CN112255481A

CN112255481A - Target equipment anti-error detection method and device, storage medium and electronic device

Info

Publication number: CN112255481A
Application number: CN202011111702.9A
Authority: CN
Inventors: 万利国; 邝代华; 谢涛; 黄文源; 逄凌志
Original assignee: Zhuhai Unitech Power Technology Co Ltd
Current assignee: Zhuhai Unitech Power Technology Co Ltd
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2021-01-22

Abstract

The invention provides a method and a device for preventing error detection of target equipment, a storage medium and an electronic device, wherein the method comprises the following steps: receiving an operation signal aiming at the target equipment, wherein the operation signal is used for indicating the displacement operation of the target equipment; simulating the displacement operation of the target equipment, and determining the operation attribute of the displacement operation; searching the constraint conditions of the anti-misoperation full-constraint strategy corresponding to the displacement operation in the pre-stored anti-misoperation full-constraint strategy according to the operation attributes, and searching all devices having a logical relation with the target device in the device model, wherein the anti-misoperation full-constraint strategy comprises the following steps: a logic rule between a primary device operation and a secondary device, or a logic rule between a secondary device operation and a primary device, or a logic rule between a secondary device operation and a secondary device, the device model including at least one of: a primary equipment model, a secondary equipment model; and detecting whether all the devices meet the constraint condition of the anti-misoperation full-constraint strategy.

Description

Target equipment anti-error detection method and device, storage medium and electronic device

Technical Field

The invention relates to the technical field of power equipment, in particular to an anti-error detection method and device for target equipment, a storage medium and an electronic device.

Background

With the development of electric power systems and information technologies, the anti-misoperation system is widely applied in the switching operation process of the electric power systems, and is an effective means for ensuring personal safety, power grid safety and equipment safety and avoiding accidents as an important technical measure for the switching operation of electric power equipment.

Most of the existing anti-error systems only deal with the anti-error check between primary equipment and do not deal with the anti-error check between the primary equipment and secondary equipment and between the secondary equipment and the secondary equipment, so that accidents caused by missed delivery, missed withdrawal, missed delivery and missed withdrawal of the secondary equipment are frequent.

Under the current technical conditions, even if the error-proof check between the primary equipment and the secondary equipment and between the secondary equipment and the secondary equipment is to be processed, the implementation mode of the error-proof check is the same as that of the error-proof check between the primary equipment, personnel who are familiar with relay protection and error-proof operation technologies are required, error-proof operation logic of each equipment is compiled according to the condition that the secondary equipment is configured at each station, and the requirement on personnel is extremely high; moreover, as the secondary equipment configuration differences of the transformer substations with different voltage levels and different wiring modes are large, even though the secondary equipment configurations of the transformer substations with the same voltage level and the same wiring mode are possibly different, the anti-misoperation logic of the same equipment cannot be copied and engineered; moreover, the secondary equipment is huge compared with the primary equipment, the secondary equipment of a conventional 110kV transformer substation is probably more than one thousand, the workload of the operation logic of manual writing equipment is huge, so that the small part of anti-misoperation systems only deal with the simple logic of the secondary operation of the small part, the coverage is not comprehensive enough, and the practical value is not high.

Aiming at the problems that the error detection prevention of the equipment with the logical relation with the secondary equipment cannot be effectively carried out and the like in the related technology, an effective technical scheme is not provided.

Disclosure of Invention

The embodiment of the invention provides an anti-error detection method and device for target equipment, a storage medium and an electronic device, and at least solves the problems that the anti-error detection of equipment with a logical relation with secondary equipment cannot be effectively carried out in the related technology and the like.

According to an embodiment of the present invention, there is provided a method for preventing misdetection of a target device, including: receiving an operation signal aiming at a target device, wherein the operation signal is used for indicating the displacement operation of the target device; simulating a deflection operation on the target device to determine an operation attribute of the deflection operation, wherein the target device comprises at least one of: primary equipment, secondary equipment; according to the operation attributes, the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation are searched in pre-stored anti-misoperation full constraint strategies, and all devices having a logical relation with the target device are searched in a device model, wherein the anti-misoperation full constraint strategy comprises the following steps: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model; and detecting whether all the devices meet the constraint conditions of the anti-misoperation full-constraint strategy.

Optionally, after detecting whether all the devices satisfy the constraint condition of the full constraint policy, the method further includes: and sending an alarm event when detecting that the equipment does not meet the constraint condition of the anti-misoperation full-constraint strategy in all the equipment.

Optionally, when it is detected that the device does not satisfy the constraint condition of the anti-misoperation full-constraint policy in all the devices, an alarm event is issued, where the alarm event includes at least one of: displaying an alarm frame on the target operation interface; inhibiting the shift operation; forbidding to generate the operation items related to the displacement operation; prompting a failure reason, wherein the failure reason at least comprises one of the following reasons: a secondary device causing the shift operation to fail, and an abnormal state of the secondary device causing the shift operation to fail.

Optionally, simulating a shift operation on the target device to determine an operation attribute of the shift operation includes: acquiring the equipment type and the current state information of the target equipment; and determining an operation attribute corresponding to the deflection operation according to the equipment type and the current state information, wherein the operation attribute at least comprises the equipment type and the target state of the target equipment.

Optionally, detecting whether all the devices satisfy the constraint condition of the anti-misoperation full-constraint policy includes: and analyzing all the devices having a logical relationship with the target device according to the constraint conditions to determine whether all the devices meet the constraint conditions of the anti-misoperation full-constraint strategy.

Optionally, the obtaining the device type and the current state information of the target device includes: under the condition that the target equipment is primary equipment, acquiring the equipment type and current state information corresponding to the primary equipment from a pre-established primary equipment model; and under the condition that the target equipment is secondary equipment, acquiring the equipment type and the current state information corresponding to the secondary equipment from a pre-established secondary equipment model.

Optionally, the primary device model includes at least one of: the type of the primary equipment, the connection relation among the primary equipment and the state information of the primary equipment, wherein the secondary equipment model comprises at least one of the following components: the type of the secondary equipment, the function application information of the secondary equipment, the state information of the secondary equipment, the mapping relation between the secondary equipment and the primary equipment, and the incidence relation between the secondary equipment.

Optionally, a logic rule between the primary device operation and the secondary device is used to indicate that the secondary device should be in a specific device state when the primary device is operated; a logic rule between the secondary device operation and the primary device to indicate that the primary device should be in a particular device state while operating the secondary device; a logic rule between the secondary device operation and the secondary device to indicate that the secondary device associated therewith should be in a particular device state while operating the secondary device.

