KR20160011129A - the remote controling method and processing method and multi-tap concent to protect Standby Power - Google Patents

Abstract

The present invention relates to a standby power socket (= power strip) to prevent a waste of standby power for preventing defenseless consumption of standby power which is a main cause of a waste of power, a standby power preventing method using the same, and a remote control method using the power strip and an application program. In particular, the present invention relates to the power strip and the standby power preventing method using the same to prevent a waste of standby power by preventing a current from flowing in the standby power socket (=power strip) to prevent the standby power from being automatically consumed during the use of home appliances put into the standby power socket (=power strip) as an invention to prevent a waste of power by using the power strip used in the many households and to minimize the standby power which is surely wasted when home appliances are operated after a movable control signal is received through a remote controller. Furthermore, the present invention relates to the remote control method using a multi-functional power strip and the application program capable of controlling a short circuit of a standby preventing switch of the standby power socket and an arbitrary preventing switch at a long range and a close range by connecting the standby power socket and the application program and executing a function of the remote controller which is previously functionalized in the home appliances with only the application program at a direct range.

Description

The present invention relates to a multifunctional multi-plug receptacle for preventing standby power from being wasted, a standby power cut-off method using the multi-plug receptacle, and a remote control method using the multi-plug receptacle and an application program.

The present invention relates to a multifunctional multi-plug receptacle that prevents waste of standby power for preventing unprotected consumption of standby power, which is a major factor of waste of electric power, a standby power cutoff method using the same, and a remote control method using the multi- .

Particularly, the present invention is to prevent waste of electric power by using a multitap outlet which is widely used in the home. In order to minimize the standby power that must be wasted when the home appliance is operated by receiving the control signal of operation through the remote controller, , A standby power wastage which interrupts the energization of the current flowing in the multi-tap so that the household appliances that are inserted into the standby power outlet (= multi-outlet, multi-tap) can be prevented from automatically consuming the standby power at the time when the use is stopped And a standby power cutoff method using the same.

Further, according to the present invention, it is possible to control the short circuit of the standby switch and the arbitrary switch in the stand-by power outlet by interlocking the standby power outlet with the application program, and to perform the function of the remote controller And a remote control method using an application program.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a standby power cut-off receptacle for cutting off standby power flowing into a household appliance connected to a household standby power outlet (= multi-tap). Standing power is often referred to as standby power when electronic devices (= household appliances) are plugged in while power is turned off, but this standby power has been recognized as the main cause of power wastage in recent 2 to 3 years. With the nickname "PowerVampire" and the importance of energy and environment, standby power has to be actively eradicated.

VCR. TV. Microwave. dish washer. The charger of the mobile phone is connected to the power source rather than the time of performing the function of the device itself, but has more power flowing in a standby state in which the function is not performed. Considering how many hours a day you use your home microwave oven, it is easier to understand. According to the International Energy Agency (IEA), 10-15% of the average power consumption of OECO member states is consumed by standby power. It is reported that about 12% of the consumption is consumed as standby power.

In developed countries, most of the electronics that are plugged into the wall outlet, such as a VCR in a living room, a cable set-top box, a bathroom hairdryer, an electric razor and a kitchen microwave oven, And the arrows are going back to Asian electronics companies that mainly produce these devices, it shows that the domestic electronic companies are wasting their energy by consuming standby power without any neglect.

Especially, home appliances, which are the most problematic among these household appliances, must always have a certain amount of current in order to receive the operation of the remote controller. In the case of TV, ON and OFF are already generalized according to a control signal of a remote controller at a desired time. In the case of a fan and an air conditioner, a certain amount of current is wasted in order to receive a control signal, It is maintained in a state of being turned on.

In order to prevent the waste of standby power, it is practically necessary to overcome the laziness of the real life that humans have enjoyed in the past. It is necessary to pursue the diligence of approaching household appliances and to break down the convenience that the recoat controller brings. It is a simple matter, but it is not so easy. This is because all human lives have been pursued with convenience and comfort, and these directions and trends have always been regarded as right, fresh, and improving tasks. Some of them are taking a lot of effort to do this and are getting carried away by it, and this is more because it is the biggest thing to do in the future.

However, the present invention seeks to gain a great deal of profit by adding a small hassle to such conventional conveniences. In addition to human effort, we want to gain a lot of profit while maintaining convenience that we pursued in the past. To do this, it is necessary to recognize the usage pattern and the form of home appliances. First, all home appliances do not control ON and OFF by using a remote controller. Second, there are many power outlets on the inside of the building, but it is not enough. You need to be aware that you have to use a multi-tap outlet.

The present invention also aims to solve the waste of electric power that can be generated due to the user's carelessness, that is, the waste of electric power that can not be generated when the user goes out without turning off the electric power for not using it. In the case of household appliances such as a gas boiler, when the user is sleeping while sleeping, he / she spends time with his / her comfort and is often unable to turn off his / her memory when he / she is out of memory. will be.

In conclusion, the present invention attempts to prevent the waste of standby power by using a multi-plug receptacle for a home appliance that requires a remote controller. In the case of home appliances which do not require any other remote controller, consumption of power consumed is small, so it was not accepted as a problem to be solved.

1 and 2 show a conventional standby power outlet (Patent Application No. 10-2007-0050189, a standby power cut-off multitap and a standby power cut-off method using a multi-tap). In this outlet, one standby power outlet 11 So that only standby power can be blocked at all times. Since the constant power source can not be used, it is practically difficult to use.

The present invention provides a multi-plug outlet that prevents waste of standby power to prevent unproblematic consumption of standby power, which is a major factor of waste of electric power, a standby power cutoff method using the same, and a remote control method using the multi-plug outlet and an app program I want to.

Particularly, the present invention prevents waste of electric power by using a standby power outlet (= multi-tap outlet, multi-tap) which is widely used in the home. When the home appliance is operated by receiving a control signal of operation through a remote controller, (= Multi-tap receptacles, multi-tap), so that standby power can be prevented from being automatically consumed at the time when the use of the appliance is stopped. The standby power outlet (= A multi-tap outlet, and a standby power blocking method using the same.

Further, according to the present invention, it is possible to control the short circuit of the standby switch and the arbitrary switch in the stand-by power outlet by interlocking the standby power outlet with the application program, and to perform the function of the remote controller I would like to provide a multifunctional multitap outlet and a remote control method using an app program that can be executed only by an app program.

A multifunctional multi-plug receptacle for blocking standby power waste according to the present invention has a receptacle groove (K) which is fitted in a wall power outlet (14) and into which two plugs can be fitted; One of the two receptacle grooves K measures an excessive current when it flows through the current sensor 2 and 44 and performs an electric leakage blocking function so that current is cut off through a separate standby switch 45, A standby power outlet (46) for shutting off the current of the standby cutoff switch (45) to block waste of the standby current even when the flowing current is smaller than or equal to the reference value of the standby current that has already been measured; The other one of the two outlet grooves K measures the current through the current sensor 1 and 41 when an excessive current flows separately from the standby power outlet 46, A power outlet (43); A display unit (49) for displaying an amount of current flowing in an outlet of the receptacle groove (K), a change amount thereof, and necessary information; A communication module (48) for transmitting and receiving a control signal and necessary information and data under the control of the CPU (47); A CPU for controlling and managing the operation of the electrical leakage cutoff switch 42, the standby cutoff switch 45, the current sensors 1 and 2 (41; 44), and the communication module 48 in the standby power outlet 46; A standby power outlet (= multi-tap) 40 including a standby power supply 47, which minimizes power waste to manage standby power and manage it to improve power consumption.

The standby interruption switch 45 for interrupting the waste of the standby power through the current detection of the current sensor 2 and 44 according to the multifunctional multi- (I.e., a multi-step) power outlet, which can be manually turned on and off through an external short-circuiting switch 125 coupled to an end of a long power line 124 in the main body 40, ) 40 includes a plug terminal 121 protruding so as to be fitted to a wall surface power switch 14 formed on a wall surface; A pair of outlet grooves K formed in a circular groove to a predetermined depth from the upper portion of the housing body 123; A display unit 49 formed on one side of the housing body 123 and configured to display characters or information; And a click switch 122 formed on one side of the housing body 123 for controlling ON / OFF of energization and operation of a standby power outlet (= multi-step) And is connected to a wall power outlet 14 so as to be able to block waste of standby power: an outlet recess K made up of two is enlarged to form a standby power outlet 40 having three outlet recesses K When an excessive current flows through the added third receptacle groove K, it is measured by the current sensor 3 and 240, and the electric current is blocked through the additional arbitrary disconnecting switch 241, Is an arbitrary power outlet 242 that allows the current to be controlled through control of the remote remote controller function A1, the short range remote controller function A2 and the direct distance remote controller function A3, Meter The digital power meter 30 for receiving the digital power meter 30 can be accommodated in the gateway 3 and can be simplified.

The remote remote controller function A1 according to the multifunctional multi-socket outlet which blocks the waste of the standby power of the present invention can be realized by the mobile communication network 202 by clicking a button in the app program 20 of the smartphone 6 at a long distance, The control server 2 transmits a control signal to the home gateway 3 and a control signal is transmitted to the communication module 2 of the standby power outlet 40 through the communication module 2 304 of the gateway 3 48 and the CPU 47 so that the standby shutoff switch 45 and the arbitrary shutoff switch 241 can be short-circuited under the control of the CPU 47. The short-range remote controller function A2 functions as a short- The process of the gateway 3 operating program 303 under the control of the CPU 2 (301) by the communication module (2) 304 of the gateway 3 by clicking the button in the application program 20 of the gateway 3 The control signal is transmitted to the communication module 48 of the standby power outlet 40, The direct distance remote controller function A3 is configured to allow the application program 20 of the smartphone 6 and the device recognition (= device compatible ) Of the remote control appliances 311 can communicate with each other through infrared communication or Bluetooth communication through the communication modules or communication means of both of them, thereby achieving short-circuiting of household appliances.

