KR102089524B1 - Uninterruptible power supply - Google Patents

Abstract

According to an embodiment of the present invention, provided is an uninterruptible power supply system which can continuously monitor a state of a main power source and an auxiliary power source. The uninterruptible power supply system comprises: an auxiliary power source connected in an emergency; a control unit determining whether a main power source constantly connected is abnormal, controlling switching by a switch unit to switch to the auxiliary power source when the main power is abnormal, and receiving state information of the main power source or the auxiliary power source; a display unit displaying the switching of the auxiliary power source and the state information; and a communication unit transmitting the state information to a manager terminal of a remote place under control of the control unit. The control unit blocks the main power source and switches to the auxiliary power source when main power source input voltage is out of a preset normal input voltage range by receiving the state information with regard to the main power source input voltage and receives the state information of the auxiliary power source to transmit the state information to the manager terminal through the communication unit when the auxiliary power source is connected.

Description

Uninterruptible power supply system {UNINTERRUPTIBLE POWER SUPPLY}

The present invention relates to an uninterruptible power supply system, and more particularly, to an uninterruptible power supply system capable of monitoring and controlling the states of main power and auxiliary power.

In general, in an access control device provided in a place where physical security is required, a power outage and power disconnection due to the main power supply is a big problem.

When such a power outage and power disconnection occurred, there was a problem that the person in charge had to directly connect the auxiliary battery of the uninterrutible power supply (UPS), which was prepared in advance in the control room and where the system is located. In particular, if the person in charge in this situation is outside and the door reader of the access control device does not work and the door is locked, there is no choice but to wait for power to come in and operate or to forcefully open the door. In addition, there are problems in that several dangerous situations occur when the door does not operate in the state of power disconnection such as fire and earthquake rather than a simple power interruption.

In addition, the conventional uninterruptible power supply system that can be switched to the auxiliary power supply by determining whether the main power supply is abnormal cannot periodically monitor the state of the auxiliary power supply, and in particular, the auxiliary power supply has a problem because the input / output voltage state of the auxiliary power supply cannot be checked. Even if there was a problem that could not be coped.

Therefore, in order to solve the above-mentioned problem, it is necessary to study an uninterruptible power supply system in which power supply is made of an emergency power supply, and can continuously monitor the state of the auxiliary power supply and cut off the input / output terminal of the system when necessary. .

Republic of Korea Registered Patent No. 10-1282863 (registered on July 1, 2013)

An object of the present invention is to determine whether or not the main power supply is abnormal, the main power supply is an uninterruptible power supply system capable of switching the power supply to be made of the auxiliary power supply and continuously monitoring the state of the main power supply and the auxiliary power supply. Is to provide.

An uninterruptible power supply system according to an embodiment of the present invention includes an auxiliary power source connected in an emergency; A control unit for determining whether the main power is constantly connected, switching control by a switch unit to switch to the auxiliary power when the main power is abnormal, and receiving status information of the main power or the auxiliary power; A display unit for displaying whether the auxiliary power is switched and the status information; A communication unit that transmits the status information to a remote manager terminal under the control of the control unit; including, but wherein the control unit receives status information about the main power input voltage and blocks when it is out of a preset normal input voltage range. When the auxiliary power is connected, the state information of the auxiliary power is received and transmitted to the manager terminal through the communication unit.

In the above, the status information includes switching on / off state when switching the auxiliary power, switching switching time, main power input voltage when the main power is connected, auxiliary power input voltage when the auxiliary power is switched, system output voltage, auxiliary power. It includes information on temperature, humidity, life and battery level, and is stored in a separate DB server and is provided upon request from the controller.

In the above, the uninterruptible power supply system includes switching on / off state when switching auxiliary power included in the status information, switching switching time, main power input voltage when connecting the main power, auxiliary power input voltage when switching the main power, It is characterized in that it is visually displayed on the manager terminal by color-coded according to the state or type of information about the system output voltage, temperature, humidity, life of the auxiliary power source, or the remaining battery state.