Optionally, the logic rules of the primary device operation and the secondary device are used to prohibit the primary device from operating in the absence of a relay protection function, and whether the relay protection function is absent is determined by a device state of the secondary device; and/or a logic rule between the operation of the secondary equipment and the primary equipment, which is used for preventing the running primary equipment from losing the relay protection function, wherein the operation of the secondary equipment is prevented by the primary equipment under the running condition so that the primary equipment loses the relay protection function; and the logic rule between the operation of the secondary equipment and the secondary equipment is used for forbidding the improper operation of the secondary equipment to cause operation risk to the normally operated secondary equipment.

Optionally, the anti-misoperation full constraint policy is presented in the form of a constraint condition, wherein the constraint condition is determined at least by: computer script language or logic formulas.

Optionally, receiving an operation signal for the target device, including at least one of: receiving an operation signal triggered by a target object after the target object is operated on a target operation interface; an operation signal triggered by the target device in the case where an unexpected displacement signal is detected is received.

According to another embodiment of the present invention, there is provided a target device detection method including: receiving operation of a target object on a target operation interface to select target equipment in the target operation interface, wherein the target equipment at least comprises one of the following components: primary equipment, secondary equipment; simulating the displacement operation of the target equipment, and displaying a simulation result on the target interface, wherein the simulation result is at least used for indicating an operation attribute corresponding to the displacement operation, and equipment which does not meet a constraint condition of an anti-misoperation full constraint strategy exists in all equipment which has a logical relationship with the target equipment, the constraint condition is obtained by searching in a pre-stored full constraint strategy according to the target state, the anti-misoperation full constraint strategy corresponds to the displacement operation, and the anti-misoperation full constraint strategy comprises: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model, the secondary equipment model.

Optionally, the simulating a shift operation on the target device includes: acquiring the current equipment state of the target equipment; and simulating the displacement operation of the target equipment corresponding to the current equipment state to determine the operation attribute of the displacement operation.

Optionally, displaying the simulation result on the target interface, including: displaying an alarm frame on the target operation interface; prompting a failure reason, wherein the failure reason at least comprises one of the following reasons: a secondary device causing the shift operation to fail, and an abnormal state of the secondary device causing the shift operation to fail.

According to another embodiment of the present invention, there is provided an anti-misdetection apparatus of a target device, including: the device comprises a first receiving module, a second receiving module and a control module, wherein the first receiving module is used for receiving an operation signal aiming at a target device, and the operation signal is used for indicating the displacement operation of the target device; a simulation module, configured to simulate a shift operation on the target device to determine an operation attribute of the shift operation, where the target device includes at least one of: primary equipment, secondary equipment; a determining module, configured to search, according to the operation attribute, a constraint condition of a full-constraint misoperation prevention strategy corresponding to the shift operation in a pre-stored full-constraint misoperation prevention strategy, and search, in an equipment model, all pieces of equipment having a logical relationship with the target piece of equipment, where the full-constraint misoperation prevention strategy includes: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model; and the detection module is used for detecting whether all the devices meet the constraint conditions of the full constraint strategy.

According to another embodiment of the present invention, there is also provided a detection apparatus of a target device, including: a second receiving module, configured to receive, on a target operation interface, an operation of a target object to select a target device in the target operation interface, where the target device includes at least one of: primary equipment, secondary equipment; a processing module, configured to simulate a shift operation on the target device, and display a simulation result on the target interface, where the simulation result is at least used to indicate an operation attribute of the shift operation, and a device that does not satisfy a constraint condition of an anti-misoperation full constraint policy exists in all devices that have a logical relationship with the target device, and the constraint condition is found in a pre-stored full constraint policy according to the target state, where the anti-misoperation full constraint policy includes: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model, the secondary equipment model.

According to a further embodiment of the present invention, there is also provided a storage medium having a computer program stored therein, wherein the computer program is arranged to perform the steps of any of the above method embodiments when executed.

According to yet another embodiment of the present invention, there is also provided an electronic device, including a memory in which a computer program is stored and a processor configured to execute the computer program to perform the steps in any of the above method embodiments.

By the invention, an operation signal aiming at the target equipment is received; simulating a deflection operation on the target equipment to determine an operation attribute of the deflection operation; according to the operation attributes, the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation are searched in pre-stored anti-misoperation full constraint strategies, and all devices having a logical relation with the target device are searched in a device model, wherein the anti-misoperation full constraint strategy comprises the following steps: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model; whether all the devices meet the constraint condition of the anti-misoperation full-constraint strategy is detected, by adopting the technical scheme, whether the primary device or the secondary device meets the logic rule between the primary device operation and the secondary device or the logic rule between the secondary device operation and the primary device or the logic rule between the secondary device operation and the secondary device is determined according to the constraint condition of the anti-misoperation full-constraint strategy, so that the effective anti-misoperation detection of the devices having a logic relation with the secondary device is realized, the problems that the devices having the logic relation with the secondary device cannot be effectively subjected to the anti-misoperation detection and the like in the related technology are solved, and further the occurrence of accidents is avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a hardware configuration block diagram of a computer terminal of an anti-misdetection method for a target device according to an embodiment of the present invention;

FIG. 2 is a flow chart of a method of false detection prevention of a target device according to an embodiment of the present invention;

fig. 3 is a flowchart of a detection method of a target device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a primary equipment main wiring diagram of a 110kV substation displayed on a security system interface according to an alternative embodiment of the present invention;

FIG. 5 is a schematic diagram of a simulated operation primary device anti-error check according to an alternative embodiment of the invention;

FIG. 6 is a schematic diagram of the distribution of primitives of a hard pressing plate of a secondary screen cabinet of a 220kV intelligent substation according to an alternative embodiment of the invention;

FIG. 7 is a schematic diagram of an error prevention system pop-up warning window in accordance with an alternative embodiment of the present invention;

FIG. 8 is a schematic diagram of the operational principle of secondary anti-error checking according to an alternative embodiment of the present invention;

fig. 9 is a block diagram (one) of the structure of the device for preventing false detection of the target device according to the embodiment of the present invention;

fig. 10 is a block diagram (ii) of the structure of the device for preventing false detection of the target device according to the embodiment of the present invention;

fig. 11 is a block diagram of a detection apparatus of a target device according to an embodiment of the present invention.

Detailed Description

The invention will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The method embodiments provided in the present application may be executed in a computer terminal or similar computing device. Taking the operation on a computer terminal as an example, fig. 1 is a hardware structure block diagram of a computer terminal of an anti-misdetection method for a target device according to an embodiment of the present invention. As shown in fig. 1, the computer terminal may include one or more (only one shown in fig. 1) processors 102 (the processor 102 may include, but is not limited to, a processing device such as a microprocessor MCU or a programmable logic device FPGA) and a memory 104 for storing data, and optionally, a transmission device 106 for communication functions and an input-output device 108. It will be understood by those skilled in the art that the structure shown in fig. 1 is only an illustration and is not intended to limit the structure of the computer terminal. For example, the computer terminal may also include more or fewer components than shown in FIG. 1, or have a different configuration with equivalent functionality to that shown in FIG. 1 or with more functionality than that shown in FIG. 1.