The operating program 303 embedded in the gateway 3 according to the multifunctional multi-tap outlet that blocks the waste of standby power according to the present invention is installed inside the CPU (2) 301 or in a separate storage device (= storage space) So as to manage and operate the short circuit between the digital power meter 30 and the standby power outlet 40 through the communication module 2 (304); A standby power outlet (40) consisting of three outlet receptacles (K) is a process for managing and controlling information and data related to the standby power outlet (40) and the digital power meter (30) One outlet receptacle K for any power receptacle 242 is formed in the standby power receptacle 40 so as to have three outlet receptacles K; The arbitrary disconnecting switch 241 can be turned on and off manually via the click switch 122 and the external shorting switch 125. [

In another aspect of the present invention, there is provided a standby power shut-off method using a multi-plug outlet that blocks standby power wastage. (S10) measuring the current flowing through the standby power outlet (46) and the standby power outlet (43) of the standby power outlet (= multi-tap) (40) inserted in the wall power outlet (14); A second step; When the current is supplied to the standby power outlet (= multi-step) 40, particularly, the initial current flowing in the standby power outlet 46 is measured to measure the initial value, ); A third step; (S30) confirming whether the operation of the standby power supply appliance (= household appliance) 13 inserted into the standby power outlet 46 is started and continued through measurement of the current; Step 4; When the current flowing in the standby power outlet 46 is equal to or larger than 15 A, the current sensor 2 or 44 detects this and activates the standby cutoff switch 45 in accordance with the control signal of the CPU 47, (Step S50); Step S60 of automatically shutting off the energization of the standby power outlet 40 even when the current measured by the current sensors 2 and 44 becomes "measured value? Reference value" in comparison with the reference value; Step 5; When the user intends to operate the standby power supply appliance (= household appliance) 13 inserted into the standby power outlet 46, the current interruption switch 45 is turned ON to the standby interruption switch 45 of the standby power outlet (= multi-step) (S70) of using the standby power outlet (46) when the current sensed by the current sensor (1) (41) of the always-on power outlet (43) is equal to or greater than 15A , The electric current interruption switch 42 turns off the current flowing into the power outlet 43 at all times under the control of the CPU 47. [

The standby power outlet 40 is connected to the gateway 3 via the communication module 48 of the standby power outlet 40. The standby power outlet 40 is connected to the standby power outlet 40 And transmits the standby power related data and information generated in the standby server 2 to the management server 2, and the management server 2 pushes the saving information for reducing power usage; The application program 20 embedded in the user's cellular phone 6 can acquire the power saving amount and the power saving expected value through the standby power related data transmitted from the standby power outlet 40 through the communication module 48, The communication module 48 may include a plurality of communication modules 48 selected from an RF communication module, a Bluetooth communication module, a power line communication module, a mobile communication module, an NFC communication module, a WiFi communication module, and a smart beam communication module The application program 20 installed in the mobile phone 6 has at least a data reception request means 21-1 for saving standby power through the communication module 48, A data calculating means 21-2 for calculating a waiting power saving expected amount through data, a data displaying means 21-3 for displaying the calculated data in a form of data, do.

The remote control method using the multifunction outlet and the app program according to another aspect of the present invention is a method of controlling the remote control using the smartphone 6 application program 20 through the communication module 3 310 inside the smart phone 6 The standby power supply 13, the optional power supply 243, and the remote control 12, which are each equipped with a standby power outlet 40, a digital power meter 30, and a separate communication means, Shorting the appliance (311); The remote remote controller function A1 is connected to the communication module 202 of the standby power outlet 40 via the management server 2 and the gateway 3 connected to the mobile communication network 202 when the smart phone 6 is located at a remote location (48) and the CPU (47) to short-circuit the atmospheric interruption switch (45) and the arbitrary interruption switch (241); When the smartphone 6 is located inside a gateway communication network (= gateway network) 201, which is an internal network of each household A, the remote remote controller function A2 is connected to the gateway network 201, Using the communication module 48 and the CPU 47 of the receptacle 40 to short-circuit the standby shutoff switch 45 and the arbitrary shutoff switch 241; The direct distance remote controller function A3 is a function of the communication module 3 (310) of the smartphone 6 when the user faces each remote control appliance 311 having a separate communication means in each home So that it can be short-circuited by the remote control function of each appliance.

The gateway 3 according to the remote controller function A1 according to the remote control method using the multi-plug receptacle and the app program of the present invention is configured such that the user's control signal transmitted from the user's app program 20 is transmitted to the management server 2 (2) 304 of the gateway 3 under the control of the CPU 301 and the operating program 303 in the CPU 302 The gateway 3 according to the short-range remote controller function A2 is configured to short-circuit the standby shut-off switch 45 and the arbitrary shut-off switch 241 of the power outlet 40 to the gateway 3 via the communication module 2 (304) (A) to form a separate gateway network (201); The user's control signal transmitted from the application program 20 is transmitted to the communication module 2 304 of the gateway 3 through the gateway network 201 and the transmitted signal and data are transmitted to the CPU 2 And the disconnection switch 241 via the operation program 303 in the storage device 302 and the disconnection switch 241 via the operation program 303 in the storage device 302. The smartphone 6 according to the direct distance remote controller function A3, The remote control unit 311, which can operate through a remote controller in each home, performs device recognition (= device compatible) by infrared communication or Bluetooth communication, so that it can be used as a remote controller.

The app program 20 embedded in the smartphone 6 according to the remote control method using the multi-plug receptacle and the app program of the present invention is used for power management for managing the digital power meter 30 and the standby power outlet 40 Program (B1) and program for remote control (B2); The program B1 for the remote control includes a remote mode C1 using the mobile communication network 202, a gateway mode C2 using the gateway network 201 and a home mode C3 using infrared rays or Bluetooth communication at a direct distance Control; The management server 2 forms a CPU 3 (330) for controlling all data and signals to be input and output; A power meter control program 321 for controlling data and processes associated with the digital power meter 30, a power saving control program 322 for controlling data and processes associated with the standby power outlet 40, A control program 320 consisting of a remote control program 323 for processing and controlling the transmitted remote control data and signals is stored in the CPU 3 (330) or in a separate storage device; A communication module 4 (340) for communication between the smartphone 6 and the gateway 3 is formed.

The standby power cut-off receptacle according to the present invention is characterized in that an initial value confirmed by standby power is recognized every day, and the initial value is set as a reference value, and at the time when a current of a reference value recognized as standby power flows, There is a big advantage in that standby power is not wasted at all to completely shut off the power of the standby power outlet.

Also, the standby power cut-off receptacle according to the present invention has a function of automatically shutting off the power supply to the standby power outlet and the power outlet when a certain amount of over current flows, thereby completely preventing the short circuit and fire caused by the over current There is a big advantage in.

Further, the standby power cut-off receptacle according to the present invention is provided with a standby power outlet as well as a standby power outlet in one standby power outlet (= multi-tap), so that in the case of home appliances that do not require operation of the remote controller, Which is a great advantage.

In addition, according to the present invention, there is a great advantage in that power can be wasted easily because a power supply can be easily short-circuited at a necessary time through a remote controller, a near-distance controller, and a direct-distance controller.

FIG. 1 shows a conventional one-socket multi-plug receptacle for standby power interruption,
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-
3 is a perspective view showing in detail the appearance of a multi-plug receptacle of the present invention,
4 is a side view of a multi-tap outlet of the present invention,
5 is a bottom view of the multi-tap outlet of the present invention,
FIG. 6 is a diagram showing a configuration of a multi-tap outlet according to the present invention compared with a conventional multi-tap outlet;
Fig. 7 is a view showing an embodiment for managing power using a bimultipultemultiplex receptacle of the present invention. Fig.
FIG. 8 is a diagram showing an embodiment for managing power using a three-way multi-tap outlet of the present invention,
Fig. 9 is a configuration diagram showing in detail the internal configuration of a bipartite multi-receptacle for standby power interruption of the present invention,
FIG. 10 is a diagram showing a detailed internal configuration of a three-socket multi-plug receptacle for blocking standby power of the present invention,
FIG. 11 is a diagram illustrating a configuration in which a two-socket multi-plug receptacle for blocking standby power of FIG. 6 is operated by a management server,
12 is a diagram illustrating a configuration in which the 3-way multi-tap outlet for standby power interruption of FIG. 7 is operated by the management server, FIG.
13 is a diagram illustrating a method of controlling a standby power outlet of each household by communicating with a management server according to an embodiment of the present invention;
FIG. 14 is a flowchart showing a detailed method for blocking the waste of standby power by using the multi-tap outlet for standby power interruption of the present invention,
15 is a system diagram schematically illustrating a mobile communication network and a gateway network according to the present invention,
Figure 16 is a system that clearly illustrates the manner in which the gateway of the present invention operates,
17 is a diagram illustrating a communication format between systems according to the remote, short-range, direct distance remote controller function of the present invention;
18 is a diagram illustrating communication between a standby power outlet of the present invention and a smartphone application program,
19 is a diagram showing a configuration of an app program of the present invention,
20 is a diagram illustrating internal components of the gateway of the present invention and a communication method between a smartphone and a remote control appliance,
21 is a view showing a management server of the present invention,
22 is a diagram showing a programming method of an app program embedded in a smartphone of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-function multi-plug receptacle for preventing waste of standby power, a standby power cut-off method using the multi-plug receptacle, and a remote control method using the multi-plug receptacle and an app program. The present applicant of the present invention has filed a patent application entitled "A multi-tap outlet that blocks standby power waste and a standby power cutoff method using the same," and a patent application No. 10-2014-0092177 filed on Apr. 21, "Domestic patent application"). This invention is a domestic priority claim application claiming domestic priority for this priority application . Therefore, all of the rights described in the conventional specification are intended to be accepted in this case. The present invention also relates to another application of the present applicant, 2014. 07. 21. "Multiple Smart Grid Unit for Energy Saving and its Operation Method ", Patent Application No. 10-2014-0092178 (filed on April 21, 2014 Referred to as "prior application"); And the technical content supplemented and supplemented by "Revenue Method of Apartment Management Using Digital Power Meter Reading" and Patent Application No. 10-2014-0075031 (filed on April 19, 2014, hereinafter referred to as "prior application"). Therefore, the present invention can be explained and supplemented in more detail through the above-mentioned domestic preferred applications and the prior applications of the present applicant. For the sake of simplicity, the domestic priority application for claiming domestic priority claims only for the standby power outlet capable of managing the constant power source and the standby power source and the operating method for preventing the waste of the standby power using the standby power outlet. The invention has been supplemented by technical considerations to control and manage a discrete power source. In addition to the standby power operation, it is also attempting to prevent the waste of electric power through an easy short circuit of various home appliances installed in the home.

