CN109461235B - Electricity testing unlocking method - Google Patents

Abstract

The invention discloses an electricity-testing unlocking method, which comprises the steps of configuring a readable lock code for a controlled common lock and an electrified display in advance and controlling field unlocking; and in the field unlocking step, the unlocking operation of the current controlled lock is judged whether to need to be tested according to the unlocking condition by reading the lock code information of the current controlled lock, and an electronic testing unlocking sub-process or a common unlocking sub-process is selected to enter. The invention can directly unlock the controlled lock by the intelligent key without a background management system.

Description

Electricity testing unlocking method

All as the field of technology

The invention relates to the technical field of power equipment management and control, in particular to an electricity testing unlocking method.

All the above-mentioned background techniques

The existing electricity-testing unlocking system is a classic three-layer structure model, wherein the top layer is a background system, the middle layer is an operation key, and the bottom layer is various locks. The background system is used for managing locks and key identity code values, issuing operation tickets and the like; the operation key is used for receiving an operation ticket and sequentially unlocking the lockset according to an operation sequence specified by the operation ticket; the lockset is used for locking various parts needing to be controlled.

The problems existing in the prior art are as follows:

problem 1: the lock identity needs to be collected and input after the lock is installed, and configuration management is carried out in a background system, so that the operation is complex.

Problem 2: no matter how many locks, the function of electricity test unlocking can be realized by the whole system, and resource waste is easily caused.

Problem 3: when the operation interval is inconsistent with the operation ticket or the non-operation ticket interval needs to be temporarily processed on the spot, the operation can be performed only by sending the operation ticket back to the background again, the operation mode is inflexible, the emergency capability is insufficient, and the efficiency is low.

All the contents of the invention

The invention aims to provide an electricity testing unlocking method, which can directly unlock a controlled lock through an intelligent key without a background management system. The purpose of the invention is realized by the following technical scheme:

an electricity-testing unlocking method is based on the intelligent key and a controlled lock management and control system, the controlled lock type comprises a common lock and an associated lock with an electricity display, and the method is characterized by comprising the following steps:

firstly, configuring readable lock codes for the common lock and the lock associated with the electrified display in advance:

the lock code configured for the conventional lock includes: lock identity information, lock type and unlocking condition; the lock code configured for the associated lock with the electronic display comprises: lock identity information, lock type, unlocking condition and charged information; the unlocking condition comprises information whether electricity verification is required;

secondly, through the control step that intelligent key scene was unblanked, specifically include:

(1) reading a lock code of a current controlled lock;

(2) judging whether the unlocking operation of the current controlled lockset needs to be tested according to the unlocking condition in the lock code of the current controlled lockset, if so, determining the current controlled lockset to be a related lockset with an electric display and entering a step (3A), otherwise, determining the current controlled lockset to be a common lockset and entering a step (3B);

(3A) carrying out an electronic unlocking verification process, which comprises the following steps: (3A1) selecting a related electrified display of a current controlled lockset and acquiring electrified information of the electrified display; (3A2) judging whether the line where the electrified display is located is electrified or not according to the electrified information, if so, entering the step (4), and if not, authorizing the intelligent key to open the currently controlled lockset and entering the step (4);

(3B) carrying out a common unlocking sub-process;

(4) and ending the unlocking operation of the currently controlled lock.

As a specific technical scheme, the locking code is composed of a plurality of binary digits.

As a specific technical scheme, the charged information in the lock code of the lock with the associated charged display is obtained from the current charged state of the line where the associated charged display is located.

As a specific technical solution, in the step (3a1), a specific method for acquiring the charging information of the charging indicator is as follows: reading the lock code of the lock associated with the electrified display through the intelligent key to obtain the lock code; or the intelligent key directly contacts the charged display contact point to obtain the key.

As a specific technical scheme, the lock code configured by the lock associated with the electrified display also comprises front and rear equipment information and operation sequence information; before the step (3A), the method further comprises the following steps: judging whether the unlocking operation of the current controlled lockset has unlocking sequence requirements or not according to the operation sequence information in the lock code of the current controlled lockset, if so, entering the step II, otherwise, entering the step (3A); and secondly, judging whether the current controlled lock is in a correct operation sequence position or not according to the front and rear equipment information in the lock code of the current controlled lock, if so, authorizing the intelligent key to open the current controlled lock and entering the step (4), and otherwise, reselecting one controlled lock as the current controlled lock and returning to the step (1).

