KR20110138560A - System and method of door security certification in distributing board - Google Patents

Abstract

PURPOSE: A safety certification system for the door of a distribution board and a method thereof are provided to secure high safety by opening a door when a safe state is secured. CONSTITUTION: A plurality of distribution boards(100-1-100-n) outputs a first or a second warning light information through a touch panel when a checker asks a safety authentication request in an automatic door locked state. A management server(200) receives a history message from the distribution boards and manages the history information of the distribution boards. A checking terminal(400) requests the unlocking of an adjacent distribution board according to the selection of a checker. The check terminal transmits a repair request message through a wire/wireless network to an expert if the first warning light information is outputted. An expert terminal(300) is connected to the management server through the wire/wireless network and searches history information for each distribution board. The expert terminal receives the repair request message from the check terminal and outputs the repair request message to the expert.

Description

System and method of door security certification in distributing board

The present invention relates to a door safety certification system and method of the switchgear, and more particularly, to the safety of the switchgear access and perform a safety certification procedure through the touch panel before opening the door for the internal inspection, the safety state The door is opened with the door secured, and the inspector and the expert handle the problem properly when the internal problem of the switchboard is minimized, minimizing the maintenance cost, and only the inspector opens the door without any internal problem of the switchboard. The present invention relates to a door safety certification system and a method for a switchgear that prevents a door from being open by the public.

Typical distribution devices include integrated switchgear, general switchgear, special high / high voltage / transformation base and low voltage switchgear. Such power distribution devices are various equipment and equipment that actually use special high voltage (special high voltage) electricity supplied from electricity providers to homes, factories, buildings, hospitals, apartment (APT) complexes, and various industrial facilities that require electric power. Refers to a device that operates, controls, and monitors electrical facilities for safe use by converting them to low voltage and rated capacity (high or low pressure).

Switching devices such as switchboards have an auto section switch, a lightning arrester, a power fuse, a metering out fit, a power potential transformer, and a low-pressure parking in each housing. Switchgear panels in which main circuit breakers and distribution breakers are installed are widely adopted.

These switchboards are generally managed by the administrator periodically, that is, the electrical operation state, the aging state of the equipment and the like, and when a problem is found, it is a heat generated by voltage conversion work by performing maintenance / repair management to repair it. Prevent safety hazards such as overheating or fire.

In addition, by measuring the internal temperature / humidity of the switchgear and exceeding the standard, the automation that automatically performs cooling / drying operations is implemented to reduce the management cost and extend the life of the equipment. .

However, in order to inspect the interior of the switchgear, the manager must inspect the interior through management equipment, that is, inspection equipment such as a current meter, after opening the door provided in the housing. There is no way for certification.

For example, when the manager approaches the switchboard and opens the door, if current flows in the housing of the switchboard due to an electrical problem, there is a risk of electric shock, and if overheating occurs, There is a risk of fire in the facility due to backflow.

Therefore, when the manager opens the door to inspect the interior of the switchboard, a safety certification method that can ensure safety is proposed, and it is necessary to prevent property damage due to human life and fire caused by a safety accident.

In addition, the maintenance / maintenance of the existing switchgear requires the administrator to inspect and repair the switchgear after detecting the inside of the switchgear, so that a professional manager who can repair or repair the switchgear manages the switchgear. There is a problem that the labor cost of managers is too much.

In addition, the current switchgear of the switchgear is a situation that it is difficult to prevent unintended problems or malicious damage because the door can be easily opened by the general public by locking the door through a simple locking device.

The present invention is proposed to solve the above problems, the inspector for checking the operation and internal state of the switchgear periodically / non-periodically generates an internal problem of the switchgear, for example, problems such as overheat / overheat / current leakage It is an object of the present invention to provide a door safety certification system and method of a switchgear that can prevent a safety accident that may be caused by opening a door in a state.

In addition, the present invention checks the internal problem facts and problem occurrence information (for example, temperature value, humidity value, current leakage value, etc.) through the safety certification process for the inspector to open the door of the switchboard, request a repair to the expert It is an object of the present invention to provide a door safety authentication system and method of a switchgear that can be quickly processed by sending a message.

The present invention distinguishes the inspector for checking the internal condition of the switchboard and the expert who can repair / repair the internal problem, the simple internal inspection is performed by the inspector, and when the problem occurs that the inspector can not handle the maintenance cost An object of the present invention is to provide a door safety certification system and a method of a switchgear that can reduce the number of switches.