Therefore, we will first explain the contents of the prior application in Korea, and explain new and added items later on. For reference, the case according to describe the invention below, the application underlying the domestic priority that is, the first application is first filed, "domestic priority application", this case is { "air using the meoltitep outlet to block the standby power dissipation him Quot ; , and other related applications of the present invention are referred to as & quot ; prior application "since they have a higher filing date than the present invention Especially, "Multiple Smart Grid Unit for Energy Saving and its Operation Method", Patent Application No. 10-2014-0092178 (filed on Apr. 21, 2014), "Method of profit of apartment management using digital power meter" A patent application No. 10-2014-0075031 (filed on April 19, 2014) is collectively referred to as a "prior application." In addition, if more specific specification is required, a separate application or assignment shall be designated. All applications Both may be cited as the earlier application.

1. Contents of the domestic priority application (the description of the state slightly complemented by the description of the specification 10-2014-0092177)

The present invention, as shown in Fig. 9, is a multi-plug outlet so as to have a receptacle groove K, which is fitted in a wall power outlet 14, into which two plugs can be fitted; One of the two receptacle grooves K measures an excessive current when it flows through the current sensor 2 and 44 and performs an electric leakage blocking function so that current is cut off through a separate standby switch 45, A standby power outlet (46) for shutting off the current of the standby cutoff switch (45) to block waste of the standby current even when the flowing current is smaller than or equal to the reference value of the standby current that has already been measured; The other one of the two outlet grooves K measures the current through the current sensor 1 and 41 when an excessive current flows separately from the standby power outlet 46, A power outlet (43); A display unit (49) for displaying an amount of current flowing in an outlet of the receptacle groove (K), a change amount thereof, and necessary information; A communication module (48) for transmitting and receiving a control signal and required information and data under the control of the CPU (47); A CPU for controlling and managing the operation of the electrical leakage cutoff switch 42, the standby cutoff switch 45, the current sensors 1 and 2 (41; 44), and the communication module 48 in the standby power outlet 46; A standby power outlet (= multi-tap) 40 including a standby power supply 47, which minimizes power waste to manage standby power and manage it to improve power consumption.

In order to explain the advantages of the present invention, a stand-by power cut-off standby power socket (= multi-plug socket) which has been conventionally developed and used has been briefly described. In Fig. 6 (a), an initial multi-tap outlet (= standby power outlet) is shown. This prior art uses a multi-tap in the wall. This model in which one outlet, that is, the standby power outlet 2a is provided, is used by putting a plurality of household appliances in this standby power outlet 2a. In the case of this multi-plug receptacle, when the overcurrent, that is, the overcurrent of 15 A or more, is energized, the disconnecting switch 1a operates to short-circuit the standby power outlet 2a. It is to stop using all household appliances. Of course, such an overcurrent prevention function is not a mainstay. In the case of this multi-plug socket, when a predetermined amount of standby power, that is, a standby current that is input by a user or recognized by a multi- Short-circuited to block the flow of current.

Standby current refers to the amount of current that is used in the home, in particular, a certain amount of current always flows in the TV in order to receive the control signal of the remote controller. It is quite common for home appliances to have such a quiescent current flow in a typical home. Most TVs do this, and components such as air conditioners and electric fans are operated through the remote controller. In addition, refrigerator, hair dryer, computer, etc. are not generally operated through the operation of remote controller, and are often optional. In the case of home appliances in which the power must always be turned on, the multi-tap of the above-described conventional first embodiment (Fig. 6 (a)) could not be used.

In order to solve this problem, a multi-tap according to a second embodiment of the present invention as shown in FIG. 6 (b) has been developed. In the case of this multi-tap, as compared with the multi-tap of the first embodiment described above, . Therefore, if the load applied to the always-on power outlet 3a is large, there is no way to limit it. When the load increases, the multi-tap burns out, and it is spread over the buildings and is likely to be caused by a big fire.

As a result, in order to solve the problems of all the embodiments described above, the present invention has a separate earth fault protection switch 42 as shown in Fig.

As shown in the drawing, the standby power outlet 40 of the present invention has two current sensors 41 and 44. One is the current sensor 1 (41) for the always-on power outlet 43 and the other is the current sensor 2 (44) for the standby power outlet 46. If the amount of current generated in the standby power outlet 46 reaches a predetermined amount of current that the user intends, the current sensor 2 or 44 senses the current and delivers it to the CPU 47. And the CPU 47 reads the detection of the current sensor 2 (44). The read information is issued as a control signal, and the CPU 47 operates the standby cutoff switch 45. [ In the present invention, as in the prior art, 15A is regarded as the best load to be handled by the standby power outlet (= multi-tap outlet, multi-tap) 40, and when the current of 15A or more is energized, the CPU 47 generates the control signal. Then, this signal activates the standby cutoff switch 45 to shut off substantially all the current flowing into the standby power outlet 46. The use of household appliances is temporarily stopped. When the user manually actuates the click switch 122 or the external short-circuiting switch 125 formed in the standby power outlet of the present invention (= multi-tap) 40, the standby power of the standby power outlet The outlet 46 is restarted again. Of course, some of the plurality of appliance plugs plugged into the standby power outlet 46 of the standby power outlet (= multi-tap) 40 must be removed to prevent further blocking.

On the other hand, when the amount of current generated in the other regular power outlet 43 reaches a predetermined amount of current, the current sensor 41 detects the current and delivers it to the CPU 47. The CPU 47 reads the detection of the current sensor 1 (41). The read information is transmitted as a control signal, and the CPU 47 operates the earth leakage cut-off switch 42. [ In the present invention as well, the CPU 47 regards 15A as the best load to be handled by the standby power outlet (= multi-plug receptacle) 40, so that when the current of 15A or more is energized, the CPU 47 generates the control signal. This signal activates the electric leakage cut-off switch 42 to cut off all the current flowing to the power outlet 43 at all times. The use of household appliances is temporarily stopped. Then, when the user manually operates the click switch 122 formed in the standby power outlet (= multi-tap) 40 of the present invention, the standby power outlet 43 of the standby power outlet (= multi-step) (See FIG. 9). Of course, some of the plurality of appliance plugs plugged into the always-on power outlet 43 of the standby power outlet (= multi-tap) 40 must be removed to prevent further blocking. The above is one function of the present invention standby power outlet (= multi-plug receptacle). The standby power outlet 40 of the present invention adds another function for preventing waste of standby power.

That is, when the standby power outlet (= multi-tap) 40 of the present invention is operated, a method of detecting the standby power operates through a remote controller capable of mass- Is supplied with electricity. The current generated at this moment is the standby power. The home electric appliances are not used nominally, but the flowing electric power in the ready state in which the remote controller can be operated according to the operation of the remote controller is the standby electric power. This standby power is the same as the current flowing before removing some of the plugs in which the new home appliance is fitted or fitted, particularly at the standby power outlet 46. [ Since the current flowing at this instant is standby power, the standby power outlet 40 of the present invention reads this current and stores it. The CPU 47 may directly store the information, or may have a separate storage device or storage device (not shown).

For reference, the current sensors 1 and 41 and the current sensors 2 and 44 have the same or similar configuration, and calculate both the standby power value and the current value from the currents transmitted from the outlet to the CPU 47 . The current sensors 2 and 44 are generally constituted by a current transformer CT for a current sensor and a diode, a smoothing capacitor, a zener diode and a resistor. The current transformer CT is connected in parallel to the power supplied to the household appliances connected to the socket The currents of the loads detected through the resistors are converted into voltages, and the control of the CPU (microcomputer) 47 is performed. To an AD converter (not shown). It is preferable that the voltage inputted to the AD converter (not shown) is protected by the zener diode through the CPU 47 so as not to exceed the maximum of 5V.

That is, the CPU 47 converts the current received through the current transformer CT into a voltage. If the current value is small, the voltage value input to the AD converter of the microcomputer is low, Mode, and if the current value is large, it is judged that the household appliance is in use because the voltage value entering the AD of the CPU 47 is high. As a result, it is judged as standby power because the voltage is low. When the load is not used, the power supply is cut off. When the load is used, the voltage is high. Thereby supplying power to the outlet. The CPU judges whether or not the household appliance is used by comparing a voltage input to the AD through a current transformer (= current sensor CT). The principle is that the current transformer CT detects the current, Alternatively, the standby power or the standby power may be determined according to the magnitude of the current. However, this is a general method, and the sensing of the present invention can be made directly through the current sensor. The external short-circuiting switch 125, which will be described later, is a switch portion that can turn on / off the main power itself.

In the present invention, once power is supplied to the standby power outlet (= multi-step) 40, the standby power of the moment is read to an initial value (current or power can be used) If confirmed, it will flow for a certain period of time. The reason is that the user who turns on the power will be ready to use the appliance while supplying standby power. Turn on the TV or turn on the air conditioner. When the load is increased and the current flows, the detection of the above-described leakage current, that is, the detection of the current flowing above 15 A, is continuously performed. When this use is done and the time for evening sleep approaches, the user turns off all appliances and takes a break. At this time, the current flowing into the standby power outlet 46 of the standby power outlet (= multi-step) 40 becomes the standby power when the current flowing in the household appliance, that is, the load is cut off. The current flows to the reference value at the time of initial preparation for use, that is, the initial value. The current sensor (2) 44 of this invention senses this, and the CPU 47 reads this. The read information generates a separate control signal, and the standby cutoff switch 45 is activated according to the operation of the control signal.