The memory 104 may be used to store a computer program, for example, a software program and a module of application software, such as a computer program corresponding to the method for preventing false detection of a target device in the embodiment of the present invention, and the processor 102 executes various functional applications and data processing by running the computer program stored in the memory 104, so as to implement the method described above. The memory 104 may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some examples, the memory 104 may further include memory located remotely from the processor 102, which may be connected to a computer terminal over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The transmission device 106 is used for receiving or transmitting data via a network. Specific examples of the network described above may include a wireless network provided by a communication provider of the computer terminal. In one example, the transmission device 106 includes a Network adapter (NIC), which can be connected to other Network devices through a base station so as to communicate with the internet. In one example, the transmission device 106 may be a Radio Frequency (RF) module, which is used for communicating with the internet in a wireless manner.

In this embodiment, an anti-misdetection method for a target device running on the computer terminal is provided, and fig. 2 is a flowchart of the anti-misdetection method for the target device according to the embodiment of the present invention, as shown in fig. 2, the flowchart includes the following steps:

step S202, receiving an operation signal for a target device, wherein the operation signal is used for indicating the displacement operation of the target device;

step S204, simulating the displacement operation of the target device to determine the operation attribute of the displacement operation, wherein the target device at least comprises one of the following components: primary equipment, secondary equipment;

step S206, searching the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation in the pre-stored anti-misoperation full constraint strategies according to the operation attributes, and searching all devices having a logical relationship with the target device in a device model, wherein the anti-misoperation full constraint strategy comprises: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model;

optionally, the logic rules of the primary device operation and the secondary device include: forbidding primary equipment to be put into operation under the condition of the loss of the relay protection function; the complete or missing state of the relay protection function is formed by combining the states of related secondary equipment, and the operation of the primary equipment is restricted by the state combination of the related secondary equipment;

optionally, the logic rules of the secondary device operation and the primary device include: forbidding the running primary equipment to lose the relay protection function: under the condition that the primary equipment is in operation, the secondary equipment is forbidden to operate, so that the primary equipment loses the relay protection function, namely the working state of the primary equipment has a constraint condition on the operation of the secondary equipment;

optionally, the logic rules of the secondary device operation and the secondary device include: prohibiting improper operation of secondary equipment poses a risk of malfunction or rejection of the normally operating equipment: part of secondary equipment is operated in a strict sequence, the violation of the operation sequence can cause the loss of the relay protection function or cause the misoperation or the refusal of the relay protection function, and the working state of the secondary equipment has a constraint condition on the operation of the secondary equipment;

and step S208, detecting whether all the devices meet the constraint conditions of the anti-misoperation full-constraint strategy.

Through the steps, an operation signal for the target device is received, wherein the operation signal is used for indicating the displacement operation of the target device; simulating a deflection operation on the target device to determine an operation attribute of the deflection operation, wherein the target device comprises at least one of: primary equipment, secondary equipment; according to the operation attributes, the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation are searched in pre-stored anti-misoperation full constraint strategies, and all devices having a logical relation with the target device are searched in a device model, wherein the anti-misoperation full constraint strategy comprises the following steps: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model; whether all the devices meet the constraint condition of the anti-misoperation full-constraint strategy is detected, by adopting the technical scheme, whether the primary device or the secondary device meets the logic rule between the primary device operation and the secondary device or the logic rule between the secondary device operation and the primary device or the logic rule between the secondary device operation and the secondary device is determined according to the constraint condition of the anti-misoperation full-constraint strategy, so that the effective anti-misoperation detection of the devices having a logic relation with the secondary device is realized, the problems that the devices having the logic relation with the secondary device cannot be effectively subjected to the anti-misoperation detection and the like in the related technology are solved, and further the occurrence of accidents is avoided.

In the embodiment of the present invention, all devices are detected through the constraint conditions included in the anti-misoperation full constraint policy in step S206, and when it is detected that there is a device in all the devices that does not satisfy the constraint conditions of the anti-misoperation full constraint policy, an alarm event is issued, where the alarm event includes at least one of the following events: displaying an alarm frame on the target operation interface; inhibiting the shift operation; forbidding to generate the operation items related to the displacement operation; prompting a failure reason, wherein the failure reason at least comprises one of the following reasons: the secondary device causing the shift operation failure may be an alternative or all of the alarm events may occur simultaneously, which is not limited in the embodiments of the present invention.

That is, when it is detected that there is a device that does not satisfy the constraint condition of the anti-misoperation full-constraint policy in the device, an alarm event is generated and prompted on the target operation interface, for example, a display alarm frame may appear on the target operation interface; when the related displacement operation is forbidden, prompting that the displacement operation is forbidden on a target operation interface and cannot be normally executed; when the displacement operation is forbidden, the related operation item for prompting the displacement operation of the target object is forbidden to be generated; when the deflection operation can be executed but the execution fails, the failure reason is prompted on the target operation interface, and the secondary equipment causing the deflection operation to fail and the abnormal state of the secondary equipment are subjected to detailed information display, so that the target object can conveniently respond according to the content of the alarm event.

There are various implementations of the step S204, and in an alternative embodiment: acquiring the equipment type and the current state information of the target equipment; and determining an operation attribute corresponding to the deflection operation according to the equipment type and the current state information, wherein the operation attribute at least comprises the equipment type and the target state of the target equipment.

In order to ensure that the simulated displacement operation of the target equipment is more accurate, when the displacement operation of the target equipment is simulated, not only the equipment type and the current state information (for example, the target equipment is in a running state, a hot standby state, a cold standby state and an overhaul state) of the target equipment need to be obtained, but also the operation attribute corresponding to the displacement operation needs to be determined according to the equipment type and the state information of the target equipment, for example, when the target equipment is electrical equipment, the current state is the hot standby state, and a breaker of the target equipment is at an opening position; and the switch blade is at the switch-on position or the handcart is at the operation position, the circuit breaker is switched to switch-on operation after the simulated displacement operation, the target equipment is put into operation, and the simulation of power transmission operation in the circuit is realized.

The obtaining of the device type and the current state information of the target device may be implemented by the following scheme: under the condition that the target equipment is primary equipment, acquiring the equipment type and the current state information corresponding to the primary equipment from a pre-established primary equipment model or acquiring the current state information from a database in association with the primary equipment model; and under the condition that the target equipment is secondary equipment, acquiring the equipment type and the current state information corresponding to the secondary equipment from a pre-established secondary equipment model or acquiring the current state information from a database in association with the secondary equipment model.