The present invention maintains an automatic lock state of the switchboard, so that only the inspector can unlock the door through the inspection terminal to open the door, thereby preventing a problem that can be caused by indiscriminate door opening. It is an object of the present invention to provide a door safety certification system and a method of a switchgear.

In the door safety certification system of the switchgear according to an aspect of the present invention, if there is a request for safety certification from the inspector in the automatic lock state of the door, the touch panel may be touched according to a problem that an internal temperature or humidity exceeds a standard or a current leak is detected. Outputting the first or second warning information through the device, and when the release of the lock request is requested from the inspector, when the problem occurs in which the first warning information is output through the touch panel, the second warning information is output without the release of the lock state. The safety state is a plurality of switchboards for releasing a lock state, a management server for managing the history information for each switchboard based on the history messages received from each switchgear, and requesting the release of the lock to the switchgear adjacent to the selection of the inspector If the first warning information is outputted, the expert via the wired / wireless network An inspection terminal that transmits a repair request message, accesses to the management server through a wired / wireless network, retrieves / inquires history information for each switchboard, and repairs / repairs the switchboard with the repair request message received from the inspection terminal. It includes an expert terminal for outputting to the expert.

Each switchgear includes a sensor unit including any one or more of an overcurrent sensor for detecting current leakage, a temperature sensor for measuring temperature, a humidity sensor for measuring humidity, and a distance sensor for detecting movement within a predetermined distance, and the sensor A conversion unit for amplifying / filtering the measured value measured by the unit at a predetermined ratio and converting the measured value into a digital signal, a locking device for automatically locking / unlocking the door of the switchboard, the management server through a wired / wireless network, One of a network interface unit connected to an expert terminal, a wireless interface unit communicating with the inspection terminal through a wireless communication network, a start field for requesting a safety authentication procedure, and a plurality of fields or display fields according to a problem occurrence type of the switchboard. Through the touch panel and the sensor unit in accordance with the touch of the touch panel is implemented Outputting the first or second beeping information to the corresponding field according to the internal state of the switchboard being supported, and displaying the abnormal value numerically or graphically through the display field while outputting the first beeping information; And a controller for releasing the lock state of the lock device when a lock release request is received from the lock device.

The touch panel outputs a start field for requesting a safety authentication procedure, a temperature field for outputting warning information according to the temperature state of the switchgear, a humidity field for outputting warning information for the humidity condition, and a warning information for the current leakage condition. Has a current field to

When the inspector touches the start field, the controller detects an internal state of the switchboard through the sensor unit, and outputs first beep information through a field corresponding to a type of problem occurrence.

The touch panel includes a temperature field for outputting warning information according to a temperature state of the switchgear, a humidity field for outputting warning information according to a humidity state, and a current field for outputting warning information according to a current leakage state,

When the inspector touches each of the fields, the controller detects a problem occurrence corresponding to the corresponding field through the sensor unit, and outputs first warning information through the corresponding field when a problem occurs.

When the first mode is set, when the movement within a predetermined distance is detected through the distance sensor, the controller detects an internal state of the switchboard and outputs a warning only when a problem occurs, and when the second mode is set, the movement is detected. Even though the warning is not output.

The control unit may release the lock state of the locking device when a lock release signal is received from the inspection terminal while the second light warning information is output through the touch panel.

According to another aspect of the present invention, there is provided a door safety authentication method of a switchgear, wherein the switchgear is driven by an automatic locking state of a door through a locking device when the switchgear is installed. And detecting, outputting first beeping information through a corresponding field of the touch panel when a problem occurs, and outputting second beeping information if a problem is not detected, and receiving a lock release signal from the inspector, Checking the warning information output through the touch panel, a) without releasing the lock state of the door in the unsafe state in which the first warning information is output, b) in the safety state in which the second warning information is output Releasing the lock state of the door, and when the inspector outputs the first warning information, the door of the switchboard through the wired / wireless network. And transmitting the service request message generated according to the experts.

The door safety authentication method of the switchgear, if a movement within a predetermined distance is detected, checks the problem occurrence state of the switchgear, a) if the problem occurs in the first mode state, outputs a warning, b) If the mode is 2, the step of outputting the warning further comprises.

The door safety authentication method of the switchgear further includes displaying the abnormal value according to the occurrence of the problem in a numerical or graphical manner while outputting the first light warning information through any one field of the touch panel.