The standby cut-off switch 45 completely turns off the standby power outlet 46 so that all the current flowing in the outlet is cut off. There is no current wasted by standby power. In the past, when a standby power outlet 40 such as the present invention was not used, a certain amount of standby power was always wasted. When the present invention is used, the standby power that flows out is fundamentally cut off, have.

For reference, in the case of the present invention, a separate display unit 49 is provided on one side of the standby power outlet 40. The display unit 49 displays the standby power reference value mentioned above, the time, Can be displayed. Also, a click switch 122 is provided on one side of the body, and power can be supplied to the standby power outlet 40 by pressing the click switch 122 to prepare for use of household appliances.

More detailed embodiments of the standby power outlet 40 of the present invention will now be described with reference to the drawings. As shown in Figs. 3 to 5, the standby power outlet 40 of the present invention has a stand-by cutoff switch 45 for blocking the waste of standby power through current detection of the current sensors 2 and 44, It is preferable that the electric current can be manually turned ON and OFF through an external short-circuiting switch 125 coupled to the end of the power line 124 extended from the outlet (= multi-tap)

That is, the standby power outlet 40 of the present invention needs to supply power to the standby power outlet 40 in order to allow the user to wake up in the morning and operate the standby power supply 13. The user must press the click switch 122 to supply power. In fact, the stand-by power outlet 40 may be hidden at the location where the hand is difficult to enter because it is covered by furniture or electronic equipment inside the residence. In such a case, it is troublesome to remove the interference mechanism or furniture and to press the click switch 122. In order to solve this problem, the present invention uses an external short-circuiting switch 125 at the end of the power line 124 extended from the standby power outlet 40. The external short-circuiting switch 125 serves to turn on the standby shut-off switch 45, which automatically cuts off the power via the current sensors 2 and 44. [ Of course, it is also possible to manually perform the operation of turning off the standby standoff switch 45 again (for reference, the above description is the contents of the first domestic application, It will also explain that the controller function can also be shorted automatically) .

Next, the standby power outlet (= multi-plug receptacle) 40 of the present invention can be implemented in the shape and the form as shown in Figs. It is a very simple and simple form, but it is not limited to this shape and configuration. It should be noted, however, that the standby power outlet 40 of this configuration is the most desirable. As shown in the drawing, a standby power outlet (= multi-tap) 40 having the above-described physical structure of the present invention includes a plug terminal 121 protruded so as to be fitted into a wall power switch 14 formed on a wall surface; A pair of outlet grooves K formed in a circular groove to a predetermined depth from the upper portion of the housing body 123; A display unit 49 formed on one side of the housing body 123 and configured to display characters or information; And a click switch 122 formed on one side of the housing body 123 for controlling ON / OFF of energization and operation of a standby power outlet (= multi-step) So that it can be easily inserted into the wall power outlet 14 to prevent waste of standby power.

There is generally no difference in the shape and shape of a standby power outlet (= multi-step) 40 that has already been used. The plug terminal 121 which can be fitted to the wall power switch 14 protrudes from the bottom surface of the housing body 123 and the outlet groove K is formed to a predetermined depth from the upper portion of the housing body 123, Do. In the case of the standby power outlet 40 of the present invention, two outlet recesses K are formed (in the case of FIG. 3 (a)). One is the standby power outlet 46 and the other is the always-on power outlet 43. The positions of both are not fixed, and they may be formed in the reverse order of the drawing of Fig. 3 (a). The normal household power source 12 may be inserted into the always-on power outlet 43, but may be plural. On the other hand, the standby power supply outlet (46) is always fitted with the standby power supply (13).

The standby power supply appliance 13 refers to a standby power, that is, a household appliance that can operate the apparatus through operation of the remote controller. When the constant power source receptacle 43 or the standby power source receptacle 46 of the present invention reaches 15A or more, the current sensors 1, 2, 41 and 44 measure the power to cut off the power source. This is to eliminate the possibility of fire due to high load. Of course, in the case of the standby power outlet 46, in addition to this function, when a current equal to or smaller than the reference value of the standby power is flowed in order to prevent a waste of standby power, the current sensor 2 (44) And the standby cut-off switch 45 is lowered in accordance with the operation of the CPU (? Micom 47), whereby the supply of power is fundamentally cut off. The shape of the housing body 123 may be different from that shown in FIG. It is for mass production and it is intended to reduce the possibility of damage to the user due to discharge.

Furthermore, the click switch 122 formed at one side of the housing body 123 is a button-type switch that can supply power to the air cut-off switch 45 as well as the electric leakage cut-off switch 42. The information and other data generated in this process can be visually recognized by the user through the illustrated display unit 49 (this is shown in FIG. 3 (a) as the contents of the domestic preferred application).

Hereinafter, a system in which the standby power outlet 40 of the present invention is managed and used will be described. 9 and 11 show a method of preventing the waste of power through the management server 2 by using the standby power outlet 40 according to the present invention. That is, in the case of the present invention, in the large APT complex, all the households are planning an optimal system for power saving that can be caused by using the standby power outlet 40 of the present invention. The standby power receptacle 40 provided in each home can have an individual code or address and can define the physical location thereof and can transmit the acquired information to the management server 2 through a wireless or wired communication method. The above-described standby power outlet 40 newly measures the standby power generated in a plurality of housed appliances according to the usage method and intention of the user every day. The measured data or information is transmitted to the gateway 3 through the built-in communication module 48 and then transmitted from the gateway 3 to the management server 2.

In fact, various embodiments of the communication module 48 in the present invention are not specifically limited, as will be described in the operating method. It is possible to use a WiFi network that is already popular in the home, or use separate power line communication. In order to use the WiFi network for information exchange with the gateway 3, a communication chip such as a wireless LAN card is required, and the gateway 3 becomes a repeater. On the other hand, when NFC communication is applied, an NFC chip must be embedded, and a separate communication module is required for smart beam communication. In the present invention, the information read by the standby power outlet 40 is transmitted to the management server 2 through the gateway 3, The transferred information is calculated as useful information by the management server 2 and is transmitted to the user again.

The information that can be expected in the present invention will be the power savings already incurred due to each user using this standby power outlet 40 and the expected power savings to be generated in the future. Then, information and data for power saving can be transmitted. For example, the management server 2 will be a power saving scheme distributed by KEPCO, an advertisement of a power saving appliance, and the like. Of course, such advertisements and information are transmitted to an app program 20, which will be described later, through a user's mobile phone (= smartphone) 6.

According to the present invention, it is preferable that the digital power meter 30 for checking the power is accommodated in the gateway 3 so as to be simplified. This is a method for facilitating the operator of the management server 2, and it is preferable that the digital power meter 30 is installed inside the gateway 3 in utilizing the present invention. The digital power meter 30 is a device for automatically measuring the current used in each household. It is convenient and easy for an operator of the management server 2 to provide the digital power meter 30 together with the gateway 3, As shown in Fig.

The operation method for preventing the waste of standby power of the present invention will be described in more detail.

In a first aspect of the present invention, there is provided a method for blocking waste of standby power, the method comprising: a first step; A step S10 of measuring the current flowing through the standby power outlet 46 of the standby power outlet (= multi-tap) 40 inserted into the wall power outlet 14 and the constant power outlet 43 is performed.

As shown in Fig. 14, the present invention starts by turning on the power of the standby power outlet 40. [ The power of the standby power outlet 40 may vary depending on the user's usage habits or the user's intention, and is started at the moment of turning on the household appliances that can generate standby power after taking a sleep. The standby power refers to a current flowing in a state where the home appliance is awake so as to receive the control signal of the remote controller as described above. In order to receive the control signal of the remote controller, all the power of the standby power supply electric appliance 13 should not be turned off. When all the power supplies are turned OFF, the control signal transmitted from the remote controller can not operate the standby power supply electric appliance (13). Therefore, in order to turn on the standby power supply 13, the power of the standby power outlet 40 must be turned on first when the standby power supply 13 is completely turned off at the time of sleeping.

The manner in which the standby power outlet 40 is powered on is accomplished by manual operation as described above. There is a method of clicking the click switch 122 and a method of activating the external shorting switch 125. In the case of the external shorting switch 125, the housing body 123 of the standby power outlet 40 is configured such that the user's finger It is advantageous when it is fixed in position.

When the power of the standby power outlet 40 is turned on, the current flowing through the standby power outlet 43 and the standby power outlet 46 of the standby power outlet 40 is measured at that moment. Is measured through the current sensors 1 and 2 (41 and 44), and in particular, the current flowing in the standby power outlet 46 is taken as the initial value of the standby power. Only the current that can receive the control signal of the remote controller flows in the state that the standby power supply electric appliance 13 is not turned on. At this time, the standby power supply unit 13 inserted into the standby power supply outlet 46 may be one or more. If a large number of standby power supply appliances 13 are fitted, a larger amount of standby power will be consumed.

Next, the present invention relates to a method of manufacturing a semiconductor device, When the current is supplied to the standby power outlet (= multi-step) 40, especially the initial current flowing in the standby power outlet 46 is measured to measure the initial value and the initial value is confirmed as the reference value (S20 ) .

That is, the current flowing in the constant power outlet 12 of the standby power outlet 46 is read through the separate current sensors 1, 2, 41 and 44, and the read value is transmitted to the CPU 47 do. After a certain period of time, the read initial value is confirmed as a reference value. The power connection of one standby power outlet 40 confirms the initial value and the reference value at that time. This is because the user can use the standby power supply appliance 13 in different combinations every day, while using the standby power outlet 40 of the present invention. One day, you can use the TV and audio components among the household appliances that require the remote controller, and some days you can use the TV and the air conditioner. Although the standby power generated by the TV is the same, there is no difference in the standby power. However, in the case of the audio component and the air conditioner, the standby power is different from the designed standby power in amount or size. The initial value and the reference value can be changed every day when the use is made according to the standby power supply appliance 13 whose usage is changed in this way.