Specifically, before the obtaining of the device type and the current state information of the target device is performed, a first device model and a second device model need to be established in advance, where the primary device model includes at least one of the following: the type of the primary equipment, the connection relation among the primary equipment and the state information of the primary equipment, wherein the secondary equipment model comprises at least one of the following components: the type of the secondary equipment, the function application information of the secondary equipment, the state information of the secondary equipment, the mapping relation between the secondary equipment and the primary equipment, and the incidence relation between the secondary equipment.

In an optional embodiment of the present invention, detecting whether all the devices satisfy the constraint condition of the anti-misoperation full constraint policy includes: and analyzing all the devices having a logical relationship with the target device according to the constraint conditions to determine whether all the devices meet the constraint conditions of the anti-misoperation full-constraint strategy.

That is to say, in order to ensure that the anti-misoperation full-constraint policy can judge whether all the devices to be detected meet the anti-misoperation full-constraint policy, all the devices having a logical relationship with the target device need to be analyzed according to the constraint conditions, and the conditions that all the devices meet the constraint conditions can be determined according to the analysis results.

It should be noted that the logic rules of the primary device operation and the secondary device are used for prohibiting the primary device from being put into operation under the condition that the relay protection function is lost, the complete or lost state of the relay protection function is formed by combining the device states of the related secondary devices, and the primary device operation transferring operation is restricted by the device state combination of the related secondary devices; the logic rules of the operation of the secondary equipment and the primary equipment are used for preventing the running primary equipment from losing the relay protection function, and when the primary equipment is in a running condition, the operation of the secondary equipment is prevented to cause the primary equipment to lose the relay protection function, namely the operation condition of the secondary equipment is restrained according to the equipment state of the primary equipment; the secondary equipment operation and the logic rule of the secondary equipment are used for forbidding misoperation of the secondary equipment to cause misoperation or rejection risks to normally operated equipment, and due to the fact that part of the secondary equipment operations have strict sequence, when the operation sequence is violated, the relay protection function of the secondary equipment is lost or the relay protection function is mistakenly operated or rejected, and therefore constraint on the secondary equipment operations is achieved by means of the equipment state of the secondary equipment.

It should be noted that the embodiment of the present invention is not limited to the above-mentioned computer script language or logic formula.

That is to say, the embodiments of the present invention mainly provide two implementation manners for determining an operation signal, so as to ensure that a target object can quickly know when the target object changes in a target device, after the target object performs an operation on a target operation interface, a triggered operation signal is displayed on the target operation interface, and if it is detected that an unexpected displacement signal exists in the target device, the operation signal that needs to be performed is directly triggered.

In this embodiment, a method for detecting a target device is further provided, which is described with a focus on the perspective of interface display, and fig. 3 is a flowchart of the method for detecting a target device according to an embodiment of the present invention, where the flowchart includes the following steps:

step S302: receiving operation of a target object on a target operation interface to select target equipment in the target operation interface, wherein the target equipment at least comprises one of the following components: primary equipment, secondary equipment;

step S304: simulating the displacement operation of the target equipment, and displaying a simulation result on the target interface, wherein the simulation result is at least used for indicating an operation attribute corresponding to the displacement operation, and equipment which does not meet a constraint condition of an anti-misoperation full constraint strategy exists in all equipment which has a logical relationship with the target equipment, the constraint condition is obtained by searching in a pre-stored full constraint strategy according to the target state, the anti-misoperation full constraint strategy corresponds to the displacement operation, and the anti-misoperation full constraint strategy comprises: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model, the secondary equipment model.

Through the steps, receiving the operation of a target object on a target operation interface so as to select target equipment in the target operation interface; simulating the displacement operation of the target equipment, and displaying a simulation result on the target interface, wherein the simulation result is at least used for indicating an operation attribute corresponding to the displacement operation, and equipment which does not meet a constraint condition of an anti-misoperation full constraint strategy exists in all equipment which has a logical relationship with the target equipment, the constraint condition is obtained by searching in a pre-stored full constraint strategy according to the target state, the anti-misoperation full constraint strategy corresponds to the displacement operation, and the anti-misoperation full constraint strategy comprises: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model and the secondary equipment model adopt the technical scheme, the problems that the equipment with the logical relation with the secondary equipment cannot be effectively subjected to false detection prevention and the like in the related technology are solved, the scheme for effectively performing false detection prevention on the equipment with the logical relation with the secondary equipment is provided, and accidents are avoided.

In order to ensure that the simulated displacement operation of the target device is more accurate, when the displacement operation of the target device is simulated, not only the device type and the current state information (for example, the target device is in an operating state, a hot standby state, a cold standby state, and an overhaul state) of the target device need to be obtained, but also the operation attribute corresponding to the displacement operation needs to be determined according to the device type and the state information of the target device, for example, when the target device is an electrical device, the current state is a hot standby state, and the breaker of the target device is in an opening position. And the switch blade is at the switch-on position or the handcart is at the operation position, the circuit breaker is switched to switch-on operation after the simulated displacement operation, the target equipment is put into operation, and the simulation of power transmission operation in the circuit is realized.

That is, when it is detected that the constraint condition that does not satisfy the anti-misoperation full-constraint policy exists in the device, an alarm event is generated and prompted on the target operation interface, for example, a display alarm frame may appear on the target operation interface; when the related displacement operation is forbidden, prompting that the displacement operation is forbidden on a target operation interface and cannot be normally executed; when the displacement operation is forbidden, the related operation item for prompting the displacement operation of the target object is forbidden to be generated; when the deflection operation can be executed but the execution fails, the failure reason is prompted on the target operation interface, and the secondary equipment causing the deflection operation to fail and the abnormal state of the secondary equipment are subjected to detailed information display, so that the target object can conveniently respond according to the content of the alarm event.

The technical solution of the method for preventing false detection of the target device is described below with reference to the selected embodiments, but is not limited to the technical solution of the embodiments of the present invention.

An alternative embodiment of the present invention provides a system and method for preventing secondary device malfunction. The system for preventing the misoperation of the secondary equipment (namely the anti-misoperation system) displays the primitives and the state of the primary equipment and the secondary equipment (equivalent to target equipment in the embodiment of the invention) in real time through a graphical interface, and provides a simulated invoicing function based on the real-time state.

Optionally, as shown in fig. 4, the structure diagram is a schematic diagram of a main connection diagram of primary equipment of a 110kV substation displayed on an interface of the error prevention system, where the labeled number part in the diagram is an electrical interval (corresponding to all the equipment in the embodiment of the present invention that has a logical relationship with the target equipment) composed of the primary equipment such as a switch, an isolation switch, and a grounding switch, and the error prevention system calculates 4 working states of operation, hot standby, cold standby, and overhaul of the interval according to the on-off states of the inter-interval switch, the isolation switch, and the grounding switch.

