KR20200084415A - Additional connect device for SMPS power supply with IOT based control system - Google Patents

Abstract

The present invention relates to an auxiliary connection device for a SMPS power supply applied to an IoT-based control system which mediates the electrical connection between the SMPS power supply and a load device, and embedded with an IoT module for wireless communication with an Internet connection terminal through an Internet communication network and a sensor required for state detection, thereby remotely monitoring information on the output state of the SMPS power supply and the alarm for an abnormal state in real time from an internet connection terminal such as a smartphone. In addition, the auxiliary connection device enables parallel connection and multiplex connection of the SMPS power supply through power supply control and output voltage adjustment, thereby allowing the SMPS power supply to be used as a spare power source. According to the present invention, an auxiliary connection device for a SMPS power supply applied to an IoT-based control system includes: an input unit connected to an input power source to receive power; an output unit for applying power to a load device and preventing reverse current; a wireless communication unit for receiving a remote control signal through wireless communication with an external device and transmitting data measured by the sensor; a control unit for electrically blocking or connecting the input power source from or to the SMPS power supply and adjusting an output voltage value; a sensor unit for measuring consumption power input to the SMPS power supply and measuring an output voltage and a current rectified and output from the SMPS power supply; and a driving power supply including a battery to convert input power to supply power required for driving the wireless communication unit, the control unit, and the sensor unit, and to drive the components even when there is no input power.

Description

Supplementary connect device for SMPS power supply with IOT based control system

The present invention mediates the electrical connection between the SMPS power supply and the load device and embeds an IoT module for wireless communication with the Internet connection terminal through the Internet communication network and a sensor necessary for state detection, thereby providing information on the output state of the SMPS power supply. IoT that monitors alarms on and status anomalies in real time remotely from an Internet connection terminal such as a smartphone, and enables parallel connection and multiplexed connection of the SMPS power supply through power supply control and output voltage adjustment, so that it can be used as a spare power It relates to an auxiliary connection device for the SMPS power supply to which the base control system is applied.

Through the Internet of Things, which emerged as the main pillar of the 4th Industrial Revolution, a large number of household electronic devices can be controlled online. In the case of industrial electronic devices, most of them are equipped with a separate control system and are guided and controlled through the internal network, which is mainly formed by companies with sufficient capital and large facilities, and is difficult to apply in small facilities.

Therefore, the SMPS power supply device included in a large number of industrial electronic devices requires a wireless communication unit that wirelessly communicates with external devices such as a smart phone through an Internet network, and a sensor unit that measures power consumption, output voltage, and current, and a power supply device. A control unit that can control the input power supply to cut off or connect and regulate the output voltage, and attaches an auxiliary connection device with a built-in driving power supply unit that includes a battery to supply power to each unit. Remotely monitor output voltage, output power, driving status, and abnormal status, connect and disconnect input power, remotely control the output voltage value, and cut off and monitor the input power of SMPS power supply when the load device is in the standby state. The parts for over-control are battery-powered to prevent unnecessary power consumption.

Smart power plug using wireless communication network as disclosed in KR10-2016-0100565, which is a conventional technology that detects whether a load device is driven or not and consumes power remotely and controls whether power is supplied based on IoT technology. System" and registered patent No. KR10-17810555 "Internet of Things based smart outlet" has been disclosed and it is a prior art that solves the potential difference between two SMPS power supplies and controls to supply power in parallel. No. Patent No. KR10-1435631" Disclosed is a parallel connection circuit device for a switching mode power supply and a control method therefor.

The published patent No. KR10-2016-0100565 "Smart Power Plug System Using Wireless Communication Network" is equipped with a relay module, a wireless communication module, and a controller module so that a user can remotely monitor a connected load device using a wireless terminal possessed by the user. And control. However, the above-mentioned Patent Publication Nos. KR10-2016-0100565 "Smart Power Plug System Using Wireless Communication Network" and Registered Patent No. KR10-17810555 "Internet of Things based Smart Outlet" are 220V plugs used for home use as an outlet standard. It is designed and cannot be applied when the required power is supplied to the electronic device in the form of an SMPS power supply.

The registered patent No. KR10-1435631 "Parallel connection circuit device of switching mode power supply and control method thereof" includes two SMPS connections, a first SMPS board, a second SMPS board, a potential difference generator, a relay, and a microcomputer. Parallel connection is made by connecting and connecting SMPS boards in parallel, but measuring and detecting the output voltage at both ends of the potential difference generator through a microcomputer and controlling the output voltages of two single SMPS boards so that the potential difference at both ends is not the same and the same output voltage. To make. However, in order to connect the SMPS power supply in parallel by applying this, the circuit must be configured and connected according to the "patent connection circuit device of the switching mode power supply device and a control method thereof" in Korean Patent Registration No. KR10-1435631.