The present invention resets the reference values of the standby power outlet 46 caused by daily use or the usage habits of the user's home appliance and the standby power outlet 46, do.

The key invention in the following is, the third step; A step (S30) of confirming whether the operation of the standby power supply appliance (= home electric appliance) 13 inserted into the standby power outlet 46 is started and continued is measured through measurement of the current . The user will then use the standby power supply 13. Turn on the TV to watch TV or turn on the audio component to listen to music. When the weather gets hot, you can turn on the air conditioner, which can be turned on by one or more appliances depending on the user's intention.

Such use changes the amount of current flowing in the standby power outlet (46). That is, the use of load, air conditioner, TV, and audio components, changes the amount of current. If this operation is maintained, the operation of the standby power outlet 46 must be maintained, so that the measurement of standby power is unnecessary. However, since the current sensor (2) 44 of the present invention always measures the flowing current, it always checks the amount of current used in the current household appliance.

Next, the present invention relates to a method of manufacturing a semiconductor device, When the current flowing in the standby power outlet 46 becomes 15 A or more, the current sensor 2 and 44 sense this and activate the standby interruption switch 45 in accordance with the control signal of the CPU 47, 46 from being energized (S50); Even when the current measured by the current sensors 2 and 44 becomes "measured value? Reference value" in comparison with the reference value, the standby interruption switch 45 automatically interrupts the energization of the standby power outlet 40 (step S60) It goes through.

The current sensor 2 and 44 measure the flow of the current even when the operation of the standby power supply 13 starts. When the current sensor 2 or 44 reaches about 15A or more, . In fact, if a current greater than 15 A is energized in a power outlet, there is a high risk of fire. This is a common problem even in a home using a general multi-tap that does not use the standby power outlet 40. It is the proper habits of power consumption to use only one power outlet with current of 15A or less. Therefore, the standby power outlet 46 of the standby power outlet 40 of the present invention allows only current energization of 15 A or less. If a current of 15 A or more is energized, the CPU 47 reads the current and activates the standby cutoff switch 45. The standby shutdown switch 45 interrupts all the current flowing into the standby power outlet 46 so that substantially all of the standby power supply home 13 stops operating. The standby power outlet (46) of the standby power outlet (40) is also disabled and no further energization is permitted.

Substantially the stand-by power outlet (46) of the standby power outlet (40) and the regular power outlet (43) are operated separately. The current is read through the separate current sensors 2, 1, 44, and 41, and the current is turned on and off through the atmospheric cut-off switch 45 and the earth leakage cutoff switch 42, respectively. Particularly, at this stage, only the operation of the standby power outlet 46 is explained. The current information of 15A or more, which is read by the current sensors 2 and 44, is transmitted to the CPU 47, And generates a control signal. This control signal cuts off the standby cut-off switch 45, and this operation is the electric leakage cut-off function of the standby power outlet 40 of the present invention.

The standby power outlet (40) of the present invention has a larger weight function than the electric leakage blocking function, which is a waste power blocking function of standby power. The standby power outlet 40 of the invention of the present invention cuts off the power even when it is the "measured value? Reference value" of the current flowing in the standby power outlet 46. [ The standby power outlet (40) of the present invention prevents the standby power from being wasted and discarded. If the standby power supply electric appliance 13 is in use after the user activates the standby electric power outlet 40, the power supply must be turned off. That is, all the standby power supply electric appliances 13 inserted in the standby power outlet 40 are all stopped, and only standby power flows when the user is about to sleep. In the morning, when the standby power outlet 46 is used, the reference value of the standby power is already obtained through the initial value. Therefore, when all the standby power home appliances 13 are turned off, the reference current value of the standby current flows through the standby power outlet 46. The "reference value" current of the first measured standby power flows. This is measured by the current sensor (2) 44 of the present invention, and the CPU 47 reads this, and then generates a control signal through the CPU 47. [

The control signal generated by the CPU 47 turns off the standby shutoff switch 45 to prevent the power supply from flowing. That is, when all the standby power supply appliances 13 are turned off, when the user no longer abandons the use of the standby power supply appliances 13, a standby current flows in the standby power outlet 46, The CPU 47 activates the standby cutoff switch 45 to completely prevent current from flowing.

The key to the invention is then, in the fifth step; When the user intends to operate the standby power supply appliance (= household appliance) 13 inserted into the standby power outlet 46, the current interruption switch 45 is turned ON to the standby interruption switch 45 of the standby power outlet (= multi-step) (S70) using the standby power outlet (46) . That is, after the above-described step 4, the user may need to use the standby power supply unit 13 again. This may be one hour after the standby power outlet 46 is turned off, or may be 10 hours. This time is not important. The standby power outlet 40 of the present invention is not important for measuring the current flowing from the inside through the current sensors 2 and 44 at all times and determining the initial value and the reference value of the standby power by using the measured values. Therefore, when the user activates the standby power outlet 40 at a time intended for re-use, the first process is repeated. That is, after the initial value is measured again and the reference value is determined, the first operation is performed after the first step, and the same operation is repeated to prevent the standby power from being wasted.

Meanwhile, as described above, the present invention also has a standby power outlet (46) as well as a regular power outlet (43) inside a single standby power outlet (40). The ordinary power outlet 43 is equipped with general household appliances which are not operated by the remote controller. Therefore, there is not much need to worry about standby power. Therefore, the normal power outlet (43) does not have the function of preventing waste of power. Only the short circuit protection function is given. The present invention is characterized in that when the current sensed by the inner current sensors 1 and 41 of the always-on power outlet 43 is above 15A during each of the above steps, under the control of the CPU 47, It is preferable to turn off the current flowing through the power outlet 43 at all times. In any single outlet, it is dangerous if more than 15A current flows. This is because of the risk of fire.

In order to solve this problem, the present invention has a separate current sensor (1) (41) for measuring the current flowing in the always-on power outlet (43). Which has the same or similar configuration as the current sensor 2 (44) described above. Therefore, when the current flowing inside the always-on power outlet 43 becomes about 15A or more, the current sensor 1 and 41 measure it and the CPU 47 reads it. The CPU 47 generates a separate control signal through this information, and this control signal interrupts the electric leakage cut-off switch 42 to cut off the electric current further. It is to prevent the possibility of fire.

This explains a more detailed operating method of the present invention. As shown in Figs. 9 and 11, the present invention connects standby power outlet 40 with communication module 48 of gateway 40 and standby power outlet 40, And information to the management server 2, and the management server 2 pushes the saving information for reducing the power consumption; The application program 20 embedded in the user's cellular phone 6 can acquire the power saving amount and the power saving expected value through the standby power related data transmitted from the standby power outlet 40 through the communication module 48. [

As described in the above-described system, the standby power outlet 40 of the present invention is connected to a separate management server 2 that manages the standby power outlet 40, so that more power savings can be achieved in a certain area. That is, the communication module 48 embedded in the standby power outlet 40 transfers the data to the management server 2 through the gateway 3. The information transmitted by the standby power outlet 40 is the standby power saving value of each household, the standby power saving expected amount, and the like. This information can be re-produced by the management server 2 and used as more useful information. For example, the savings and expected power savings of this invention are savings in the APT complex, including power savings in one household. As an example of a certain area, all households within a certain area of the APT complex can be targeted, as in the "Method of Revenue of Apartment Management Using Digital Power Meter Reading" of Patent Application No. 10-2014-0041950, have. That is, the stand-by power outlet 40 of the present invention is installed in the configuration of the above-mentioned prior art, and the savings are measured while measuring the power, thereby improving the saving efficiency.

Another patent related thereto is described in detail in "Digital Power Meter Reading Unit and Power Meter Reading Method Using Such Power Meter Improving Power Saving Efficiency" In any case, the present invention installs the communication module 48 inside the standby power outlet 40 for this purpose. In addition, the present invention can recognize the contents of the power saving and the related items by using the standby power outlet 40 and the user's cellular phone 6. The user's mobile phone 6 is actually provided with an app program 20. The application program 20 installed in the user's mobile phone 6 is provided with a data reception request means 21-1 for saving standby power through at least the communication module 48, Data calculation means 21-2 for calculating the data, and data expression means 21-3 for displaying the calculated data in the form of data and information that can be recognized by the user.

When the user communicates with the communication module 48 of the standby power outlet 40 by using the app, the standby power outlet 40 stores the standby power reference value at that time, the time when the standby power outlet is turned on or off, A power saving estimate, and a power saving value. This information is calculated in the application program 20 and can be converted into more necessary information. The process is as follows. Since the data reception request means 21-1 is laid on the application program 20, it can request the reception. In the foregoing description, the applicant of the present invention has expressed the term Sudan. This is because it can include a kind of material concept associated with the user's smartphone. In the prior domestic application, the algorithm is expressed as a process according to the program, but in the domestic priority application, the term "means" is used. This is so that the means include materials that have physical areas associated with a particular smartphone, including those that do not have a particular physical area, such as a program that spawns a process. That is, the object of the present invention can be easily performed through a physical device or mechanism mounted on a cover or a protective case of a smart phone.

 The user clicks a click button on the touch screen of the smartphone to request the standby power outlet 40 to transmit the measured information. After this process, the CPU 47 of the standby power outlet 40 delivers the information through the communication module 48 thereof. The communication module 48 may take various forms. That is, the communication module 48 may include one or a plurality of communication modules 48 selected from an RF communication module, a Bluetooth communication module, a power line communication module, a mobile communication module, an NFC communication module, a WiFi communication module and a smart beam communication module Can be embedded.

The smart phone has a communication network that can use a WiFi network as well as a mobile communication network. In addition, it is possible to perform close range communication using the built-in NFC chip. Such a communication method can be accommodated in all of these inventions. For example, in the case of smart beam communication and NFC chip communication, which can transmit various information by using a smartphone, a control signal of information transmission is transmitted to the standby power outlet 40 by using the app program 20 of the smart phone . The CPU 47, which has received the control signal, transmits the collected standby power reference value, the standby power saving value, and the expected value through the communication module 48. Consequently, it is desirable that the communication module 48 can be variously executed according to the situation. Such a communication method has already been variously disclosed and is well known, so a detailed description thereof will be omitted.