The outputting of the warning information, when the inspector touches a start field provided in the touch panel, detects an internal state of the switchboard, and outputs warning information through a field corresponding to the type of problem occurrence, or When the temperature field, the humidity field, or the current field included in the touch panel are selected, the light information is output through a field selected by detecting a temperature value, humidity value, or current leakage corresponding to the corresponding field.

According to the present invention as described above, before the inspector of the switchgear approaches and opens the door, the safety authentication procedure is performed through the touch panel, and if the safety state is secured, the door can be opened to provide higher safety. It can be secured.

And when a problem is detected through the door safety certification process of the switchgear, the inspector handles a simple problem by handling a problem to a specialist who can solve the problem, and a serious problem is handled by an expert to minimize the management cost. Of course, when a repair request is made, problems caused by transmitting identification information and problem occurrence information of the corresponding switchgear can be promptly processed.

In addition, the inspector can prevent the indiscriminate opening of the door by allowing the door to be opened through the release signal for releasing the lock state of the switchboard through the inspection terminal, and when a problem occurs when the public approaches within a certain distance, a warning is issued. Output can prevent safety accidents.

1 is a network block diagram illustrating a door safety authentication system of a switchgear according to the present invention.
2 is a functional block diagram of a switchgear according to the present invention;
3 is a block diagram illustrating a configuration example of a touch panel according to the present invention;
4 is a view for explaining an example of a touch panel applied to the switchgear according to the present invention.
Figure 5 is a flow chart for explaining the door safety authentication method of the switchgear according to the present invention.

DETAILED DESCRIPTION Hereinafter, a door safety authentication system and a method of a switchgear according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings, and the detailed description of the main technical matters of the present invention or the well-known technical details will be omitted.

In addition, in the detailed description of the present invention, the details of the automatic cooling / drying method of the switchgear and the maintenance and repair work of the switchgear are well-known technical details, and thus detailed description thereof will be omitted.

1 is a network block diagram illustrating a door safety authentication system of a switchgear according to the present invention.

Referring to Figure 1, the door safety authentication system of the switchboard 100 according to the present invention is installed in a facility that requires power. A plurality of switchboards 100 for converting the special high voltage (special high voltage) electricity provided by the electricity provider to low voltage and rated capacity suitable for the actual equipment and equipment ratings, and each switchboard 100 and A management server 200 connected through a wireless network (for example, a LAN, a power communication network, etc.), an expert terminal 300 connected with the management server 200 through a wired / wireless network, and a wireless communication network (for example, For example, the inspection terminal 400 is connected to the adjacent switchboard 100 and the expert terminal 300 through an RF communication network and a mobile communication network.

In the following description of the present invention 'checker' means a manager having a simple measuring device, and after processing the simple repair / maintenance work after checking the internal state after opening the door to access the switchgear 100 and For example, the term "expert" means a manager who has the expertise to handle a high level of repair / maintenance work that cannot be performed by the inspector.

In addition, the inspection terminal 400 is portable / movable, and the inspector transmits a mode change signal to the adjacent switchboard 100, through the management server 200, or directly sends a repair request message to the expert terminal 300. Possible mobile terminals (for example, PDA, mobile phone, etc.), the expert terminal 300 is received by the expert while monitoring the history / problem occurrence, etc. of each switchboard 100 through the management server 200 in the center A terminal (eg, a PC, a laptop, etc.) outputting a repair request message to an expert may correspond.

The management server 200 manages history information for each switchgear 100 from history messages received from each switchgear 100, and searches / inquires history information corresponding to an input condition at the request of an expert or an inspector. .

The expert terminal 300 outputs a repair request message received from the inspection terminal 400 or the management server 200, and the expert accesses the management server 200 to search / inquire the history information of each switchboard 100. To help.

The inspection terminal 400 transmits a mode switching signal to the switchboard 100 to be checked according to a checker's selection through a wireless communication network to switch the mode state of the switchboard 100 and transmits a lock release signal to lock the door. Release the state to make it openable.

In addition, the inspection terminal 400 may generate identification information (eg, serial number), location information, and problem of the switchboard 100 based on the address information of the expert terminal 300 when an internal problem occurs in the switchboard 100. Sends a repair request message including type information (high temperature, high humidity, current leakage, etc.), occurrence time information, etc. to the expert terminal 300, and transmits a repair request message through a wired / wireless network or an SMS through a mobile communication network. The repair request message may be transmitted in a short message service / MMS method.