The present invention solves the problem of being limited to the household electronic products of the smart plug connector according to the prior art and the complicated circuit configuration problem of the parallel connection circuit device of the switching mode power supply device and its control method and to apply the SMPS power supply to industrial electronic devices. As an invention devised for the supply device, it monitors and controls remotely based on IoT technology in the state of connection of the SMPS power supply through an auxiliary connection device with a built-in battery, and the standby power of the SMPS power supply Provides an auxiliary connection device for SMPS power supply with IoT-based control system that prevents power consumption by blocking consumption and monitoring through a battery even when there is no power supply so that it can be checked even in an emergency such as a power outage. The purpose.

KR 10-1781055 B1 KR 10-2016-0100565 A KR 10-1435631 B1

The problem to be solved by the present invention is to connect an auxiliary device to an input terminal and an output terminal of an SMPS power supply used in various industries such as industry and agriculture in addition to the home, connect to a server through a wireless communication network, and a user's smartphone, etc. By connecting to the server with the Internet connection terminal of the system, the power consumption, output voltage, and output current are measured and displayed, and the power supply of the unused SMPS power supply is immediately cut off or the output voltage is adjusted to make the SMPS power supply in parallel and multiplexed. It is possible to control and monitor so that it can be connected, and it is possible to run the battery and transmit current information even when the input power is cut off, thereby minimizing the waste of standby power and controlling the device that uses the SMPS power supply as a power source at low cost. It is intended to provide an auxiliary connection device for an SMPS power supply device to which an IoT-based control system that can build a network is applied.

The auxiliary connection device for the SMPS power supply to which the IoT-based control system according to the present invention is applied to achieve the above object is a device connected to the SMPS power supply,

An input unit to which input power is connected to receive power;

An output unit that applies power to the load device and prevents reverse current;

A wireless communication unit wirelessly communicating with an external device to receive a remote control signal and transmit data measured by the sensor;

A control unit that electrically disconnects or connects input power to the SMPS power supply and adjusts the output voltage;

A sensor unit for measuring power consumption input to the SMPS power supply and measuring the output voltage and output current rectified from the SMPS power supply;

And a driving power supply unit including a battery to convert input power to supply power required for driving the wireless communication unit, the control unit, and the sensor unit, and to operate the wireless communication unit, the control unit, and the sensor unit even when there is no input power.

SMPS power supply device with IoT-based control system applied through a wireless communication network using an internet connection terminal such as a smartphone, tablet, laptop, PC, etc. It is possible to remotely monitor and control the operation status and power supply of the connected load devices by connecting to the auxiliary connection device. Monitoring can prevent unnecessary power consumption and electric accidents, and it can be confirmed whether the power supply of critical equipment is abnormal. In addition, by making the same output voltage through the output voltage control, the SMPS power supply can be connected in parallel through the device without configuring a separate circuit. Accordingly, the problem that the heat sink required in the existing SMPS parallel connection circuit structure is removed and the size of the system increases can also be solved.

Through the present invention, the output voltage, output current, and power consumption of existing devices can be monitored remotely to prevent electric accidents and prevent power supply cutoff of main equipment through easy connection of a spare power supply, and blockage of unused load devices. It is a very useful invention for industrial development that can save standby power.

1 is a schematic connection diagram of an auxiliary connection device for an SMPS power supply device to which an IoT-based control system according to the present invention is applied.
2 is a block diagram of an auxiliary connection device for an SMPS power supply device to which an IoT-based control system according to the present invention is applied.
3 is a secondary connection device for a SMPS power supply device applied with an IoT-based control system for each user setting location of an application of an Internet connection terminal user of a secondary connection device for a SMPS power supply device with an IoT-based control system according to the present invention Implementation of the overall status of connected SMPS power supplies.
4 is a secondary connection device for a SMPS power supply device to which an IoT-based control system is applied for each user setting location of an application of an Internet connection terminal user of a secondary connection device for a SMPS power supply device to which an IoT-based control system according to the present invention is applied. Implementation diagram of the connected SMPS power supplies.
5 is a SMPS power supply connected to a secondary connection device for a SMPS power supply device to which an IoT-based control system of an application of an Internet connection terminal is applied to a user of a secondary connection device for a SMPS power supply device applied with an IoT-based control system according to the present invention Individual detailed monitoring implementation of the device.
6 is an auxiliary connection device for an SMPS power supply device to which an IoT-based control system is applied for each user setting location of an application of an Internet connection terminal user of an auxiliary connection device for an SMPS power supply device to which an IoT-based control system is applied according to the present invention. Error message implementation diagram of connected SMPS power supply.
7 is a secondary connection device for a SMPS power supply device applied with an IoT-based control system for each user setting location of an application of an Internet connection terminal user of a secondary connection device for a SMPS power supply device with an IoT-based control system according to the present invention. Group setup implementation of connected SMPS power supplies.