In the above, the control unit manually or forcibly blocks the input voltage and output voltage to 0 V by turning off the switches provided at the input and output terminals by the control program regardless of whether the input voltage and the output voltage are large. It is characterized by being able to.

In the above, it is characterized in that the auxiliary power can be detached or mounted inside the uninterruptible power supply system.

The uninterruptible power supply system of the present invention can determine whether or not the main power is abnormal, and when the main power is abnormal, the power supply can be switched to be made as an emergency power source. It has the advantage of being able to protect and to be able to prepare for emergencies as it can monitor the state of a continuous emergency power supply.

In addition, according to the present invention, the voltage state of the input terminal and the output terminal of the uninterruptible power supply system is periodically checked and cut off, respectively, so that the abnormality of the input terminal and the output terminal can be individually checked to protect the system. There is an advantage that can prevent accidents in advance.

In addition, the uninterruptible power supply system of the present invention adopts a structure that facilitates attachment and detachment of each component (communication unit, control unit, display unit, auxiliary power supply) that is an internal component, and is easy to install and maintain, and preserves and protects performance. As a structure that considers the surrounding environment, it is possible to downsize the product due to the addition of control and functions.

In addition, according to the present invention, regardless of whether the input voltage and the output voltage are large, the switches provided at the input and output terminals are turned off by a control program or a manual control button to manually or forcibly block the input voltage and output voltage to 0V. , It has the effect that the administrator can lower the risk of electric shock of the operator when checking the failure of the uninterruptible power supply system or manually.

1 is a conceptual diagram illustrating an uninterruptible power supply system and peripheral devices of the present invention by way of example.
2 is a view for explaining the uninterruptible power supply system of the present invention and the main power and controller connection structure.
3 is a block diagram showing a detailed configuration of an uninterruptible power supply system connected to a main power supply according to an exemplary embodiment of the present invention.
FIG. 4 is a diagram showing a data configuration of state information provided by the uninterruptible power supply system of FIG. 2 as an example.
5 is an example screen for monitoring status information provided by the uninterruptible power supply system of FIG. 2.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and a person skilled in the art who understands the spirit of the present invention may add another component within the scope of the same spirit, change, delete, etc. Other embodiments that are included within the scope of the invention idea can be easily proposed, but this will also be included within the scope of the invention. In addition, components having the same function within the scope of the same idea appearing in the drawings of the respective embodiments will be described using the same reference numerals.

1 is a conceptual view showing an uninterruptible power supply system and peripheral devices of the present invention by way of example, FIG. 2 is a view for explaining a connection structure between the uninterruptible power supply system and the main power and controller of the present invention, and FIG. 3 is the present invention FIG. 4 is a block diagram showing a detailed configuration of an uninterruptible power supply system connected to a main power supply according to an exemplary embodiment of the present invention, and FIG. 4 is a diagram showing a data configuration of state information provided by the uninterruptible power supply system of FIG. 2 as an example. 5 is an example screen for monitoring status information provided by the uninterruptible power supply system of FIG. 2.

1 to 5, the uninterruptible power supply system 200 of the present invention is connected to the main power supply 100 supplied to the load, and determines whether the main power supply 100 is abnormal, and the main power supply ( It is provided to transfer to the auxiliary power supply 240 in the event of an abnormality of 100).

That is, the uninterruptible power supply system 200 is connected to the main power supply 100 and is switched to the auxiliary power supply 240 provided therein when the main power supply 100 supplied to the access control device 300 is abnormal. It may be made of, and a plurality of cables and a main / local type controller 260 may be connected to enable power supply and distribution to each access control device 300.

In addition, the uninterruptible power supply system 200 may be connected to the remote manager terminal 400 to transmit various status information collected from the main power source 100 and the auxiliary power source 240, and the collected status information is the DB server 500 ) Can be transmitted, stored, and managed, and the status information collected in FIG. 5 is exemplarily shown.

In addition, the uninterruptible power supply system 200 may provide status information stored in the DB server 500 in connection with the DB server 500 at the request of the remote administrator terminal 400.