When the expert terminal 300 receives a repair request message from the inspection terminal 400, the expert terminal 300 outputs information included in the repair request message to identify the identification, location information, problem type information, and generation information of the switchboard 100 in which the expert has a problem. Check the time information and respond quickly, and output the repair request message in a pop-up window, or by outputting the voice information of the problem occurs at the same time, so that the expert can recognize the problem quickly.

The switchboard 100 switches to the management mode when the mode switching signal is received from the inspection terminal 400 while operating in the warning mode at the time of initial driving.

The warning mode of the switchboard 100 is a problem occurring in the switchboard 100, for example, when a human body movement within a certain distance is detected in the state of a problem such as current leakage / high temperature / high humidity / fire, etc. Corresponds to the safety accident prevention mode that outputs a warning sound or a warning message to prevent a safety accident due to, the management mode is a certain distance of the switchboard 100 when the administrator approaches the switchboard 100 to perform maintenance / repair work It is a maintenance mode that does not output a beep or warning message even if the vehicle is approached within a short time.

On the other hand, the switchboard 100 when a problem occurs in the state of the warning mode, when a movement within a certain distance is detected, outputs a warning sound or warning message, when the mode switch signal is received, and switched to the management mode, within a certain distance Even if the movement of the sensor is detected, the warning sound or warning message is not output, so that the inspector does not output the warning during the internal inspection of the switchboard 100.

At this time, the mode switch of the switchboard 100 is transmitted to the management server 200 through the wired / wireless network based on the identification information (for example, installation location, serial number, etc.) of the switchboard 100, The management server 200 may transmit a mode switch message to the switchboard 100, or may transmit a mode switch signal to the wireless communication network through the inspection terminal 400.

Therefore, the switchboard 100 according to the present invention outputs a warning when there is a movement in proximity in the warning mode, and does not output the warning when switched to the management mode, thereby minimizing noise generation due to the output of unnecessary warning sounds. have.

When the switchboard 100 receives the mode switch signal in the warning mode state, the switch mode 100 receives the mode switch signal again after switching to the management mode, or when a predetermined time elapses, it is preferable to switch to the warning mode.

The switchboard 100 manages a history message including history information such as an internal temperature value, a humidity value, a current leakage value, identification information, a location information, or a problem occurrence type information at periodic or trouble occurrence time points. If the wired / wireless network is an IP network, the option message of the IP header may specify the history message, and the history message may be generated / transmitted by including the history information in the data field.

On the other hand, the switchgear 100 when the inspector approaches the request for safety certification, detects a current leakage, high temperature, high humidity, and the like, and if a problem occurs, outputs the warning information according to the type of problem.

That is, when the switchboard 100 receives a mode switch signal from the inspector, the switchboard 100 is secured through the touch panel (150 of FIG. 2) provided on one side of the housing, for example, the front side after the switch to the management mode. If you select Start authentication, if a problem occurs after detecting a problem such as current leakage, high temperature, and high humidity, the warning information corresponding to the problem is output, and according to the internal condition before the inspector opens the door. If a problem occurs after the safety certification procedure, the door should not be opened and the contact should be prevented to prevent safety accidents.

Detailed description of the safety authentication method of the switchgear according to the present invention will be described later.

2 is an internal functional block diagram of a switchgear according to the present invention.

2, the switchboard 100 according to the present invention includes a sensor unit including various types of sensors such as an overcurrent sensor 111, a temperature sensor 112, a humidity sensor 113, a distance sensor 114, and the like. 110, a conversion unit 120 for filtering the measured value measured from the sensor unit 110 through amplification and a filter (low pass filter) at a predetermined ratio, and converting the analog measured value into a digital value, Network interface unit 131 connected to the management server 200 via a wireless network, the wireless interface unit 132 connected to the inspection terminal 400 through a wireless network (wireless communication network), and the switchboard 100 Locking device 140 to lock / unlock the door, the touch panel 150 provided on the front of the switchboard 100, the address information of the management server 200, the address information of the expert terminal 300, the switchboard A storage unit 160 for storing identification information of 100 and the like, and when a problem occurs Miraculously transmits the history message including the history information to the management server 200, if the safety authentication is requested through the touch panel 150, touch the warning information according to the internal state detected by the sensor unit 110 touch panel The control unit 170 outputs through the 150.