Hereinafter, the auxiliary connection device for the SMPS power supply device to which the IoT-based control system according to the present invention is applied will be described in detail with reference to the drawings.

Before explaining the present invention in more detail,

The present invention can be applied to a variety of changes and can show various forms, the implementation (구현, aspect) (or embodiments) to be described in detail in the text. However, this is not intended to limit the present invention to a specific disclosure form, and it should be understood that all modifications, equivalents, or substitutes included in the spirit and scope of the present invention are included.

In each figure, the same reference number, especially the number of tens and ones, or the same number of tens, ones and alphabets indicates members having the same or similar functions, and unless otherwise specified, each reference in the drawing The member indicated by the code can be regarded as a member conforming to these standards. In addition, in each drawing, the components are exaggeratedly large (or thick) or smallly (or thinly) or simplified to express the size or thickness in consideration of convenience, etc., thereby limiting the protection scope of the present invention. It should not be.

The terminology used herein is only used to describe a specific embodiment (sun, 態樣, aspect) (or embodiment), and is not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, terms such as ~include~ or ~consist of~ are intended to designate the existence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, and one or more other features. It should be understood that the presence or addition possibilities of fields or numbers, steps, actions, components, parts or combinations thereof are not excluded in advance.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains. Terms such as those defined in a commonly used dictionary should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

As shown in Fig. 1, the auxiliary connection device for the SMPS power supply device to which the IoT-based control system according to the present invention is applied is connected by pairing one device with one SMPS power supply 200. Parallel connection and For multiplexed connection, there must be an auxiliary connection device for the SMPS power supply to which the IoT-based control system is applied in the same quantity as the SMPS power supply 200 to be used for connection.

As shown in FIG. 2, the auxiliary connection device for the SMPS power supply device to which the IoT-based control system according to the present invention is applied includes a housing 100, an input unit 110, an output unit 120, a driving power unit 130, and a wireless communication unit It comprises 140, the control unit 150, the sensor unit 160.

For reference, the auxiliary connection device for the SMPS power supply to which the IoT-based control system of the present invention is applied is a product that is mainly connected and detachably connected to the SMPS power supply already installed in the device, but is embedded in the SMPS power supply to supply power. It can also be produced as a product that forms part of the supply.

The input unit 110 receives external power and is connected to an input terminal of the driving power unit 130 and the SMPS power supply 200 to supply power to the SMPS power supply 200.

The driving power supply unit 130 converts power applied to AC into direct current to supply power required for driving the wireless communication unit 140, the control unit 150, and the sensor unit 160. In addition, a battery and a circuit for charging a battery are included to allow the wireless communication unit 140, the control unit 150, and the sensor unit 160 to be driven through a battery when external power is cut off.

The sensor unit 160 is connected between the input unit 110 and the SMPS power supply 200 to measure the power consumption of the SMPS power supply 200 and the SMPS power supply 200 and the output It is connected between the unit 120 and includes a voltage sensor and a current sensor for measuring the output voltage and output current.

The wireless communication unit 140 communicates with an Internet connection terminal (eg, a smart phone) through an Internet network to transmit power consumption, output voltage, and output current measured by the sensor unit 160 to the Internet connection terminal, and in FIG. 5. As can be seen, it can be remotely monitored in units of hours, days, and months, and receives a control signal of the Internet connection terminal so that it can be remotely controlled through the control unit 150. It is possible to determine whether the load device 400 is driven or in a standby state from the output current consumption power.

The control unit 150 may be a relay, a transistor, a triac, or the like to electrically connect or block them between the input unit 110 and the SMPS power supply 200, the SMPS power supply 200 and the A digital potentiometer for adjusting the output voltage value before the output voltage sensor of the sensor unit 160 may be included between the output units 120.

The control unit 150 may block or apply power supply to the SMPS power supply 200 according to a command signal received from the Internet connection terminal, and supply power to the SMPS power supply 200 according to a reserved time. It can be blocked or authorized. When the output voltage measured by the sensor unit 160 is lower than the reference value or the power consumption is higher than the reference value, the power supply to the SMPS power supply device 200 is cut off and the Internet connection terminal prevents an output voltage abnormal condition or overload. The information is transmitted and notified and output as shown in FIG. 6. When the load device 400 is in the standby state, it performs a control function such as blocking the standby power by cutting off the power supply to the SMPS power supply 200.