In the case of smart beam communication, WiFi network is used, and therefore, a chip for utilizing the WiFi network is used in the home. NFC chips are similar, and Bluetooth is similar. Anyway, the present invention uniquely utilizes a user's smartphone and obtains standby power values, savings and predictions via the apps program 20 stored in the smartphone, It is important. The communication method is not important. There are a plurality of bidirectional and one-way communications already known in the network configuration according to the communication scheme, and this invention can only adopt this communication method if necessary.

If the data is requested through the app program 20 as described above, the requested data is transferred to the mobile phone 6 via the communication module 48 under the control of the CPU 47. [ The delivered data is sorted, aggregated, and computed through various algorithms on the apps program 20. For example, the information that the user of the present invention intends to obtain most through the standby power outlet 40 is a savings value and a power saving prediction so far. That is, the user wants to check how much the savings are made at a certain point in time by using the standby power outlet 40 of the present invention. Of course, once a month's use of electricity is over, you can check through the usage fee notice, but you want to get this easy information at this point.

At this point in time, when the standby time reference value, time, etc. are obtained by operating the application program 20, the application program 20 computes the standby power reference value and time to display the expected savings. If the time to data request and the remaining time are computed so that the actual reduction is made in this trend, the expected savings will be calculated. When the operation is performed, the cellular phone of the present invention enables the user to visually recognize the calculated data through the data display means 21-3 for displaying information that can be recognized by the user and data.

2. New additions to the domestic priority application already filed

The above description has been made on the method of operating the standby power outlet of the present invention to prevent waste of standby power. However, the following is an application filed claiming domestic priority, and the following is added. That is, although the domestic preferred application of the present invention claims only an embodiment in which two outlet grooves K are formed in the standby power outlet 40 as shown in FIG. 3A, The technique has been supplemented and expanded with a multi-plug outlet having three outlet grooves K as shown in Fig. 3 (b). The added third receptacle groove K refers to an arbitrary power receptacle 242 and is an outlet capable of completing a short circuit by the intention of the user. It is an outlet groove (K) for home appliances that requires confirmation of a power short-circuit when using, due to the carelessness at home. This embodiment has been added. In addition, "remote control method using multi-tap outlet and app program" is added as another method utilizing this embodiment.

Before describing the contents of the domestic priority application, the present invention will be described in detail with reference to FIGS. 7 and 8. FIG. 7 shows a consideration of the contents of the prior domestic application. In FIG. 8, which is shown in FIG. 8, the content of the application for claiming domestic priority claim, that is, added to the original application, is added.

In the case of Fig. 7 shown in the figure, an appliance is used by putting a standby power outlet 40 in a wall power outlet 14. The normal power outlet 12 is used because the normal power outlet 43 of the standby power outlet 40 is fitted with another ordinary multi-step 40B. That is, in the drawing, the gateway 3 is inserted into the power supply unit 12 at all times. The gateway 3 is not a short-circuited appliance, but is always divided into appliances that must be powered on. On the other hand, another ordinary multi-tap 40B is inserted into the standby power outlet 46 so that a plurality of appliances can be used. Examples of standby power supply appliances 13 used in the drawings are TVs, set-top boxes, speakers, and the like. In the case of a set-top box and a TV, the power is always kept ON to receive the control command of the remote controller. As a result, a large amount of standby power is wasted and it is necessary to turn off the power automatically when it is not used like this invention.

In the standby power outlet 40 of the present invention, one of the two outlet recesses K is an always-on power outlet 43, and the normal multi-tap 40B can be inserted into the always- A plurality of devices can be simultaneously used as the power supply unit 12 at all times.

On the other hand, a separate general multi-step module 40B can be extended to the standby power outlet 46 at the lower end, and a plurality of standby power supply appliances 13 can be used. In the case of home appliances that require operation of the remote controller, it is desirable to prevent the waste of standby power by automatically interrupting the power supply at a time required by being inserted into the standby power outlet 46. [

However, practically waste of standby power is not the only alternative to prevent the waste of power. Human beings need to keep a real life, and to prevent the waste of power that is discarded randomly through their carelessness . Particularly, in the case of a boiler, there is a case where the boiler is turned on with the boiler turned on, thereby causing a huge gas cost and waste of electric power until the returning home. Figure 8 shows this embodiment. The standby power outlet 40 is inserted into the wall power outlet 14 of the present invention (as shown in FIG. 3 (b)) and a separate general multi-step 40B. Then, the gateway 3, which is an always-on power supply appliance 12, is mounted and used. Also, a separate general multi-tap 40B is extended to the standby power socket 40, which is the second socket, and the standby power supply socket 13 such as a TV, a speaker, and a set-top box is inserted. This is the same as the embodiment of Fig. 7 described above. The embodiment of FIG. 8 may be provided with a separate optional power outlet 242 in the lowermost third section of the standby power outlet 40 so that the optional power supply 243 may be energized. The power supply outlet 242 is connected to only the power source of the gas boiler (optional power supply appliance) 243 without the conventional multi-tap 40B, A plurality of optional power supply appliances 243 can be used. The arbitrary power supply appliance 243 named in the present invention refers to a household appliance that can generate enormous electric power costs or other incidental expenses when the user is careless. A simple example is a household appliance that should be used only when the user is in the home, and may cause the power to turn on due to habits, habits and carelessness when going out. Considering your own lifestyle, if you select ON and OFF control by yourself, you can get big profit.

That is, as shown in FIG. 8, in the present invention, when the gas boiler (optional power appliance) 243 resides in the house without any inconvenience and goes out, it leads to going out without thinking or worry that the boiler is turned on, I had to turn on the power by that time. If the gas boiler (optional power supply) 243 is kept ON in a home without anybody, it is not only a waste of electric power, but more importantly, the gas cost is wasted and the burden on the user doubles. Also, in the case of the electric plate (optional power supply; 243), if the user turns on the power at the time of sleeping and goes out without checking it at the time of going out, a waste of electric power can not be avoided until the returning time do. However, in the case of electric plates, it is not a household appliance that is turned ON or OFF by the remote controller's operation. Even if it has remote control function, it is a household appliance that can not enjoy any profit at the time of going out. In order to prevent waste of electric power that may be generated through carelessness, in the case of the present invention, an optional power outlet 243 is added when forming the standby power outlet 40. So that the user can conveniently turn ON / OFF the arbitrary electric household appliances 243 (for example, the gas boiler, electric appliances, etc.) through the app program 20 of the smartphone 6 in a state in which the user is away from the remote place . This is explained in more detail below.

end. Matters concerning the standby power outlet 40 made up of three outlet grooves K

3 (b) of the present invention shows a standby power outlet 40 formed of three consecutive grooves K, which is a new embodiment of the present invention only. That is, the outlet groove K made up of the two parts already described in the foregoing description; (3) 240 is formed in the third receptacle groove (K) to be connected to the receptacle groove (K), and the third receptacle groove (K) Through the control of the far remote controller function A1, the near remote controller function A2 and the direct distance remote controller function A3 while performing the electric leakage blocking function so that the current is blocked through the arbitrary cutoff switch 241 of the remote controller Lt; RTI ID = 0.0 > 242 < / RTI >

The intention of expanding this embodiment is purely to prevent waste of power. The Applicant of the present invention, while doing many inventions related to electric power, and producing the standby power outlet 40 and applying it to real life, is that high current and huge capital are generated for production, but a large amount is useless It is abandoned without. Actually, the amount of power used in each household is inevitable, but there is also unnecessary power waste used for operation such as standby power, and there is a lot of power waste due to carelessness by the user. That is, waste of electric power is generated when going out with the electric plate turned on or going out with the boiler turned on, but the user is a resource that is practically wasted because he can not see the power according to the electric power. The waste of electric power due to the carelessness of the user due to the environment and the environment increases considerably depending on the person. In order to solve this problem, the third outlet groove K is used as the optional power outlet 243.

The embodiment of FIG. 3 (b) also has the current sensors 1, 2, 41 and 44 as shown in FIG. One is the current sensor 1 (41) for the always-on power outlet 43 and the other is the current sensor 2 (44) for the standby power outlet 46. If the amount of current generated in the standby power outlet 46 becomes a predetermined amount of current 15A intended by the user, the current sensor 2 or 44 detects the current and transmits the current to the CPU 47. [ The CPU 47 reads the detection of the current sensor 2 (44). The read information is issued as a control signal, and the CPU 47 operates the shutoff switch 45 to short-circuit it.

When the measured value of the current sensor 2 becomes "measured value? Reference value", the standby switch is automatically short-circuited. Fig. 15A is a short circuit of the electric leakage-isolating switch 42 functioning in the current sensor 1. Fig. As a result, this embodiment has all the configurations of the above-described two standby power outlet 40 (shown in FIG. 3 (a)).

In Fig. 10 and Fig. 12, which are merely shown, a block complementary portion BK is further supplemented by a dotted line. The detailed components of this supplementary part BK are the current sensor 3 (240), the random disconnect switch 241, and the optional power outlet 242 as shown. When the amount of the current generated in the optional power outlet 242 becomes a predetermined amount of the user's intention, more precisely when the excessive current flows, the current sensor 3 240 detects it and transmits it to the CPU 47 . The CPU 47 reads the detection of the current sensor 3 (240). The read information is issued as a control signal, and the CPU 47 operates the arbitrary cutoff switch 241. The current is cut off. In this case, the current of 15A is considered as an excessive current, but this is not an exact amount. It is optional for the user. It may be somewhat higher or lower. This is because some types of household appliances may not be used for the optional power outlet 242.

More importantly, the optional power outlet 242 of the present invention can be used to control the current through control of remote remote controller function A1, short range remote controller function A2 and direct distance remote controller function A3 do. That is, as described above, the reason why the optional power outlet 242 is supplemented to the stand-by power outlet 40 of the present invention and evolved into the three-shape is the interruption of power waste. It would be a great benefit if the waste of current that could be generated through carelessness could be blocked by using a small multi-tap outlet.