If the switchboard 100 is driven, the control unit 170 prevents the door opening for malicious purpose by maintaining the door in the automatic lock state through the locking device 140. When the lock release signal is received from the inspection terminal 400, the controller 170 releases the lock state of the locking device 140 so that the inspector can open the door.

In this case, when a problem is detected through a safety authentication procedure, the controller 170 may prevent the lock state from being released even when a lock release signal is received from the inspection terminal 140. prevent.

That is, the controller 170 maintains the automatic locking state through the locking device 140 so that only the inspector and the expert who transmits the unlocking signal while preventing the public from opening the door can open the door.

In addition, when a problem occurs in the switchboard 100, the control unit 170 may maintain the lock even when a lock release signal is received. To prevent any safety accidents.

The overcurrent sensor 111 of the sensor unit 110 detects a current flowing in a component of a metal material such as a housing and wiring due to problems such as aging of electrical components of the switchgear 100, the temperature sensor 112 and the humidity sensor. One or more 113 is installed inside to measure the internal temperature value and humidity value.

The distance sensor 114 detects a movement within a predetermined range, that is, a human body movement within a predetermined range.

After amplifying the measured value measured by the sensor unit 110 of the converter 120 at a predetermined ratio, the filter is filtered through a low pass filter, and the controller 170 recognizes the analog measured value by converting it digitally. To help.

On the other hand, in the warning mode, the control unit 170, when a problem occurs when the distance sensor 115 detects a movement within a certain distance, and outputs a warning sound or a warning message (warning) to prevent a safety accident, for example, to access the public When a mode change signal is received, the system is switched to the management mode so that an alarm or warning message is not output even if the inspector approaches within a certain distance, so that the internal state can be checked after the administrator has processed the safety certification procedure. To help.

When the inspector selects the start of safety authentication through the touch panel 150, the controller 170 outputs warning information based on a temperature value, a humidity value, a current value, and the like detected by the sensor unit 110.

3 is a block diagram illustrating a configuration example of a touch panel according to the present invention.

Referring to FIG. 3, the touch panel 150 according to the present invention is formed by partitioning a start field 151, a temperature field 152, a humidity field 153, a current field 154, and a display field 155. Can be.

Such a touch panel 150 may be implemented by configuring each field with a plurality of panels or by dividing a plurality of areas in one panel and assigning a function to each area. The touch panel 150 may have different colors. (For example, red, green), the light emitting device may be implemented.

The controller 170 identifies a function assigned to a field of the touch panel 150 touched by the inspector and processes a safety authentication procedure of the door.

4 is a view for explaining an example of the touch panel applied to the switchboard according to the present invention.

The touch panel 150 applied to the switchboard 100 illustrated in FIG. 4 illustrates a case in which the temperature field 152, the humidity field 152, the current field 154, and the display field 155 are implemented. The start field 151 and each field requesting the start of the safety certification procedure can be designed and implemented by adding and removing as necessary.

As shown in FIG. 4, the touch panel 150 is positioned at a height at which the inspector can be easily selected on the front door of the switchboard 100 so that the inspector can easily handle the safety authentication procedure.

Such a touch panel 150 may be provided in the housing of the switchboard 150, and if a current leakage occurs in the housing, a safety accident that may occur when the inspector touches the touch panel 150 for safety certification. It is preferable to provide (coating) an insulator (insulator) between the touch panel 150 and the housing so as to prevent it.

The switchgear 100 according to the present invention has a method in which the inspector requests a safety certification procedure by touching the start field 151, and the inspector requests a safety certification procedure for each by separately touching each field 152 to 154. Can be applied.

First, the inspector requests the safety authentication procedure through the start field 151 as follows.

When the inspector touches the start field 151 of the touch panel 150, the controller 170 leaks current through the overcurrent sensor 111, the temperature sensor 112, the humidity sensor 113, and the like of the sensor unit 110. , Detects temperature / humidity. That is, when the inspector requests safety certification through the start field 151, the controller 170 checks the internal state of the switchboard 100 through the sensor unit 110.

When the current leakage is detected through the overcurrent sensor 111, the controller 170 outputs red light warning information through the current field 154, and if the temperature value exceeds the reference value, the controller 170 outputs red light through the temperature field 152. If the humidity information exceeds the reference value, and the humidity value exceeds the reference, the red warning information is output through the humidity field 153.