When the plurality of SMPS power supply units 200 to which the secondary connection device for the SMPS power supply unit to which the IoT-based control system is applied is connected is set to multiplexing through the Internet connection terminal, the control unit 150 is a load device 400 as the main. When the power consumption of the sensor unit 160 of the SMPS power supply 200 to which the auxiliary connection device for the SMPS power supply device to which the IoT-based control system is applied, which is supplying power to the power supply is measured, is measured, a secondary connection is made. Load device by applying power to the SMPS power supply 200 to which the auxiliary connection device for the SMPS power supply to which the IoT-based control system is applied is connected and cutting off the power supply of the SMPS power supply 200 in operation. It can be controlled so that the power applied to 400) is not cut off.

When the control unit 150 designates a plurality of SMPS power supply units 200 to which a secondary connection device for an SMPS power supply device to which an IoT-based control system is applied is connected, as shown in FIG. 7 in a parallel group, the control unit 150 is designated as a digital potential meter. The output voltage of the SMPS power supply units 200 is controlled to control the same value at the output voltage sensor of the sensor unit 160.

The output unit 120 supplies an output terminal for connecting and applying the output voltage and output current adjusted through the digital potential meter of the control unit 150 to the load device 400 and SMPS power applied with an IoT-based control system A reverse current prevention circuit may be included for parallel connection between a plurality of SMPS power supply units 200 to which a device auxiliary connection device is connected.

In the housing 100, the input unit 110, the output unit 120, the driving power supply unit 130, the wireless communication unit 140, the control unit 150, the sensor unit 160 is built-in SMPS power supply It takes an easy form of electrical coupling with the supply device 200.

In the above, the auxiliary connection device for the SMPS power supply device to which the IoT-based control system having a specific structure is applied has been described with reference to the accompanying drawings in describing the present invention, but the present invention can be modified and changed in various ways by those skilled in the art. , These modifications and variations should be construed as falling within the protection scope of the present invention.

100: housing
110: input unit
120: output unit
130: driving power supply
140: wireless communication unit
150: control unit
160: sensor unit
200: SMPS power supply
300: power
400: load device

Claims (5)

An input unit 110 to which the input power is connected to receive power;
An output unit 120 that applies power to the load device and prevents reverse current;
A wireless communication unit 140 that wirelessly communicates with an external device to receive a remote control signal and transmit data measured by the sensor;
A control unit 150 that electrically disconnects or connects input power to the SMPS power supply and adjusts the output voltage value;
A sensor unit 160 that measures power consumption input to the SMPS power supply and measures the output voltage and current rectified from the SMPS power supply;
In addition, the wireless communication unit 140, the control unit 150, the sensor unit 160 to convert the input power to supply the power required for driving, even when there is no input power, the wireless communication unit 140, the control unit 150, An auxiliary connection device for the SMPS power supply device to which the IoT-based control system is applied, comprising: a driving power supply unit 130 including a battery so that the sensor unit 160 is driven. The method of claim 1
The driving power supply unit 130 includes an AC-DC conversion circuit for supplying a voltage required by the wireless communication unit 140, the control unit 150, and the sensor unit 160, and further includes a battery charging circuit using the same. Auxiliary connection device for SMPS power supply with IoT-based control system. The method of claim 1
The control unit 150 includes a digital potentiometer to control the output voltage, and when multiple SMPS power supplies are connected in parallel by group setting in a user application, the voltage sensor of the sensor unit 160 connected to each SMPS power supply Auxiliary connection device for SMPS power supply with IoT-based control system, characterized in that it includes the function of eliminating the potential difference by matching the output voltage measured by the same. The method of claim 1
The control unit 150 includes a relay to cut or connect the input power, and the user applies or cuts the input power according to a predetermined schedule when setting a scheduled operation or turning on/off in an application and sets the power consumption and output voltage. Auxiliary connection device for SMPS power supply with IoT-based control system characterized in that it includes a function to cut off power when out of range
The method according to claim 1 or 4,
The control unit 150 applies power to the SMPS power supply to which the auxiliary connection device for the SMPS power supply to which the IoT-based control system is applied, which shows a phenomenon in which a user setting range of the output voltage deviates when multiplexing is configured by group setting in the application. IoT-based control characterized in that it further comprises a function of stopping and applying power to the SMPS power supply to which the auxiliary connection device for the SMPS power supply to which the IoT-based control system to which the wire is blocked and additionally connected is applied is connected. Auxiliary connection for SMPS power supply with system.

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