For example, when the interval marked with numbers in fig. 4 is in a cold standby state, namely 1101, 11011, 11013, 1101J, 1101Y and 1101B are in a separated position, and the interval is provided with a set of relay protection devices to perform fault protection on the interval, but secondary devices such as hard pressure plates and soft pressure plates related to the relay protection devices are not in a normal state when the secondary devices are in operation. Based on the states of the primary and secondary devices, entering a simulated billing mode of an anti-misoperation system, clicking 1101 devices, analyzing the device types and the current device states of the clicked devices by the system, if the 1101 devices are switch devices, the current state is a sub-state, the simulation 1101 is converted into a closing operation, namely, a power transmission operation is simulated, at the moment, the anti-misoperation system traverses a full-misoperation-prevention constraint condition matched with the current operation in an anti-misoperation full-constraint strategy according to the power transmission operation of the devices, simultaneously analyzes and calculates the mapping relation between the primary devices and the secondary devices in the transformer substation, searches all the secondary devices in relation with the 1101 switches, and the system identifies whether the current states of the secondary devices meet the requirements of the full-misoperation-prevention constraint condition according to the matched full-misoperation-prevention constraint condition. When the anti-error system identifies that the state of the secondary equipment violates the full-anti-error constraint condition, popping up an alarm frame and forbidding the simulation operation of the current equipment, so that the simulation operation of the current equipment cannot generate related operation items, and informing the failure reason; it is also possible to allow the current device to simulate operation, allow the relevant operation item to be generated, but give a warning prompt for the current operation and inform the cause of the warning.

Fig. 5 is a schematic diagram of the anti-error check of the primary device in the simulation operation according to the alternative embodiment of the present invention, when the check fails or the check alarms, a pop-up warning window displays 1101 the reason of the failure of the modulo fitting operation, i.e., the violated constraint condition, and lists the name of the secondary device and the abnormal state thereof related to the failure of the simulation operation, for example, the alarm pop-up window in fig. 5 is caused by the incomplete protection function of the protection device, and lists the name and the position of the device with the problem.

The anti-error system realizes the secondary anti-error check function of the secondary equipment operation, firstly secondary equipment primitives and states thereof need to be displayed in the anti-error system, the secondary equipment comprises a hard pressing plate, a soft pressing plate, an air switch, a switching handle, abnormal signals and the like, as shown in figure 6, the secondary equipment primitives and the states thereof are distributed schematically in a 220kV intelligent substation secondary screen cabinet hard pressing plate primitive, a third row and a third row are maintenance hard pressing plates of a certain circuit merging unit device, the current state is in a withdrawing state, bus protection corresponding intervals SV having a logical relation with the current state receives the soft pressing plate and a circuit protection device starts a failure soft pressing plate to be in a switching state, based on the secondary equipment states, a simulated ticket issuing mode is entered, the hard pressing plate primitives 1-13LP of the maintenance pressing plate of a merging unit I of a route 101 are clicked to simulate switching operation, the anti-error system can prohibit the mode fitting operation and cannot generate related, and a warning window is popped up to inform the reason of the failure. As shown in fig. 7, a pop-up warning window may display the reason for the failure of the mode fitting operation, i.e., violated constraints (such as the SV soft platen with bus and the failed line protection soft platen shown in the figure), and list the names of the secondary devices and their abnormal states related to the failure of the simulation operation.

In an optional embodiment of the invention, the primary equipment and the secondary equipment are checked through a secondary anti-misoperation module in the anti-misoperation system, and the secondary anti-misoperation module calculates whether the operation or state of the primary equipment or the secondary equipment meets the relevant constraint condition in the anti-misoperation full constraint strategy according to the anti-misoperation full constraint strategy, the system model, the primary equipment and the secondary equipment state. Fig. 8 is a schematic diagram of an operation principle of secondary anti-misoperation, according to an alternative embodiment of the present invention, when a first and second device simulation operations or a first and second device state constraint check request occurs, the anti-misoperation system calls and analyzes an anti-misoperation full constraint policy by obtaining model data and a first and second device state and using a secondary anti-misoperation program, analyzes and calculates whether the first and second device states related to the first and second device operations satisfy the requirement of the anti-misoperation full constraint policy, and then gives a check result, if yes, a corresponding operation item is generated, and if not, an error or warning window is popped up.

Specifically, when a primary device primitive is clicked from the system to perform a simulated preview operation, the system analyzes the device type and the current device state of the clicked device, if the clicked device is a switch device and the current state is a branch state, the current device is simulated to be switched to an on operation, namely a power transmission operation is simulated, at the moment, the system traverses a constraint condition matched with the current operation in an anti-misoperation full constraint strategy according to the power transmission operation of the device, simultaneously analyzes the mapping relation between the primary device and the secondary device related to the current operation, extracts all primary device and secondary device model information related to the current operation to perform comprehensive analysis, and identifies whether the current state of the related secondary device meets the constraint condition requirement of the current anti-misoperation according to the matched constraint condition, if the state of the secondary device does not meet the constraint condition requirement, popping up an alarm frame, prohibiting the simulation operation of the current equipment, failing to generate related operation items, and informing the failure reason; it is also possible to allow the current device to simulate operation, allow the relevant operation item to be generated, but give a warning prompt for the current operation and inform the cause of the warning.

Similarly, when the secondary equipment primitive is clicked from the system to perform the simulated preview operation, the system analyzes the equipment type and the current equipment state of the clicked equipment, if the clicked equipment is a hard pressing plate equipment, the current state is a closed state, the current equipment is simulated to be converted into branch operation, namely the simulated shutdown operation, at the moment, the system traverses the constraint condition matched with the current operation in the anti-misoperation full constraint strategy according to the shutdown operation of the equipment, simultaneously analyzes the mapping relation between the primary equipment and the secondary equipment related to the current operation, extracts all the primary equipment and secondary equipment model information related to the current operation to perform comprehensive analysis, identifies whether the current states of the primary equipment and the secondary equipment related to the association meet the constraint condition requirement of the anti-misoperation according to the matched constraint condition, if the states of the primary equipment and the secondary equipment do not meet the constraint condition requirement of the current operation, popping up an alarm frame, prohibiting the simulation operation of the current equipment, failing to generate related operation items, and informing the failure reason; it is also possible to allow the current device to simulate operation, allow the relevant operation item to be generated, but give a warning prompt for the current operation and inform the cause of the warning.