That is, the controller 170 checks the internal state of the switchboard 100 through the sensor unit 110, and when a problem occurs, the controller 170 outputs red light warning information through a field corresponding to the problem.

On the other hand, the control unit 170 checks the internal state of the switchboard 100 through the sensor unit 110, if the occurrence of a problem is not detected, by outputting green warning information through each field (152 ~ 154) safety certification procedure Perform

Here, the red beacon information output through each field is a warning message indicating a problem occurrence inside the switchboard 100, and the green beacon information corresponds to a message indicating that a safety state does not occur inside the switchboard 100. do.

Meanwhile, a method in which the inspector touches each field separately and requests a safety certification procedure for each is as follows.

When the inspector touches the temperature field 152, the controller 170 measures the internal temperature of the switchboard 100 through the temperature sensor 112 of the sensor unit 110. Output through field 152.

When the controller 170 touches the humidity field 153, the controller 170 measures the internal humidity of the switchboard 100 through the temperature sensor 113 of the sensor unit 110. When output through the field 153 and the current field 154 is touched, the current leakage is detected through the overcurrent sensor 111 of the sensor unit 110, and when the current leakage is detected, the red warning information is displayed in the current field ( 154).

The controller 170 is an internal temperature value corresponding to each field 152 to 154 touched by the inspector. If the humidity value is less than the reference or if current leakage is not detected, green warning information is output through the corresponding fields 152 to 154.

In addition, the control unit 170, the inspector touches the start field 151, or select each field (152 ~ 154) to request safety certification, by detecting the internal temperature / humidity and current leakage of the switchboard 100 If a problem occurs, the temperature value measured through the display field 155 while outputting red-light warning information through the corresponding field (152 to 154). Humidity values or current leakage values are displayed numerically or graphically.

For example, when the internal temperature value exceeds the reference, the controller 170 displays the temperature value (current internal temperature value) measured through the display field 155 while outputting red light warning information through the temperature field 152. This allows the inspector to identify the facts and abnormal values.

In this case, when the red warning information is output through one field, that is, even when a lock release signal is received from the inspection terminal 400 when a problem occurs, the controller 170 does not unlock the lock device 140. It is desirable to prevent the inspector from opening the door in the event of a problem.

In addition, when the inspector requests safety certification through the touch panel 150, when red warning information is output through one or more fields, the inspector transmits a repair request message to the expert terminal 300, so that the expert of the switchboard 100 is provided. Quickly identify the problem and what kind of problem it is.

Therefore, the inspector can not only secure safety through the safety certification procedure of the door before checking the switchboard 100, but also promptly respond by sending a problem occurrence to an expert when a problem occurs.

5 is a flowchart illustrating a door safety authentication method of a switchgear according to the present invention.

Referring to FIG. 5, when the switchboard 100 according to the present invention is installed / driven, a low voltage and a rating corresponding to the ratings of various facilities and equipment that actually use electricity of a special high pressure (special high pressure) provided from an electricity provider. The capacity is converted into a capacity, and an automatic locking state and an initial mode, that is, a warning mode are set through the locking device 140 (S 100).

The switchboard 100 includes history information such as identification information, location information, problem type information, and occurrence time information of the switchboard 100 while performing an automatic cooling / drying operation when the internal temperature / humidity exceeds the standard. A history message is generated and transmitted to the management server 200, and the management server 200 manages history information for each switchboard 100 based on the history message received from each switchboard 100.

When the switchboard 100 detects a human body movement within a certain distance through the distance sensor 114 of the sensor unit 110, the switchboard 100 outputs a warning sound or a warning message when an internal problem occurs. At this time, the switchboard 100 does not output a warning unless a problem occurs even when the human body movement is detected.

Here, when the switchboard 100 detects the movement of the human body within a predetermined distance through the distance sensor 114 in the state in which the warning mode is set, the internal temperature value and the humidity value measured by the sensor unit 110 exceed or exceed the standard. In addition, it checks whether a current leakage is detected, that is, whether a problem occurs, and outputs a warning sound or a warning message when a problem occurs.

That is, the switchboard 100 outputs a warning sound or a warning message only when a problem occurs inside the switchboard 100 when a human body moves, for example, within a predetermined distance, so that an unnecessary warning sound or a warning message is not output. do.

Thus, when the switchboard 100 receives a mode change signal from the inspection terminal 400, that is, a mode change request from the inspector, the switchgear 100 does not output a warning even when a movement within a predetermined distance is detected.