While continuing to act by blocking the local of the present invention first standby power to the technique of the application to prevent a waste of power, due to the embodiment of application information has not OFF the gas-fired or electric blanket when out by the user's careless any power electronics (243) can be turned off at a long distance. This function is further expanded so that the standby power outlet 40 of the present invention is connected to the standby power supply home appliance 13, the optional power supply appliance 243, and other remote power supply appliances in the home together with the application program 20 of the user's smartphone 6. [ So that the remote control appliances 311 using the controller can be controlled by the smartphone 6. All operations and functions are designed to prevent and prevent wasted power.

The remote remote controller function A1 generated by the optional power outlet 242 of the present invention can not turn off the gas boiler or the electric plate inserted in any power outlet 242 when the user goes out, The current sensor 3 240 of the optional power outlet 242 is shut off after confirming that the current is supplied to and used by the optional power outlet 242 through the app program 20 of the phone 6 It prevents wasting of power.

That is, in the case of the present invention, the stand-by power outlet 40 equipped with the arbitrary power outlet 242 and the optional power outlet 242 is connected to the mobile communication network 202 from the outside, So that the standby power outlet 40 can be short-circuited.

Next, the present invention also performs the near-field remote controller function A2, which is capable of communicating directly with the standby power outlet 40 to the home of (A) in the one household equipped with the standby power outlet 40 The standby power outlet 40 can be short-circuited by using the gateway network 201 of the gateway 3.

Next, the present invention also carries out a direct distance remote controller function (A3), which uses only household appliances equipped with a remote controller in a household appliance already produced by an electronics company. TV, home theater, compact player, etc. For the convenience of home appliances already use a device equipped with a remote controller. Such a device generally uses infrared communication mainly to achieve a short circuit of the power automatically through the remote controller in a state where the device recognition (= device compatibility) is matched. However, the present invention can exert the same function through the smartphone application program of the user.

Comprehensively, I re-examine this invention. In the remote control appliance for performing the direct distance remote controller function (A1) according to the present invention, standby power always flows in order to receive the operation of the remote controller. However, the standby power outlet 40 of the present invention is designed to automatically short-circuit the standby power outlet 46 through the function of the standby power cutoff when the user is not using the power within one household as described above However, when the power can not be cut off due to carelessness , the user is prevented from wasting power by being short-circuited freely through the smartphone 6 application program 20 at a long distance, a short distance, and a direct distance. The direct distance described in the present invention refers to a distance that can be communicated through infrared communication or Bluetooth communication, in which the function of a remote controller previously installed in each home appliance can be exerted.

Hereinafter, the functions of the remote controller of the present invention will be described in more detail.

The function of the present invention, which can be used by using the standby power outlet 40 of the present invention and the smartphone application program 20 of the user, includes a remote remote controller function A1, a short range remote controller function A2, And direct distance remote controller function (A3). Therefore, these functions are explained in detail in order.

The remote remote controller function A1 of the present invention can be realized by clicking on a button in the app program 20 of the smartphone 6 at a remote location to allow the management server 2 to communicate with the home via the mobile communication network 202 A control signal is transmitted to the gateway 3 and a control signal is transmitted to the communication module 48 of the standby power outlet 40 through the communication module 2 304 of the gateway 3, So that the atmospheric interruption switch 45 or the arbitrary interruption switch 241 can be short-circuited under the control of the control unit.

17, the remote remote controller function A1 refers to a function of using the mobile communication network 202 and being managed by the management server 2 to short-circuit the standby power outlet 40. [ Of course, in the case of the present invention, it is possible through a program B2 for a separate remote control formed inside the management server 2 to be described later. That is, it must be linked to the program in the gateway 3. The Applicant of the present invention has already filed the application of the present invention to the Patent Application No. 10-2014-0092178 entitled "Multiple Smart Grid Unit for Energy Saving and Its Operation Method" It is possible to measure the amount of electric power to be consumed through a long distance while using the digital electric power meter 30 to save air through the server 2 and also to short-circuit the appliance at a long distance through the function of the remote controller . It is a system and a system to prevent waste of electric power and to operate electric power efficiently.

10 and 12, the user of this invention mounts one standby power outlet 40 in each household (A) in each household, and the standby power household appliance 13, the regular power household appliance 12, It is possible to use the optional power supply appliance 243 and connect the power supply appliance 243 to the power supply outlet 242. When the power supply appliance 243 goes out to the outside, ), Or whether the electric plate is turned off. At this time, in order to prevent waste of electric power, I always have an uneasy feeling, and after returning home, I have to return home without confirming or seeing work. At this time, the present invention can completely solve such troubles by using the user's application program 20. [

The user who installed the standby power outlet 40 of the present invention uses the app program 20 together with the standby power outlet 40 on his or her own smartphone 6. If the user goes out, The application program 20 is looked at, as shown in Fig. 17 (a). At this time, the present invention allows the management server 2 to transmit the information of the standby power outlet 40 in the home when the management server 2 of the conventional application as described above manages it. When the gas boiler is turned on in any power outlet 242 of the standby power outlet 40 in the home, this optional power outlet 242 is in the energized state. This situation is read through the current sensor 3 (240) of the standby power outlet 40. After the CPU 47 recognizes this information and data, the information and data are transmitted to the gateway 3 installed in the A- . The gateway 3 transfers this information to the management server 2 through its own communication module (2) 304, as shown in Fig. 20 (b). In this process, the communication company server 200 is used as shown in FIG.

In the present invention, the gateway 3 installed in each home is equipped with various communication means. Practically, in the case of the smartphone 6 in recent years, as shown in FIG. 20 (b), a large number of communication modules (3) and (310) are used in the inside thereof. Bluetooth communication means, NFC communication means, WiFi communication means as well as smart beam communication means are provided as well as the communication module (3) 310 for mobile communication. They are collectively referred to as the communication module 3 (310). As described above, in recent years, in order to dramatically improve the smart phone 6, various communication modules are often installed inside the server. In addition, a separate set-top box is formed for use of a conventional digital TV or a smart TV in the home, and the set-top box forms a WiFi network as well as communication to transmit data in the home, and the video is reproduced . The present invention has evolved to such a trend, and is a device which can utilize all communication methods and uses a gateway 3 for each home. 16, the conventional gateway 3 not only accomplishes the basic function (1) inter-network communication speed control, the traffic control, and the address-to-address conversion, but also stores various operating programs 303 in a separate storage device 302 Through this program, various communication and data control can be achieved (see Fig. 20).

In the present invention, the functions of the gateway 3 are utilized to add other functions according to the present invention. In FIG. 16, which is shown in FIG. 16, the main function is represented. (2) Each device is managed through its own program and communication means. That is, in the present invention, the stand-by power outlet 40 is controlled for the function of the remote controller for the power management with a plurality of communication modules (2) 304 therein. It also manages and controls the information and data related to the digital power meter 30 of the prior application which has already been filed and waits for examination as an enlarging function of (4). The digital power meter 30 also corresponds to a device that the internal process of the inventive gateway 3 must manage. Another main function of the gateway 3 of the present invention is to collect and manage information related to (3) the standby power outlet 40 and to transmit control signals of the smartphone application program 20 (shown in FIG. 16) . There is also provided an operating program 303 for managing this, as well as a storage space for storing the operating program 303 (see FIG. 20).

Returning to this, we will again describe the data and control signal delivery method for short-circuiting the boiler at a remote location. First, when the user searches for household appliances whose current is conducted in the house through his / her app program 20, the user's app program 20 is transmitted to the standby power outlet 40, the gateway 3, the mobile communication network 202 And transmits the data to the user's smartphone 6 through the mobile communication network 202 managed by the communication company server 200. [ Thereafter, since the user is out of the waiting state, the standby power outlet 40 selects the standby power outlet 46 or the optional power outlet 242 to which the current is supplied and issues a control signal to command the power to be disconnected. That is, the control signal of the smartphone 6 application program 20 of the user is transmitted through the mobile communication network 202 to the mobile communication network 202 managed by the communication company server 200, the management server 2 using the mobile communication network 202 The gateway 3, and the standby power outlet 40, as shown in Fig. The signal transmitted to the standby power outlet 40 accurately selects the standby shutoff switch 45 or the arbitrary shutoff switch 241 under the control of the CPU 47 and turns off the power according to the user's control signal. Since the above embodiment limits the short-circuiting of the boiler at a long distance, it is practically short-circuiting the arbitrary shut-off switch. Of course, another normal power outlet 43 provided in the standby power outlet 40 of the present invention can also complete the short circuit. However, for the purpose of using the standby power outlet 40, Be careful that the appliance is in a state of being fitted to achieve the command. As a result, the remote remote controller function (A1) of the present invention makes it possible to control ON / OFF of the household appliances even when the power is turned on and off when leaving the home of (A) in one household. Therefore, it is possible to more accurately manage the appliance housed in the optional power outlet 242. However, the standby power outlet 46 and the regular power outlet 43, which are receptacles in the same standby power outlet 40, can also be short-circuited at a long distance according to the user's need, .

Further, the present invention is equipped with the near remote controller function (A2) as shown in Fig. 17 (b). This is achieved by clicking the button in the app program 20 of the smartphone 6 at a short distance and by the communication module 2 304 of the gateway 3 to the gateway 3 under the control of the CPU 2 A control signal is transmitted to the communication module 48 of the standby power outlet 40 in accordance with the process of the operation program 303 and the standby interruption switch 45 or the arbitrary interruption switch 241 To be short-circuited.

The short distance classified in the present invention refers to a distance using the communication network of the gateway 3 installed in each home, that is, the gateway network 202, rather than the mobile communication network 202 (see Fig. 15). The gateway 3 includes a plurality of communication modules 2 and 304 such as a small server and a separate operation program 303 for operating the gateway 3 includes a separate storage device 302 as shown in FIG. . Therefore, if the user is located in the gateway network 201, the standby power outlet 40 and the digital power meter 30 of the present invention can be used to short-circuit the home appliances and save power.