When unexpected state displacement occurs in the primary equipment and the secondary equipment, the equipment state constraint check request can be triggered, the system identifies the primary equipment or the secondary equipment with unexpected state displacement, the constraint condition matched with the current state displacement is traversed in the anti-misoperation full constraint strategy, simultaneously analyzing the mapping relation between the primary equipment and the secondary equipment related to the current state deflection, extracting all the model information of the primary equipment and the secondary equipment related to the current state deflection for comprehensive analysis, identifying whether the current states of the primary equipment and the secondary equipment related to the current state deflection meet the requirement of an anti-error full-constraint strategy or not by the system according to matched constraint conditions, if the condition that the states of the primary equipment and the secondary equipment do not meet the constraint condition requirement of the current state displacement is identified, popping up an alarm box to prompt specific reasons that the constraint condition is not met; if the states of the primary equipment and the secondary equipment are identified to meet the constraint condition requirement of the current state displacement, no prompt is needed;

the system model information includes a primary model and a secondary model, the primary model includes primary device information and electrical connection information between the primary devices, and the primary device information mainly includes primary device type and state information. The secondary device information comprises identification, device type, function application, current state, mapping associated information with the primary device and the like, and through the model information, the system can determine the relationship among the primary devices, the relationship between the secondary devices and the primary devices and the relationship between the secondary devices and the secondary devices, and meanwhile, the model can also obtain the information of participating constraint condition calculation such as device function application, device state and the like.

The anti-misoperation full-constraint strategy is finally displayed in a secondary anti-misoperation logic mode, the secondary anti-misoperation logic mode is data for describing the primary equipment operation, the secondary equipment operation and the constraint relation between the primary equipment state and the secondary equipment state through a computer script language mode, and the first equipment operation, the secondary equipment operation and the constraint relation between the primary equipment state and the secondary equipment state can also be described through a logic formula mode.

To sum up, the technical scheme is adopted to display the real-time states of the first equipment and the second equipment in real time through the graphical software interface provided by the system, when the software interface simulates the displacement of the first equipment and the second equipment, the system can calculate and analyze the constraint condition of the current operation according to the anti-misoperation full constraint strategy, judge whether the current simulation operation meets the requirement of the constraint condition, if the constraint condition is violated, forbid and give an alarm to prompt, if the constraint condition is not violated, the operation is allowed, and therefore the misoperation is prevented.

Through the above description of the embodiments, those skilled in the art can clearly understand that the method according to the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but the former is a better implementation mode in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

In this embodiment, an anti-error detection apparatus for a target device is further provided, and the apparatus is used to implement the foregoing embodiments and preferred embodiments, and the description of the apparatus is omitted. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. Although the means described in the embodiments below are preferably implemented in software, an implementation in hardware, or a combination of software and hardware is also possible and contemplated.

Fig. 9 is a block diagram of a configuration of an anti-misdetection apparatus of a target device according to an embodiment of the present invention, and as shown in fig. 9, the apparatus includes:

a first receiving module 52, configured to receive an operation signal for a target device, where the operation signal is used to instruct a shift operation on the target device;

a simulation module 54 configured to simulate a shift operation on the target device to determine an operation attribute of the shift operation, wherein the target device includes at least one of: primary equipment, secondary equipment;

a determining module 56, configured to search, according to the operation attribute, a constraint condition of the anti-misoperation full constraint policy corresponding to the shift operation in a pre-stored anti-misoperation full constraint policy, and search, in an equipment model, all pieces of equipment having a logical relationship with the target piece of equipment, where the anti-misoperation full constraint policy includes: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model;

a detecting module 58, configured to detect whether all the devices satisfy the constraint condition of the full constraint policy.

According to the technical scheme, an operation signal for target equipment is received, wherein the operation signal is used for indicating the displacement operation of the target equipment; simulating a deflection operation on the target device to determine an operation attribute of the deflection operation, wherein the target device comprises at least one of: primary equipment, secondary equipment; according to the operation attributes, the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation are searched in pre-stored anti-misoperation full constraint strategies, and all devices having a logical relation with the target device are searched in a device model, wherein the anti-misoperation full constraint strategy comprises the following steps: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model; whether all the devices meet the constraint condition of the anti-misoperation full-constraint strategy is detected, by adopting the technical scheme, whether the primary device or the secondary device meets the logic rule between the primary device operation and the secondary device or the logic rule between the secondary device operation and the primary device or the logic rule between the secondary device operation and the secondary device is determined according to the constraint condition of the anti-misoperation full-constraint strategy, so that the effective anti-misoperation detection of the devices having a logic relation with the secondary device is realized, the problems that the devices having the logic relation with the secondary device cannot be effectively subjected to the anti-misoperation detection and the like in the related technology are solved, and further the occurrence of accidents is avoided.

It should be noted that, the logic rule between the primary device operation and the secondary device is used to indicate that the secondary device should be in a specific device state when the primary device is operated; a logic rule between the secondary device operation and the primary device to indicate that the primary device should be in a particular device state while operating the secondary device; a logic rule between the secondary device operation and the secondary device to indicate that the secondary device associated therewith should be in a particular device state while operating the secondary device. The logic rules of the primary equipment operation and the secondary equipment are used for prohibiting the primary equipment from being put into operation under the condition that the relay protection function is lost, the complete or lost state of the relay protection function is formed by combining the equipment states of the related secondary equipment, and the primary equipment operation transferring operation is restricted by the equipment state combination of the related secondary equipment; the logic rules of the operation of the secondary equipment and the primary equipment are used for preventing the running primary equipment from losing the relay protection function, and when the primary equipment is in a running condition, the operation of the secondary equipment is prevented to cause the primary equipment to lose the relay protection function, namely the operation condition of the secondary equipment is restrained according to the equipment state of the primary equipment; the secondary equipment operation and the logic rule of the secondary equipment are used for forbidding misoperation of the secondary equipment to cause misoperation or rejection risks to normally operated equipment, and due to the fact that part of the secondary equipment operations have strict sequence, when the operation sequence is violated, the relay protection function of the secondary equipment is lost or the relay protection function is mistakenly operated or rejected, and therefore constraint on the secondary equipment operations is achieved by means of the equipment state of the secondary equipment.

Fig. 10 is a block diagram of another structure of the device for preventing false detection of the target device according to the embodiment of the present invention, and as shown in fig. 10, the device includes, in addition to all modules shown in fig. 9: and the alarm module is used for sending out an alarm event under the condition that the equipment is detected to have the constraint condition that the equipment does not meet the misoperation prevention full-constraint strategy.

Optionally, the warning module 60 is further configured to display a warning box on the target operation interface; inhibiting the shift operation; forbidding to generate the operation items related to the displacement operation; prompting a failure reason, wherein the failure reason at least comprises one of the following reasons: the secondary device causing the shift operation failure may be an alternative or all of the alarm events may occur simultaneously, which is not limited in the embodiments of the present invention.

Optionally, the simulation module 54 is configured to obtain a device type and current state information of the target device; and determining an operation attribute corresponding to the deflection operation according to the equipment type and the current state information, wherein the operation attribute at least comprises the equipment type and the target state of the target equipment.

Optionally, the determining module 56 is further configured to analyze all the devices having a logical relationship with the target device according to the constraint condition, so as to determine whether all the devices meet the constraint condition of the anti-misoperation full constraint policy.