As a specific technical scheme, the lock codes of the common lock and the lock associated with the electrified display also respectively comprise front and rear equipment information and operation sequence information; the general unlocking sub-process comprises the following steps: I. judging whether the unlocking operation of the current controlled lockset has unlocking sequence requirements or not according to the operation sequence information in the lock code of the current controlled lockset, if so, entering a step II, otherwise, entering a step (3B); II. And (4) judging whether the current controlled lockset is in a correct operation sequence position or not according to the front and rear equipment information in the lock code of the current controlled lockset, if so, authorizing the intelligent key to open the current controlled lockset and entering the step (4), otherwise, reselecting one controlled lockset as the current lockset and returning to the step (1).

As a specific technical solution, when a controlled lock is reselected, the lock is reselected according to the front-back device information in the lock code of the current controlled lock.

As a specific technical scheme, the lock codes configured by the common lock and the lock associated with the electrified display also respectively comprise interval numbers; in the step (3a1), after the associated charged display of the currently controlled lock is selected, comparing the interval numbers of the currently controlled lock and the associated charged display, if the interval numbers are the same, acquiring the charged information of the associated charged display by the intelligent key, otherwise, reselecting the associated charged display of the currently controlled lock.

As a specific technical scheme, after the step (1) and before the step (2), the method further comprises the step of verifying whether the current controlled lock is a lock in the management and control system, wherein the step is realized by verifying identity information and/or interval numbers of a lock code of the current controlled lock.

As a specific technical scheme, the lock identity information comprises an identity identification code and a production date.

The invention has the beneficial effects that: the lock is provided with the identity, the operation sequence and other related information, and the lock identity information management is not required to be carried out by a background system. Even if lockset equipment is added, the intelligent key can be directly taken for operation, and the data on the intelligent key does not need to be adjusted, so that the maintenance work becomes simple and easy. As long as field device satisfies the condition of testing electricity and unblanking can carry out corresponding operation, and the flexibility of operation is strong.

Description of the drawings

Fig. 1 is a block diagram of a system on which the electricity verification unlocking method according to the embodiment of the present invention is based.

Fig. 2 is a schematic view of a code value of a lock in the electricity verification unlocking method according to the embodiment of the present invention.

Fig. 3 is a flowchart of an electricity verification unlocking method provided in the embodiment of the present invention.

(specific embodiments) in all cases

The following further describes embodiments of the present invention with reference to the accompanying drawings:

as shown in fig. 1, the management and control system on which the electricity verification unlocking method provided in this embodiment is based includes a controlled lock and a smart key. The controlled lock includes a common lock (e.g., a conventional lock such as a padlock, an electronic lock, etc., in this embodiment, the padlock is taken as an example for explanation) and a lock associated with a live display (a high-voltage live display device, which is called a live display for short, and is abbreviated as VPIS). The intelligent key has a code reading function, a data analysis processing function, an unlocking function and a communication function, and the conventional intelligent key has the basic functions.

In this embodiment, the controlled lock includes a lock body and a lock code, and the lock code is integrated with the lock body in a pre-configured manner. As shown in fig. 2, the lock code value includes lock identification information, space number, lock type, unlocking condition, charged information (charged information is only configured for the lock associated with the charged display), front-back device information, and operation sequence information. In this embodiment, the lock code configured for the padlock includes: lock identity, interval number, lock type, unlocking condition, front and back equipment information and operation sequence information; a lock code configured for association with an electrically activated lock comprising: lock identity, interval number, lock type, unlocking condition, charged information, front and back equipment information and operation sequence information.

The lock code is composed of a plurality of binary digits, wherein:

lock identity information: including the identification code and the date of manufacture.

Interval numbering: the interval identification number that the tool to lock is located, the tool to lock of same interval serial number is installed in the same interval of the cabinet body.

The lock types are as follows: the binary bit identification is used for determining the type of the lock (such as 00-associated lock with the electrified display; 01-cabinet door padlock; 10-ground knife padlock; 11-switch padlock and the like), and firstly, the common lock and the associated lock with the electrified display can be distinguished, and then, the specific type of the padlock can be distinguished.