Meanwhile, the switchboard 100 checks whether the inspector requests stability certification by touching the touch panel 150, and when safety certification is requested (S 110), an internal problem of the switchboard 100 through a safety certification procedure. Check whether or not occurred (S 120), if the problem does not occur, output green warning information through the corresponding field (152 ~ 154) (S 130), if a problem occurs, the corresponding field of the touch panel 150 The red warning light information is output through S152 and S154.

For example, when the inspector touches the start field 151 of the touch panel 150, the switchgear 100 includes an overcurrent sensor 111, a temperature sensor 112, a humidity sensor 113, and the like of the sensor unit 110. Measuring current leakage, temperature / humidity, and outputting red beacon information through current field 154 when current leak is detected, and red beacon information through temperature field 152 if temperature value exceeds the reference. When the humidity value exceeds the reference, the red light warning information is output through the humidity field 153.

On the other hand, when the inspector touches the temperature field 152, the switchboard 100 measures the internal temperature of the switchboard 100 through the temperature sensor 112 of the sensor unit 110, and if the reference is exceeded, the red warning light information When the output through the temperature field 152, touch the humidity field 153, by measuring the internal humidity of the switchboard 100 through the temperature sensor 113 of the sensor unit 110, if it exceeds the standard, red When the light information is output through the humidity field 153 and the current field 154 is touched, and a current leakage is detected through the overcurrent sensor 111 of the sensor unit 110, the red light information is displayed as the current field 154. Output through

At this time, the switchboard 100 by the inspector touch the start field 151, or select each field (152 ~ 154) to request safety certification, by detecting the internal temperature / humidity and current leakage of the switchboard 100 If a problem occurs, the temperature value measured through the display field 155 while outputting red warning information through the corresponding field (152 to 154). An abnormal value such as a humidity value or a current leakage value is displayed in a numerical or graphical manner (S 150).

In addition, when the inspector requests safety certification through the touch panel 150, when red warning information is output through one or more fields, the inspector transmits a repair request message to the expert terminal 300, so that the expert of the switchboard 100 is provided. The fact that the problem occurs and the type of problem can be quickly identified and coped with (S 160).

Therefore, the inspector can not only secure safety through the safety certification procedure of the door before inspecting the switchboard 100, but also promptly respond by sending a problem occurrence to a specialist when a problem occurs, and the inspector can touch the touch panel. By performing the safety authentication procedure of the door through the 150, and when a problem occurs by sending a repair request message to the expert through the inspection terminal 400, the inspector handles the simple inspection work, the expert is a defense that requires higher knowledge Maintenance costs can be minimized by handling maintenance.

On the other hand, the switchboard 100 checks whether the lock release signal is received from the inspection terminal 300, that is, whether the lock release of the lock device 140 is requested (S 170).

When the switchboard 100 receives a lock release signal, a problem occurs, that is, when red warning information is output through the inspector's safety authentication procedure indicating that the problem occurs, that is, whether or not a problem occurs (S 180). When it occurs, that is, when the red warning information is output, the lock state of the locking device 140 is not released (S 190). That is, when the switchboard 100 detects a problem in the interior, even if a lock release signal is received, the door is not released from the automatic lock state, thereby preventing a safety accident that may occur due to the inspector opening the door.

On the other hand, the switchgear 100 is output green warning light through each field (152 ~ 154), and when the lock release signal is received, release the lock state of the locking device 140, the inspector opens the door to open the interior Check (S 200).

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims.

DESCRIPTION OF REFERENCE NUMERALS
100: switchboard 110: sensor unit
111: overcurrent sensor 112: temperature sensor
113: humidity sensor 114: distance sensor
120: converting unit 131: network interface unit
132: wireless interface unit 140: lock device
150: touch panel 160: storage unit
170: control unit 200: management server
210: interface 220: history management unit
230: history search unit 240: message processing unit
250: database 300: expert terminal
400: inspection terminal

Claims (10)