Optionally, the simulation module 54 is further configured to, when the target device is a primary device, obtain a device type and current state information corresponding to the primary device from a pre-established primary device model; and under the condition that the target equipment is secondary equipment, acquiring the equipment type and the current state information corresponding to the secondary equipment from a pre-established secondary equipment model, wherein the primary equipment model comprises at least one of the following: the type of the primary equipment, the connection relation among the primary equipment and the state information of the primary equipment, wherein the secondary equipment model comprises at least one of the following components: the type of the secondary equipment, the function application information of the secondary equipment, the state information of the secondary equipment, the mapping relation between the secondary equipment and the primary equipment, and the incidence relation between the secondary equipment.

In short, in order to better perform the anti-error detection of the target device, the efficiency of performing the simulation of the displacement operation of the target device is improved by building a device model in advance, and in order to ensure the accuracy of the simulation, the target device model needs to include the relevant information of the target device, such as the connection relationship between devices, the state information of the device, the type of the device, and the function application information of the device.

Optionally, the determining module 56 is further configured to expose the anti-misoperation full constraint policy in a form of constraint condition, where the constraint condition is determined at least by: computer script language or logic formulas.

Optionally, the first receiving module 52 is further configured to receive an operation signal triggered by the target object after the target operation interface is operated; an operation signal triggered by the target device in the case where an unexpected displacement signal is detected is received.

That is to say, the embodiments of the present invention mainly provide two implementation manners for determining an operation signal, so as to ensure that a target object can quickly know when the target object changes in a target device, after the target object performs an operation on a target operation interface, a triggered operation signal is displayed on the target operation interface, and if it is detected that an unexpected displacement signal exists in the target device, the operation signal that needs to be performed is triggered.

Fig. 11 is a block diagram of a structure of a detection apparatus of a target device according to an embodiment of the present invention, as shown in fig. 11, the apparatus including:

a second receiving module 62, configured to receive, on a target operation interface, an operation of a target object to select a target device in the target operation interface, where the target device includes at least one of: primary equipment, secondary equipment;

a processing module 64, configured to simulate a shift operation on the target device, and display a simulation result on the target interface, where the simulation result is at least used to indicate an operation attribute of the shift operation, and a device that does not satisfy a constraint condition of an anti-misoperation full constraint policy exists in all devices that have a logical relationship with the target device, and the constraint condition is found in a pre-stored full constraint policy according to the target state, where the anti-misoperation full constraint policy includes: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model, the secondary equipment model.

Through the device, the operation of a target object is received on a target operation interface so as to select target equipment in the target operation interface, wherein the target equipment at least comprises one of the following components: primary equipment, secondary equipment; simulating the displacement operation of the target equipment, and displaying a simulation result on the target interface, wherein the simulation result is at least used for indicating an operation attribute corresponding to the displacement operation, and equipment which does not meet a constraint condition of an anti-misoperation full constraint strategy exists in all equipment which has a logical relationship with the target equipment, the constraint condition is obtained by searching in a pre-stored full constraint strategy according to the target state, the anti-misoperation full constraint strategy corresponds to the displacement operation, and the anti-misoperation full constraint strategy comprises: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model and the secondary equipment model adopt the technical scheme, the problems that the equipment with the logical relation with the secondary equipment cannot be effectively subjected to false detection prevention and the like in the related technology are solved, the scheme for effectively performing false detection prevention on the equipment with the logical relation with the secondary equipment is provided, and accidents are avoided.

Optionally, the processing module 64 is further configured to obtain a current device state of the target device; and simulating the displacement operation of the target equipment corresponding to the current equipment state to determine the operation attribute of the displacement operation.

Optionally, the processing module 64 is further configured to display an alarm box on the target operation interface; prompting a failure reason, wherein the failure reason at least comprises one of the following reasons: a secondary device causing the shift operation to fail, and an abnormal state of the secondary device causing the shift operation to fail.

It should be noted that, the above modules may be implemented by software or hardware, and for the latter, the following may be implemented, but not limited to: the modules are all positioned in the same processor; alternatively, the modules are respectively located in different processors in any combination.

Embodiments of the present invention also provide a storage medium having a computer program stored therein, wherein the computer program is arranged to perform the steps of any of the above method embodiments when executed.

Alternatively, in the present embodiment, the storage medium may be configured to store a computer program for executing the steps of:

s1, receiving an operation signal aiming at a target device, wherein the operation signal is used for indicating the displacement operation of the target device;

s2, simulating the deflection operation of the target device to determine the operation attribute of the deflection operation, wherein the target device at least comprises one of the following: primary equipment, secondary equipment;

s3, according to the operation attributes, searching the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation in the pre-stored anti-misoperation full constraint strategy, and searching all devices having a logical relationship with the target device in a device model, wherein the anti-misoperation full constraint strategy comprises: logic rules between primary device operation and secondary device, logic rules between secondary operation device and primary device, logic rules between secondary device operation and secondary device, the device model comprising at least one of: the primary equipment model, the secondary equipment model.

And S4, detecting whether all the devices meet the constraint conditions of the anti-misoperation full-constraint strategy.

Optionally, in this embodiment, the storage medium may include, but is not limited to: various media capable of storing computer programs, such as a usb disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk.

Embodiments of the present invention also provide an electronic device comprising a memory having a computer program stored therein and a processor arranged to run the computer program to perform the steps of any of the above method embodiments.

Optionally, the electronic apparatus may further include a transmission device and an input/output device, wherein the transmission device is connected to the processor, and the input/output device is connected to the processor.

Optionally, in this embodiment, the processor may be configured to execute the following steps by a computer program:

s3, according to the operation attributes, searching the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation in pre-stored anti-misoperation full constraint strategies, and determining all devices having a logical relationship with the target device, wherein the anti-misoperation full constraint strategy comprises: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model, the secondary equipment model.

Optionally, the specific examples in this embodiment may refer to the examples described in the above embodiments and optional implementation manners, and this embodiment is not described herein again.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An anti-error detection method of a target device is characterized by comprising the following steps:

receiving an operation signal aiming at a target device, wherein the operation signal is used for indicating the displacement operation of the target device;

simulating a deflection operation on the target device to determine an operation attribute of the deflection operation, wherein the target device comprises at least one of: primary equipment, secondary equipment;

according to the operation attributes, the constraint conditions of the anti-misoperation full constraint strategy corresponding to the displacement operation are searched in pre-stored anti-misoperation full constraint strategies, and all devices having a logical relation with the target device are searched in a device model, wherein the anti-misoperation full constraint strategy comprises the following steps: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model;

and detecting whether all the devices meet the constraint conditions of the anti-misoperation full-constraint strategy.