Unlocking conditions are as follows: the condition of opening the tool to lock mainly indicates whether need test electricity before the unblanking in this embodiment. The lock can be unlocked only after the condition is met (for example, before the ground knife padlock is opened, the high-voltage electricity display is required to be subjected to electricity testing operation, and the ground knife padlock can be opened without electricity).

Charging information: this information is only configured for locks associated with live displays (e.g., 0-no power; 1-live). The live information is taken from the current state of the line where the live display is located and is determined by the current state of the line where the live display is located. That is, the lock code of the ordinary lock is fixed, and the lock code of the lock associated with the charged display is dynamically variable according to the change of the charged information.

Front and back device information: whether the lock is arranged in the front and at the back of the position of the lock in the system or not.

Operation sequence information: the unlocking operation sequence (for example, 0-order: operation is carried out according to a certain sequence; 1-disorder: operation can be carried out randomly).

The embodiment provides a control step of unlocking on site through an intelligent key, which is shown in detail in fig. 3, and specifically includes:

(1) selecting a controlled lockset on site, and reading the lock code of the current controlled lockset by using an intelligent key;

(2) judging whether the unlocking operation of the current controlled lockset needs to be tested according to the unlocking condition in the lock code of the current controlled lockset, if so, determining the current controlled lockset to be a related lockset with an electric display and entering a step (3A), otherwise, determining the current controlled lockset to be a common lockset and entering a step (3B);

(3A) carrying out an electronic unlocking verification process, which comprises the following steps: (3A1) selecting a related electrified display of a current controlled lockset and acquiring electrified information of the electrified display; (3A2) judging whether the line where the electrified display is located is electrified or not according to the electrified information, if so, entering the step (4), and if not, authorizing the intelligent key to open the currently controlled lockset and entering the step (4);

(3B) performing a general unlocking sub-process, comprising: I. judging whether the unlocking operation of the current controlled lock has unlocking sequence requirements or not according to the operation sequence information in the lock code of the current controlled lock, if so, entering a step II, and otherwise, entering a step (3B); II. And (4) judging whether the current controlled lockset is in a correct operation sequence position or not according to the front and rear equipment information in the lock code of the current controlled lockset, if so, authorizing the intelligent key to open the current controlled lockset and entering the step (4), otherwise, reselecting one controlled lockset as the current lockset and returning to the step (1). Authorizing the intelligent key to open the currently controlled lock and entering the step (4);

(4) and ending the unlocking operation of the currently controlled lock.

In this embodiment, the specific method for acquiring the charging information of the charging indicator in step (3a1) is as follows: reading a lock code of a lock associated with the electrified display through an intelligent key to obtain the lock code; or the key is obtained by directly contacting the intelligent key with the charged display contact.

In this embodiment, before entering step (3A), the following steps (not shown in fig. 3) are further included: judging whether the unlocking operation of the current controlled lockset has unlocking sequence requirements or not according to the operation sequence information in the lock code of the current controlled lockset, if so, entering the step II, otherwise, entering the step (3A); and secondly, judging whether the current controlled lock is in a correct operation sequence position or not according to the front and rear equipment information in the lock code of the current controlled lock, if so, authorizing the intelligent key to open the current controlled lock and entering the step (4), and otherwise, reselecting one controlled lock as the current controlled lock and returning to the step (1).

When a controlled lock is reselected, the former and latter equipment information in the lock code of the current controlled lock is reselected, and the former lock in the former and latter equipment information is generally selected.

In addition, in the step (3a1), after the associated electrified display of the currently controlled lock is selected, the interval numbers of the currently controlled lock and the associated electrified display are compared, if the current controlled lock and the associated electrified display are the same, the electrified information of the associated electrified display is obtained through the intelligent key, and otherwise, the associated electrified display of the currently controlled lock is reselected.

In order to further improve the error prevention capability, the method further includes, after the step (1) and before the step (2), a step of verifying whether the currently-controlled lock is the lock in the management and control system, wherein the step is implemented by verifying the identity information and/or the interval number of the lock code of the currently-controlled lock.

The above embodiments are merely provided for full disclosure and not for limitation, and any replacement of equivalent technical features based on the gist of the present invention without creative efforts should be considered as the scope of the present disclosure.

