction is processed by the processor, so that when a certain gateway concentrator fails, the control device can transmit information through other network management concentrators, and in addition, if the control device at the bottom layer fails, the centralized controller can report the failure to the management device in time, so that a worker can be reminded to repair the control device in time.

In another embodiment, a computer-readable storage medium has stored thereon computer program instructions which, when executed by a processor, implement the steps of the method in the corresponding embodiment of fig. 1-4. As will be appreciated by one skilled in the art, embodiments of the present disclosure may be provided as a method, apparatus, or computer program product. Accordingly, the present disclosure may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present disclosure may take the form of a computer program product embodied on one or more computer-usable non-transitory storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present disclosure is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the disclosure. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Thus far, the present disclosure has been described in detail. Some details that are well known in the art have not been described in order to avoid obscuring the concepts of the present disclosure. It will be fully apparent to those skilled in the art from the foregoing description how to practice the presently disclosed embodiments.

Although some specific embodiments of the present disclosure have been described in detail by way of example, it should be understood by those skilled in the art that the foregoing examples are for purposes of illustration only and are not intended to limit the scope of the present disclosure. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the present disclosure. The scope of the present disclosure is defined by the appended claims.

Claims (28)

1. A fault handling method, comprising:

if the state roll call data sent by the gateway concentrator which the communication module belongs to is not received, the channel mode of the communication module is changed from the working mode to the debugging mode, wherein the communication module is a wireless communication module and sends channel configuration data to other gateway concentrators in a preset frequency channel range, and the channels of different gateway concentrators are different;

sending a channel change success message to a management device through a first gateway concentrator, wherein the first gateway concentrator is a gateway concentrator responding to channel configuration data;

and receiving address configuration information sent by the management device through the first gateway concentrator so as to report data and/or receive a control instruction through the first gateway concentrator after completing address configuration of the communication module.

2. The fault handling method of claim 1, further comprising:

after the address configuration of the communication module is completed, receiving a first mode transition instruction sent by the management device through the first gateway concentrator, so as to transition the channel mode of the communication module from the debugging mode to the working mode.

3. The fault handling method of claim 1, further comprising:

and sending the state information of the control equipment to the management equipment through the affiliated gateway concentrator, wherein if the management equipment does not receive the state information, the state information is determined to be failed by the affiliated gateway concentrator, and if the state information is received, whether the control equipment fails or not is judged according to the state information.

4. The fault handling method of claim 3, further comprising:

and if the control equipment fails, not responding to an address configuration instruction sent by the management equipment through the affiliated gateway concentrator, wherein the affiliated gateway concentrator sends control equipment failure information to the management equipment.

5. The fault handling method of claim 4, further comprising:

and if the control equipment is repaired, responding to an address configuration instruction sent by the management equipment through the affiliated gateway concentrator so as to report data and/or receive a control instruction through the affiliated gateway concentrator.

6. The fault handling method of claim 5, further comprising:

when the control equipment fails, receiving a second mode transition instruction sent by the management equipment through the gateway concentrator, so as to transition the channel mode of the communication module from the working mode to the debugging mode;

after responding to the address configuration instruction sent by the management device through the gateway concentrator, receiving a first mode transition instruction sent by the management device through the gateway concentrator, so as to transition the channel mode of the communication module from a debugging mode to a working mode.

7. A fault handling method, comprising:

if the state data of the control equipment reported by the gateway concentrator to which the control equipment belongs is not received, determining that the gateway concentrator to which the control equipment belongs has a fault, wherein if the control equipment does not receive state roll call data issued by the gateway concentrator to which the control equipment belongs, a channel mode of a communication module is changed from a working mode to a debugging mode, wherein the communication module is a wireless communication module and sends channel configuration data to other gateway concentrators in a preset frequency channel range, and channels of different gateway concentrators are different;

after receiving a channel change success message sent by the control device through a first gateway concentrator, sending address configuration information to the control device through the first gateway concentrator so that data and/or a control instruction are reported through the first gateway concentrator after the address configuration of a communication module of the control device is completed; the first gateway concentrator is a gateway concentrator which responds to the channel configuration data after the control device sends the channel configuration data to other gateway concentrators.

8. The fault handling method of claim 7, further comprising:

and responding to the completion of the address configuration of the communication module of the control equipment, and sending a first mode transition instruction to the control equipment through the first gateway concentrator so that the control equipment can transition the channel mode of the communication module from a debugging mode to a working mode.

9. The fault handling method of claim 7, further comprising:

and if the state data of the control equipment reported by the gateway concentrator is received, judging whether the control equipment fails according to a fault flag bit in the state data.

10. The fault handling method of claim 9, wherein determining whether the control device is faulty according to a fault flag bit in the status data comprises:

if the fault flag bit mark is a fault, sending an address configuration instruction to the control equipment through the affiliated gateway concentrator, wherein if the affiliated gateway concentrator does not receive a reply message of the control equipment, sending fault information of the control equipment;

and if the control equipment fault information sent by the gateway concentrator is received, determining that the control equipment is in fault.