2. The method of claim 1, wherein after detecting whether all of the devices satisfy the constraints of the fully constrained policy, the method further comprises:

and sending an alarm event when detecting that the equipment in all the equipment does not meet the constraint condition of the anti-misoperation full-constraint strategy.

3. The method according to claim 2, wherein in case that it is detected that there is a device in all the devices that does not satisfy the constraint condition of the anti-misoperation full constraint policy, an alarm event is issued, including at least one of:

displaying an alarm frame on the target operation interface;

inhibiting the shift operation;

forbidding to generate the operation items related to the displacement operation;

prompting a failure reason, wherein the failure reason at least comprises one of the following reasons: a secondary device causing the shift operation to fail, and an abnormal state of the secondary device causing the shift operation to fail.

4. The method of claim 1, wherein simulating a shift operation on the target device to determine an operational attribute of the shift operation comprises:

acquiring the equipment type and the current state information of the target equipment;

and determining an operation attribute corresponding to the deflection operation according to the equipment type and the current state information, wherein the operation attribute at least comprises the equipment type and the target state of the target equipment.

5. The method of claim 4, wherein detecting whether all of the devices satisfy the constraints of the anti-misoperation full constraint policy comprises:

and analyzing all the devices having a logical relationship with the target device according to the constraint conditions to determine whether all the devices meet the constraint conditions of the anti-misoperation full-constraint strategy.

6. The method of claim 4, wherein obtaining the device type and current status information of the target device comprises:

under the condition that the target equipment is primary equipment, acquiring the equipment type and current state information corresponding to the primary equipment from a pre-established primary equipment model;

and under the condition that the target equipment is secondary equipment, acquiring the equipment type and the current state information corresponding to the secondary equipment from a pre-established secondary equipment model.

7. The method according to claim 1 or 6, wherein the primary device model comprises at least one of: the type of the primary equipment, the connection relation among the primary equipment and the state information of the primary equipment, wherein the secondary equipment model comprises at least one of the following components: the type of the secondary equipment, the function application information of the secondary equipment, the state information of the secondary equipment, the mapping relation between the secondary equipment and the primary equipment, and the incidence relation between the secondary equipment.

8. The method of claim 1,

a logic rule between the primary device operation and the secondary device to indicate that the secondary device should be in a particular device state while operating the primary device; a logic rule between the secondary device operation and the primary device to indicate that the primary device should be in a particular device state while operating the secondary device; a logic rule between the secondary device operation and the secondary device to indicate that the secondary device associated therewith should be in a particular device state while operating the secondary device.

9. The method of claim 8,

the logic rules of the primary equipment operation and the secondary equipment are used for forbidding the primary equipment to operate under the condition that the relay protection function is lost, and whether the relay protection function is lost is determined by the equipment state of the secondary equipment; and/or

The logic rule between the operation of the secondary equipment and the primary equipment is used for preventing the primary equipment in operation from losing the relay protection function, wherein the operation of the secondary equipment is prevented under the operation condition of the primary equipment, so that the primary equipment loses the relay protection function;

and the logic rule between the operation of the secondary equipment and the secondary equipment is used for forbidding the improper operation of the secondary equipment to cause operation risk to the normally operated secondary equipment.

10. The method of claim 1, wherein the anti-misoperation full constraint policy is exposed in the form of constraints, wherein the constraints are determined by at least: computer script language or logic formulas.

11. The method of claim 1, wherein receiving an operational signal for a target device comprises at least one of:

receiving an operation signal triggered by a target object after the target object is operated on a target operation interface;

an operation signal triggered by the target device in the case where an unexpected displacement signal is detected is received.

12. A method for detecting a target device, comprising:

receiving operation of a target object on a target operation interface to select target equipment in the target operation interface, wherein the target equipment at least comprises one of the following components: primary equipment, secondary equipment;

simulating the displacement operation of the target equipment, and displaying a simulation result on the target interface, wherein the simulation result is at least used for indicating an operation attribute corresponding to the displacement operation, and equipment which does not meet a constraint condition of an anti-misoperation full constraint strategy exists in all equipment which has a logical relationship with the target equipment, the constraint condition is obtained by searching in a pre-stored full constraint strategy according to the target state, the anti-misoperation full constraint strategy corresponds to the displacement operation, and the anti-misoperation full constraint strategy comprises: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model, the secondary equipment model.

13. The method of claim 12, wherein the simulating the indexing operation of the target device comprises:

acquiring the current equipment state of the target equipment;

and simulating the displacement operation of the target equipment corresponding to the current equipment state to determine the operation attribute of the displacement operation.

14. The method of claim 12, wherein displaying the simulation results on the target interface comprises:

displaying an alarm frame on the target operation interface;

15. The method of claim 12,

16. The method of claim 15,

17. An anti-error detection device of a target device, comprising:

the device comprises a first receiving module, a second receiving module and a control module, wherein the first receiving module is used for receiving an operation signal aiming at a target device, and the operation signal is used for indicating the displacement operation of the target device;

a simulation module, configured to simulate a shift operation on the target device to determine an operation attribute of the shift operation, where the target device includes at least one of: primary equipment, secondary equipment;

a determining module, configured to search, according to the operation attribute, a constraint condition of a full-constraint misoperation prevention strategy corresponding to the shift operation in a pre-stored full-constraint misoperation prevention strategy, and search, in an equipment model, all pieces of equipment having a logical relationship with the target piece of equipment, where the full-constraint misoperation prevention strategy includes: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, logic rules between secondary device operations and secondary devices, the device model including at least one of: the primary equipment model, the secondary equipment model;

and the detection module is used for detecting whether all the devices meet the constraint conditions of the full constraint strategy.

18. A detection apparatus of a target device, comprising:

a second receiving module, configured to receive, on a target operation interface, an operation of a target object to select a target device in the target operation interface, where the target device includes at least one of: primary equipment, secondary equipment;

a processing module, configured to simulate a shift operation on the target device, and display a simulation result on the target interface, where the simulation result is at least used to indicate an operation attribute of the shift operation, and a device that does not satisfy a constraint condition of an anti-misoperation full constraint policy exists in all devices that have a logical relationship with the target device, and the constraint condition is found in a pre-stored full constraint policy according to the target state, where the anti-misoperation full constraint policy includes: logic rules between primary device operations and secondary devices, logic rules between secondary device operations and primary devices, and logic rules between secondary device operations and secondary devices, by searching for all devices in a device model that have a logical relationship with the target device, the device model including at least one of: the primary equipment model, the secondary equipment model.

19. A storage medium having a computer program stored thereon, wherein the computer program is arranged to perform the method of any of claims 1 to 11, or the method of any of claims 12 to 16 when executed.

20. An electronic device comprising a memory and a processor, wherein the memory has stored therein a computer program, and wherein the processor is arranged to execute the computer program to perform the method of any of claims 1 to 11, or the method of any of claims 12 to 16.