Claims (10)

1. An electricity-testing unlocking method is based on the intelligent key and a controlled lock management and control system, the controlled lock type comprises a common lock and an associated lock with an electricity display, and the method is characterized by comprising the following steps:

firstly, configuring readable lock codes for the common lock and the lock associated with the electrified display in advance:

the lock code configured for the conventional lock includes: lock identity information, lock type and unlocking condition; the lock code configured for the associated lock with the electronic display comprises: lock identity information, lock type, unlocking condition and charged information; the unlocking condition comprises information whether electricity verification is required;

secondly, through the control step that intelligent key scene was unblanked, specifically include:

(1) reading a lock code of a current controlled lock;

(2) judging whether the unlocking operation of the current controlled lockset needs to be tested according to the unlocking condition in the lock code of the current controlled lockset, if so, determining the current controlled lockset to be a related lockset with an electric display and entering a step (3A), otherwise, determining the current controlled lockset to be a common lockset and entering a step (3B);

(3A) carrying out an electronic unlocking verification process, which comprises the following steps: (3A1) selecting a related electrified display of a current controlled lockset and acquiring electrified information of the electrified display; (3A2) judging whether the line where the electrified display is located is electrified or not according to the electrified information, if so, entering the step (4), and if not, authorizing the intelligent key to open the currently controlled lockset and entering the step (4);

(3B) carrying out a common unlocking sub-process;

(4) and ending the unlocking operation of the currently controlled lock.

2. The method of claim 1, wherein the lock code is composed of a number of binary digits.

3. The method for unlocking by electroscopy as claimed in claim 1, wherein the live information in the lock code of the lock with the associated live display is obtained from the current live state of the line in which the associated live display is located.

4. The electroscopic unlocking method according to any one of claims 1 to 3, wherein in the step (3A1), the specific method for acquiring the electrification information of the electrification display is as follows: reading the lock code of the lock associated with the electrified display through the intelligent key to obtain the lock code; or the intelligent key directly contacts the charged display contact point to obtain the key.

5. The method for unlocking by checking electricity according to claim 1, wherein the lock code associated with the lock with the electric display further includes information on front and rear devices and information on an operation sequence; before the step (3A), the method further comprises the following steps: judging whether the unlocking operation of the current controlled lockset has unlocking sequence requirements or not according to the operation sequence information in the lock code of the current controlled lockset, if so, entering the step II, otherwise, entering the step (3A); and secondly, judging whether the current controlled lock is in a correct operation sequence position or not according to the front and rear equipment information in the lock code of the current controlled lock, if so, authorizing the intelligent key to open the current controlled lock and entering the step (4), and otherwise, reselecting one controlled lock as the current controlled lock and returning to the step (1).

6. The electricity testing unlocking method according to claim 1, wherein the lock codes of the common lock and the associated lock with the electric display further respectively include front and rear equipment information and operation sequence information; the general unlocking sub-process comprises the following steps: I. judging whether the unlocking operation of the current controlled lockset has unlocking sequence requirements or not according to the operation sequence information in the lock code of the current controlled lockset, if so, entering a step II, otherwise, entering a step (3B); II. And (4) judging whether the current controlled lockset is in a correct operation sequence position or not according to the front and rear equipment information in the lock code of the current controlled lockset, if so, authorizing the intelligent key to open the current controlled lockset and entering the step (4), otherwise, reselecting one controlled lockset as the current lockset and returning to the step (1).

7. The electroscopic unlocking method as claimed in claim 5 or 6, wherein when one controlled lock is reselected, the one controlled lock is reselected according to the former and latter equipment information in the lock code of the currently controlled lock.

8. The electroscopic unlocking method according to claim 1, wherein the lock codes of the common lock and the lock associated with the electriferous display also respectively comprise interval numbers; in the step (3a1), after the associated charged display of the currently controlled lock is selected, comparing the interval numbers of the currently controlled lock and the associated charged display, if the interval numbers are the same, acquiring the charged information of the associated charged display by the intelligent key, otherwise, reselecting the associated charged display of the currently controlled lock.

9. The method for checking electric unlocking according to claim 8, further comprising a step of verifying whether the currently controlled lock is the lock in the management and control system after the step (1) and before the step (2), wherein the step is realized by verifying the identity information and/or the interval number of the lock code of the currently controlled lock.

10. The method for unlocking by checking electricity according to claim 1, wherein the lock identification information includes an identification code and a production date.

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