11. The fault handling method of claim 10, further comprising:

and sending an address configuration instruction to the control device through the affiliated gateway concentrator, and if a reply message sent by the affiliated gateway concentrator is received, sending a first mode transition instruction to the control device through the affiliated gateway concentrator so that the control device can transition the channel mode of the communication module from a debugging mode to a working mode.

12. A fault handling device comprising:

the channel configuration unit is used for converting the channel mode of the communication module from a working mode to a debugging mode if the state roll call data sent by the gateway concentrator to which the communication module belongs is not received, wherein the communication module is a wireless communication module and sends channel configuration data to other gateway concentrators in a preset frequency channel range, and the channels of different gateway concentrators are different;

a first message sending unit, configured to send a channel change success message to a management device through a first gateway concentrator, where the first gateway concentrator is a gateway concentrator that responds to channel configuration data;

a first message receiving unit, configured to receive address configuration information sent by the management device through the first gateway concentrator, so as to report data and/or receive a control instruction through the first gateway concentrator after completing address configuration of a communication module.

13. The fault handling device of claim 12,

the channel configuration unit is further configured to, after address configuration is completed, convert the channel mode of the communication module from the debug mode to the working mode after the first message receiving unit receives a first mode conversion instruction sent by the management device through the first gateway concentrator.

14. The fault handling device of claim 12,

the first message sending unit is further configured to send status information of the control device to the management device through the gateway concentrator to which the control device belongs, wherein if the management device does not receive the status information, it is determined that the gateway concentrator to which the control device belongs has a fault, and if the management device receives the status information, it is determined whether the control device has a fault according to the status information.

15. The fault handling device of claim 14,

the first message sending unit is further configured to not respond to an address configuration instruction sent by the management device through the gateway concentrator to which the management device belongs if the control device fails, where the gateway concentrator to which the management device belongs sends failure information of the control device to the management device.

16. The fault handling device of claim 15,

the first message sending unit is further configured to respond to an address configuration instruction sent by the management device through the affiliated gateway concentrator if the control device is repaired, so as to report data and/or receive a control instruction through the affiliated gateway concentrator.

17. The fault handling device of claim 16,

the first message receiving unit is further configured to receive, when the control device fails, a second mode transition instruction sent by the management device through the gateway concentrator to transition a channel mode of a communication module from an operating mode to a debug mode, and receive, after the first message sending unit responds to an address configuration instruction sent by the management device through the gateway concentrator, a first mode transition instruction sent by the management device through the gateway concentrator to transition the channel mode of the communication module from the debug mode to the operating mode.

18. A control device comprising the fault handling apparatus of any of claims 12-17.

19. A fault handling device comprising:

a failure determining unit, configured to determine that a gateway concentrator to which a control device belongs has a failure if state data of the control device reported by the gateway concentrator to which the control device belongs is not received, where the control device changes a channel mode of a communication module from a working mode to a debugging mode if state roll call data issued by the gateway concentrator to which the control device belongs is not received, where the communication module is a wireless communication module, and sends channel configuration data to other gateway concentrators within a predetermined channel range, and channels of different gateway concentrators are different;

a second message receiving unit, configured to receive a channel change success message sent by the control device through the first gateway concentrator;

a second message sending unit, configured to send address configuration information to the control device through the first gateway concentrator, so that data is reported and/or a control instruction is received through the first gateway concentrator after address configuration of a communication module of the control device is completed; the first gateway concentrator is a gateway concentrator which responds to the channel configuration data after the control device sends the channel configuration data to other gateway concentrators.

20. The fault handling device of claim 19,

the second message sending unit is further configured to send a first mode transition instruction to the control device through the first gateway concentrator in response to completion of address configuration of the control device, so that the control device transitions the channel mode of the communication module from a debug mode to a working mode.

21. The fault handling device of claim 19,

and the fault determining unit is used for judging whether the control equipment has a fault according to a fault flag bit in the state data if the state data of the control equipment reported by the gateway concentrator to which the control equipment belongs is received.

22. The fault handling device of claim 21,

the failure determining unit is configured to notify the second message sending unit to send an address configuration instruction to the control device through the affiliated gateway concentrator if the failure flag bit identifier indicates a failure, where the affiliated gateway concentrator sends failure information of the control device if it does not receive a reply message of the control device; and if the second message receiving unit receives the control equipment fault information sent by the gateway concentrator, determining that the control equipment is in fault.

23. The fault handling device of claim 22,

the second message sending unit is further configured to send an address configuration instruction to the control device through the affiliated gateway concentrator, and if the second message receiving unit receives a reply message sent by the affiliated gateway concentrator, send a first mode transition instruction to the control device through the affiliated gateway concentrator, so that the control device transitions the channel mode of the communication module from the debug mode to the working mode.

24. A management device comprising the fault handling apparatus of any of claims 19-23.

25. A fault handling system comprising:

the control device of claim 18;

the management device of claim 24; and

and the gateway concentrator is used for sending the state roll call data to the control equipment and sending the state information of the control equipment to the management equipment.

26. A power peaking system comprising the fault handling system of claim 25.

27. A fault handling device comprising:

a memory; and

a processor coupled to the memory, the processor configured to perform the fault handling method of any of claims 1 to 11 based on instructions stored in the memory.

28. A computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the steps of the fault handling method of any of claims 1 to 11.

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