The access control device 300 is provided in a place where access control is required for security, and may include a controller 260 composed of a main controller and a local controller, a reader for access authentication, a door lock, an emergency button, etc. The access control device 300 that is installed every time is connected to the main power supply 100 through a controller 260 connected to the uninterruptible power supply system 200 in a network network, thereby supplying power. That is, the access control device 300 may be connected to a plurality of local controllers connected to the main controller to receive power supply management.

Furthermore, the uninterruptible power supply system 200 may be directly connected to network electronic devices (eg, NVR, CCTV, etc.) that need to be switched to the auxiliary power supply 240 when the main power supply 100 is abnormal, even without the controller 260.

As shown in FIG. 3, the uninterruptible power supply system 200 of the present invention further includes a communication unit 210, a control unit 220, a display unit 230, an auxiliary power supply 240, and a switch unit 250.

The control unit 220 determines whether the main power source 100 is abnormal, switches and controls by the switch unit 250 to switch to the auxiliary power source 240, status information of the main power source 100, and auxiliary power ( 240).

In particular, the control unit 220 receives status information on the input voltage of the input terminal and the output voltage of the output terminal of the uninterruptible power supply system 200 and blocks it if it is out of a preset normal input voltage or normal output voltage range.

That is, the control unit 220 sets the range of the normal input voltage and the normal output voltage in advance, and periodically receives status information about the input voltage of the input terminal of the uninterruptible power supply system and the output voltage of the output terminal to determine whether it is out of range, If it is out of range, it is determined as an abnormal state, and is automatically cut through the switch unit 250 provided at the corresponding location by an algorithm of a control program installed in the uninterruptible power supply system 200. At this time, the switch unit 250 includes an on / off switch of the main power supply 100 and an on / off switch of the auxiliary power supply 240 in an internal circuit so that the switching is made to the auxiliary power supply 240.

Here, the input voltage of the input terminal of the uninterruptible power supply system 200 may be the input voltage of the main power source 100 or the auxiliary power source 240, and the output voltage of the input terminal of the uninterruptible power supply system 200 is the system 200 ) It can be output voltage. In addition, referring to FIG. 2, the output voltage of the system 200 becomes an output voltage for the main power supply 100 when the main power supply 100 is connected, and when the auxiliary power supply 240 is connected to the main power supply 100 or more. It becomes the output voltage for 240.

In addition, the control unit 220, regardless of whether the main power input voltage, auxiliary power input voltage or system output voltage is large, switches provided at the input and output terminals of the uninterruptible power supply system 200 to a control program or a manual control button. By turning it OFF, it is also possible to provide a function of manually or forcibly blocking the input voltage and output voltage to 0V. Through this function, the administrator provides an effect of reducing the failure of the uninterruptible power supply system 200 and whether or not the auxiliary power supply 240 is replaced or an electric shock risk of an operator when manually checking the power.

In addition, the status information of the switching on / off state when switching the auxiliary power 240, the switching switching time, the main power 100 input voltage, the auxiliary power 240 input voltage, the system 200 output voltage, the auxiliary power 240 Includes information on temperature, humidity, life and battery level status, is stored in a separate DB server 500 and provided when requested by the control unit 220, and when requested by the administrator terminal 400 at a remote location It may be provided through the DB server 500.

An example of a screen for monitoring status information at the remote manager terminal 400 is illustrated in FIG. 5, and the manager terminal 400 uses the ID and IP (Internet Protocol) of a plurality of auxiliary power sources 240 for each auxiliary power source. The 240 can be identified and monitored.

At this time, when the auxiliary power 240 is switched, the switching on / off state, the switching switching time, the main power 100 input voltage, the auxiliary power 240 input voltage, the system 200 output voltage, the auxiliary power 240 temperature and humidity In addition, it displays and provides data (number or on / off status) for life or battery level status, and visually displays it on the manager terminal by color-coded according to the status (on / off status, etc.) or type of each information. Can provide.

Particularly, when the auxiliary power 240 input voltage, auxiliary power 240 output voltage, and auxiliary power 240 are switched, the switching on / off state (the 'UPS operation' display part in FIG. 5) is set to a voltage value or voltage on / off state. Accordingly, it is color-coded and displayed on the screen, and in the case of voltage cutoff of the auxiliary power supply 240, an alarm sound may be activated to provide an intuitive monitoring by the administrator.