In the door safety certification system of the switchboard,
If there is a safety certification request from the inspector in the automatic locking state of the door, the first or second warning information is output through the touch panel according to a problem that an internal temperature or humidity exceeds a standard or a current leakage is detected. When a lock release request is received from the plurality of switchboards, the lock state is not released when the first warning information is output through the touch panel, and the lock state is released when the second warning information is output.
A management server managing history information for each switchboard based on history messages received from each switchboard;
An inspection terminal for requesting release of the lock to the adjacent switchboard according to the inspector's selection, and when the first warning information is outputted, transmitting a repair request message to an expert through a wired / wireless network;
And an expert terminal connected to the management server through a wired / wireless network to search / inquire history information for each switchboard, and to output the repair request message received from the inspection terminal to an expert who repairs / repairs the switchboard. Door safety certification system of switchboard. According to claim 1, wherein each switchgear,
A sensor unit including at least one of an overcurrent sensor for detecting current leakage, a temperature sensor for measuring temperature, a humidity sensor for measuring humidity, and a distance sensor for detecting movement within a predetermined distance;
A conversion unit for amplifying / filtering the measured value measured by the sensor unit at a predetermined ratio and converting it into a digital signal;
A locking device for automatically locking / unlocking the door of the switchboard;
A network interface connected to the management server and the expert terminal through a wired / wireless network;
A wireless interface unit communicating with the inspection terminal through a wireless communication network;
A touch panel in which at least one of a start field for requesting a safety certification procedure, a plurality of fields or a display field according to a problem type of the switchgear is implemented;
According to the internal state of the switchboard detected by the sensor unit in response to the touch of the touch panel, the first or second warning information is output to the corresponding field, and the abnormal value is output through the display field while the first warning information is output. Displaying in a numerical or graphical manner, if the lock release request from the inspection terminal, the door safety authentication system of the switchgear comprising a control unit for releasing the lock state of the locking device. The method of claim 2, wherein the touch panel,
A start field for requesting a safety certification procedure, a temperature field for outputting warning information according to the temperature state of the switchboard, a humidity field for outputting warning information according to the humidity condition, and a current field for outputting warning information according to the current leakage condition and,
When the inspector touches the start field, the controller detects an internal state of the switchgear through the sensor unit, and outputs first light warning information through a field corresponding to the type of problem occurrence. Door safety certification system. The method of claim 2, wherein the touch panel,
And a temperature field for outputting warning information according to a temperature state of the switchgear, a humidity field for outputting warning information according to a humidity condition, and a current field for outputting warning information according to a current leakage condition.
When the inspector touches each of the fields, the controller detects a problem occurrence corresponding to the corresponding field through the sensor unit, and outputs first light warning information through the corresponding field when a problem occurs. Safety certification system. The method of claim 2, wherein the control unit,
When the first mode is set, if a movement within a predetermined distance is detected through the distance sensor, an internal state of the switchboard is detected and a warning is output only when a problem occurs. Door security certification system for switchgear, characterized in that not output. The method of claim 2, wherein the control unit,
When the lock release signal is received from the inspection terminal in a state in which the second warning information is output through the touch panel, the door safety authentication system of the switchgear, characterized in that to release the lock state. In the door safety certification method of the switchboard,
When the switchgear is installed to drive the door in the automatic locking state through the locking device,
When the inspector approaches and touches the touch panel, the controller detects a problem occurring in an internal state, and outputs first light warning information through a corresponding field of the touch panel when a problem occurs, and if no problem is detected, second warning information. Outputting the
When the lock release signal is received from the inspector, the warning information output through the touch panel is checked,
a) not unlocking the door in the unsafe state in which the first warning information is output,
b) releasing the locking state of the door in a safe state in which the second warning information is output;
And when the inspector outputs the first warning information, transmitting a repair request message according to a problem occurring in the switchboard through a wired / wireless network to an expert. The method of claim 7, wherein
If a movement within a certain distance is detected, check the problem occurrence state of the switchboard
a) when the occurrence of the problem is confirmed in the first mode, output a warning,
b) if the second mode, the door safety authentication method of the switchgear further comprising the step of not outputting the warning. The method of claim 7, wherein
The door safety authentication method of the switchgear further comprising the step of outputting the first light warning information through any one field of the touch panel and displaying an abnormal value according to the occurrence of the problem in a numerical or graphical manner. The method of claim 7, wherein the outputting the warning information,
When the inspector touches the start field provided in the touch panel, the internal state of the switchboard is sensed to output warning information through a field corresponding to the type of problem occurrence, or the temperature field and humidity provided in the touch panel. And selecting a field or a current field, and outputting the warning information through a selected field by detecting a temperature value, a humidity value, or a current leakage corresponding to the corresponding field.

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