In addition, when an emergency occurs, the administrator can manually forcibly cut off the power.

Furthermore, the control unit 220 periodically receives status information of the main power source 100 to determine whether the main power source 100 is abnormal, cuts off the power supply of the main power source 100 when the main power source 100 is abnormal, and , It may be controlled to switch to the auxiliary power supply 240 so that the auxiliary power supply 240 is supplied to the load.

At this time, in order to periodically check the states of the main power source 100 and the auxiliary power source 240, the control unit 220 switches on / off state, switching switching time, auxiliary power source 240 charge / discharge state, Information on the main power supply 100 input voltage, main power supply 100 output voltage, auxiliary power supply 240 input voltage, auxiliary power supply 240 output voltage, auxiliary power supply 240 temperature, humidity, life and battery level Can be provided.

Further, the auxiliary power supply 240 may be provided in the form of a battery, and status information on the remaining amount of the battery may be provided from the control unit 220.

In particular, the battery level estimation may be performed by an artificial intelligence algorithm. For example, in order to estimate the remaining battery capacity, an approximate measurement function is obtained using an artificial neural network to consider all factors such as temperature, reuse count, C-rate, and self-discharge, which affect the maximum capacity of the battery. , By applying this measurement function to the measurement of the remaining battery capacity, it is possible to obtain a measurement result close to the actual one.

In addition, a temperature sensor and a humidity sensor may be provided to obtain status information about the temperature and humidity of the auxiliary power supply 240, and the status information about the temperature and humidity of the auxiliary power supply 240 continues to the DB server 500 To be stored, and accurate prediction of temperature and humidity may be made based on artificial intelligence algorithms such as support vector machines using big dataized state information, and furthermore, in order to grasp the state of the auxiliary power supply 240 as well as temperature and humidity Predictions using artificial intelligence may be made by collecting data of sensors to be mounted. For example, an acceleration sensor may be mounted on the auxiliary power supply 240, and the influence of wind, tilt of the auxiliary power supply 240 equipment, the degree of damage or external shock may be determined using the acceleration value. To this end, pattern information is generated using displacement of the acceleration value, and applied to an artificial intelligence algorithm such as a support vector machine to recognize various situations and determine the state of the auxiliary power supply 240 according to the pattern.

Here, the support vector machine is one of supervised learning machine learning methods that are mainly used for classification, regression, and outliers detection, and for data having a plurality of dimensions, It is a machine learning model that is used for pattern recognition or data analysis as an optimized method for finding an optimal decision boundary that can distinguish multiple dimensions well.

In addition, as the above-described artificial intelligence algorithm, a deep neural network (DNN) may be used, or various artificial intelligence algorithms such as a synthetic neural network (CNN) or a circulatory neural network (RNN) may be used.

The display unit 230 may display whether the auxiliary power supply 240 is switched and status information.

The communication unit 210 transmits the status information to the remote manager terminal 400 under the control of the control unit 220.

Furthermore, each denier communication unit 210, control unit 220, display unit 230, and auxiliary power supply 240 included in the uninterruptible power supply system 200 can be detachably attached or detached to the uninterruptible power supply system 200. Can be provided.

Specifically, the auxiliary power supply 240 is configured to be detachably attached to the uninterruptible power supply system 200, so that the battery power of the auxiliary power supply 240 estimated by various algorithms in the above-described control unit 220 is sufficiently charged. It is also possible to prepare for a case where recovery is not possible even by the back.

That is, when the above-described situation occurs, the control unit 220 notifies the manager that the life of the auxiliary power supply 240 is not much left, and the manager prepares appropriately for the replacement of the auxiliary power supply 240.

In addition, when the auxiliary power supply 240 is replaced, the control unit 220 checks the corresponding event to update the status information of the auxiliary power supply 240 described above. This update is to prevent the estimation of the status information of the auxiliary power supply 240 used in the past due to the replacement of the auxiliary power supply 240 incorrectly reflected in the state of the newly replaced auxiliary power supply 240.

Furthermore, even when there is no separate switching command of the control unit 220 when the auxiliary power supply 240 is detached, a hot swapping function and a hot plugging function may be included to enable replacement of the battery.

Furthermore, the uninterruptible power supply system 200 is provided to provide an overcharge protection circuit, an overdischarge protection circuit, an overcurrent blocking circuit and a short circuit protection circuit, and hot plugging to provide protection and hot swapping and hot plugging functions of the auxiliary power supply 240. A low voltage protection circuit can be provided.

In addition, the uninterruptible power supply system 200 of the present invention adopts a structure that facilitates attachment and detachment through modularization of each component (communication unit, control unit, display unit, auxiliary power supply) that is an internal component, and is easy to install and maintain. , It is a structure considering the surrounding environment for performance preservation and protection, and it is possible to miniaturize the product size due to the addition of control and functions.

In addition, the uninterruptible power supply system 200 of the present invention adopts a structure that can be detached by itself and can be combined to be detachable to the main power source 100 or the controller 260, so that it is easy to install and maintain. . For example, a detachable connector such as a modular power supply for a PC connects the uninterruptible power supply system 200 and the main power supply 100 or the controller 260, or the housing and main power supply of the uninterruptible power supply system 200 ( 100) or the controller 260 itself may be coupled to each other by adopting a structure that can be detached by female or female.

100: main power supply 200: uninterruptible power supply system
210: communication unit 220: control unit
230: display 240: auxiliary power
250: switch unit 260: controller
300: access control device 400: administrator terminal
500: DB server

Claims (5)

In the uninterruptible power supply system of the access control device,
Auxiliary power switch in case of emergency;
A control unit for determining whether the main power is constantly connected, switching control by a switch unit to switch to the auxiliary power when the main power is abnormal, and receiving status information of the main power or the auxiliary power;
A display unit for displaying whether the auxiliary power is switched and the status information;
A communication unit that transmits the status information to a remote manager terminal under the control of the control unit;
Including,
The control unit
When receiving the status information on the main power input voltage, if it is out of a preset normal input voltage range, it is cut off, switched to the auxiliary power, and when the auxiliary power is switched, the state information of the auxiliary power is provided and the communication unit Transmitted to the manager terminal,
Regardless of whether the main power input voltage, auxiliary power input voltage or system output voltage is large, the switches provided at the above-described input terminals and output terminals are turned off by a control program to manually or forcibly input voltage and output voltage to 0V. Block,
The status information
Switching on / off state when switching of the auxiliary power, switching switching time, main power input voltage when the main power is connected, auxiliary power input voltage, system output voltage, auxiliary power temperature, humidity, life and battery remaining Contains information about the status,
Characterized in that it is stored in a separate DB server and provided upon request of the controller,
The uninterruptible power supply system
Switching on / off state when switching auxiliary power included in the status information, switching switching time, main power input voltage when connecting the main power, auxiliary power input voltage when switching the auxiliary power, system output voltage, temperature and humidity of auxiliary power , It is provided by visually displaying it on the manager terminal, color-coded according to the state or type of information about the life or battery level status,
Information on the battery level is provided by the controller, but the battery level estimation uses an artificial neural network to take into account temperature, reuse count, C-rate, and self-discharge factors that affect the maximum capacity of the battery. It is done by finding the approximate measurement function
A temperature sensor and a humidity sensor are provided to obtain status information about the temperature and humidity of the auxiliary power source, and temperature and humidity prediction is made based on the AI algorithm of the support vector machine using big data status information. Equipped with an acceleration sensor on the auxiliary power and using the acceleration value to determine the state of the impact of the wind, the tilt of the auxiliary power, the degree of damage or external shock, and utilize the displacement of the acceleration value for the state of the auxiliary power Uninterruptible power supply system characterized in that it is possible to determine the state of the auxiliary power source according to a pattern by generating pattern information and applying it to a support vector machine artificial intelligence algorithm.
delete delete delete According to claim 1,
The auxiliary power
Uninterruptible power supply system characterized in that detachable or removable inside the uninterruptible power supply system is removable.

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