Describing this function using one example, when a user wishes to short-circuit the TV inserted in the stand-by power outlet 46 of the standby power outlet 40, the user can set the operation mode of the remote controller It is possible to find the remote controller provided by the home appliance in correspondence with the remote control appliance 311 having the home appliance. If the remote controller can not be located, the user can click on the operating app program 20 of the present invention with the smartphone 6 that is always heard in the user's hand, and then the standby power outlet 46 can be turned off . If the user wants to turn on the power supply again, the standby power outlet 46 is turned on on the operating application program 20 and power is supplied to the standby power supply 13, The power supply may be turned on or the smart phone 6 may be turned on using the direct distance remote controller function A3 described later of the present invention. When the corresponding button of the operating application program 20 of the smartphone 6 is clicked, the control signal is transmitted to the selected communication module 3 (310) of the smartphone 6 (2) 304 of the gateway 3 that expands the gateway network 202. The communication module 2 304 of the gateway 3 transfers the control signal to the standby power outlet 40. The CPU 47 of the standby power outlet 40 is connected to the standby power outlet 46, (43) and the standby power outlet (46) among the optional power outlet (242) to command the current interruption. Therefore, the user can freely control the standby power outlet 40 by using the smartphone 6 using the gateway network 201 without using the separate mobile communication network 202 at a short distance, And manage it.

Further, the present invention has the direct distance remote controller function (A3). The direct distance refers to the distance in the state of facing the household appliance. In other words, we are already using remote controllers in various ways. Most home appliances such as TVs and home theaters have remote controllers that match their home appliances and device compatibility (= device recognition). In general, they control ON / OFF of household appliances through infrared communication at the position where the remote controller faces home appliances. A remote controller using Bluetooth communication has already been developed. Therefore, the direct distance of the present invention is referred to as a distance in which the remote control appliances 311 which can control the ON / OFF of the conventional household appliances, that is, the remote control appliances 311, can freely be controlled.

In the case of a household appliance having such a direct distance, the present invention can use the app program 20 of the smartphone 6 to set the remote control appliance 311 that has achieved device recognition (= device compatibility) Communication through infrared communication or Bluetooth communication through a communication means so as to achieve a short circuit of the home appliance. In fact, a plurality of communication modules (3) and (310) are installed inside the smart phone (6). Therefore, if only the application program 20 is installed, it can be known that communication is possible by various communication methods. It is already a common practice that a plurality of appliances of different manufacturers can be controlled by installing an app of a remote controller in a smartphone 6 in the past. The app program 20 of the present invention efficiently manages power by using the smartphone 6 and effectively operates the standby power outlet 40 while adding the same or similar functions to the smartphone 6 as a separate remote controller, (6).

Another main configuration enabling the above-described respective functions to be performed is the gateway 3 of the present invention. And an operation program 303 embedded in the gateway 3. [ 20, the operating program 303 embedded in the gateway 3 is stored in the inside of the CPU 2 (301) or in a separate storage device (= storage space) 302 So as to manage and operate the short circuit between the digital power meter 30 and the standby power outlet 40 through the communication module 2 (304); Is a process for managing and controlling the information related to the standby power outlet (40) and the digital power meter (30) and its data.

A separate operation program 303 is laid out so that the present invention can be used more effectively and the functions of the gateway 3 and the management server 2, the gateway 3 and the digital power meter 30 ), The gateway 3, and the standby power outlet 40 to control the process. Although the relationship with the digital power meter 30 is already described in detail in the earlier application of the present invention, the power consumption and the expected value are read and used to prevent the power waste, and the relation with the standby power outlet 40 is the standby power It is possible to prevent wasting of standby power by using information or data transmitted from the outlet 40, and to prevent waste of power generated due to carelessness when necessary.

The standby power outlet 40 made of the three outlet receptacles K according to the present invention is provided with the outlet receptacle K for the optional power outlet 242 in the standby power outlet 40 according to claim 4 One to form three outlet grooves K; Off switch 241 can be turned on and off manually via the click switch 122 and the external short-circuiting switch 125, thereby preventing waste of standby power.

The standby power outlet (40) of the present invention draws out the line to the outside and attaches an external short-circuit switch (125) at the end of the line. In the domestic preferred application of the present invention, it has been claimed that only the standby power outlet 46 can be short-circuited by using the external short-circuit switch 125. However, since this function is expanded so that a separate optional power outlet 242 is also provided in the third outlet groove K, the standby power outlet 40 of the present invention is connected to the external shorting switch 125 or the housing body 123, The optional power outlet 242 as well as the standby power outlet 46 can be short-circuited through a short-circuit of the click switch 122 provided outside of the power outlet.

I. The present invention relates to a remote control method using a standby power outlet and a smartphone

In the previous section, I mainly explained its composition. Therefore, the remote control method of the present invention will be described in a method. The remote control method according to the present invention is characterized in that the smartphone 6 app program 20 is connected to the standby power outlet 40 mounted in each home through the communication module 3 310 inside the smart phone 6, , The digital power meter (30), and the separate power supply unit (12), the standby power supply unit (13), the optional power supply unit (243), and the remote control unit (311). The remote remote controller function A1 is connected to the communication module 202 of the standby power outlet 40 via the management server 2 and the gateway 3 connected to the mobile communication network 202 when the smart phone 6 is located at a remote location (48) and the CPU (47) to short-circuit the atmospheric interruption switch (45) and the arbitrary interruption switch (241); When the smartphone 6 is located inside a gateway communication network (= gateway network) 201, which is an internal network of each household A, the remote remote controller function A2 is connected to the gateway network 201, Using the communication module 48 and the CPU 47 of the receptacle 40 to short-circuit the standby shutoff switch 45 and the arbitrary shutoff switch 241; The direct distance remote controller function A3 is a function of the communication module 3 (310) of the smartphone 6 when the user faces each remote control appliance 311 having a separate communication means in each home So that it can be short-circuited by the remote control function of each appliance.

That is, in the present invention, the smartphone 6 application program 20 is connected to the standby power outlet 40, the digital power meter (not shown) installed in each home through the communication module 3 (310) The standby power supply 13, the optional power supply 243, and the remote control appliances 311 having a separate communication means (direct distance communication) 30 and a separate communication means (direct distance communication). Distance, direct distance remote control method through a smart phone and an application program 20 provided by the management server 2 operator of the present invention. The standby power outlet 12, the standby power outlet 13, and the optional power outlet 243 are inserted into the standby power outlet 40 and used. In the case of the remote control appliance 311, if it is fitted in the standby power outlet 46, it can be completely controlled through the remote, close range, direct distance remote controller functions (A1, A2, A3) If it is plugged into an external power source other than the set, ON / OFF control is possible through the direct distance remote controller function (A3). In fact, by using this invention, all home appliances in the home can be controlled to be ON and OFF only by the standby power outlet 40 and the app program 20 of the smartphone 6. [ It is possible to automatically shut off the standby power through the standby power outlet 46 to prevent waste of electric power and to minimize the waste of electric power by supplementing the inadvertent user's action through the optional power outlet 242 . When an excessive current is automatically supplied using the regular power outlet 43, the standby power outlet 46, and the optional power outlet 242, the leakage prevention function is utilized. In addition, the power saving can be achieved by the user in cooperation with the applicant of the present invention so that the power consumption can be acquired at a necessary time even when the power consumption is expected, and the power management can be completed efficiently .

Particularly, the present invention enables the home appliance (A) of each household to be turned on and off completely via the remote controller function, that is, the remote, near and direct distance remote controller functions (A1, A2, A3) It blocks waste. More specifically, when the user uses the home appliance through the remote remote controller function (A1), it is possible to compensate and correct the power consumption when the user is wasting power due to carelessness. It is possible to control the ON / OFF of any amount by short-circuiting any power outlet 242 in which a gas boiler is housed in the home by operating the app program 20 of the smartphone 6 at a long distance. Of course, it is possible to short-circuit the standby power outlet 46 by using the remote, but this does not correspond to a functional classification in which the user has initially classified the gas boiler as the standby power supply 13. However, this feature also makes it possible to supplement the careless actions that may occur. Such a problem is that the regular power outlet 43 can also be short-circuited at a long distance. If the user travels abroad for a certain period of time rather than going out, there may be a case where it is necessary to shut off the power supply 12 at all times. In this case, this function may be utilized.

In the case of a short distance, that is, when a user is located inside the gateway network 201 of the (A) household, the gateway network 201 alone may not use the separate mobile communication network 202, It is possible to control the short circuit of the optional power outlet 242. Of course, it is possible to short-circuit the always-on power outlet 43, but it will not be a function frequently used for the purpose of the always-on power supply 12.

Further, in the case of the present invention, the direct distance remote controller function (A3) may be performed. In this case, when each home appliance company makes home appliances, a household appliance including a remote controller, that is, an infrared communication module In the case of a home appliance equipped with a Bluetooth communication module (= Bluetooth communication means), it is possible to directly short-circuit the home appliance using the infrared communication module and the Bluetooth communication module built in the smartphone 6.

This remote control method is described in more detail below with its essential components.

The gateway 3 according to the remote remote controller function A1 according to the present invention is configured such that the user's control signal transmitted from the user's app program 20 is transmitted to the gateway 3 under the management of the management server 2 The signal or data transferred to the module 2 is transmitted to the module 2 through the standby interruption switch 40 of the standby power outlet 40 via the CPU 2 301 or the operation program 303 in the storage device 302 45 and the arbitrary cutoff switch 241 are short-circuited.

That is, as described above, a state in which a user who is not within (A) of one household goes far. In order to short-circuit the standby power outlet 46 but disconnect the optional power outlet 242 with a household appliance such as a gas boiler or an electric appliance, which may be inadvertently generated, The application program 20 of FIG. In this application program 20, not only the amount of electric power used in the standby power outlet 40 in the one household (A) but also the amount of current currently used in a power outlet can be confirmed in real time, . For example, if the user determines the short-circuit of any power outlet 242 in which the gas boiler is inserted, a control signal can be generated by clicking on a button or area on the associated touch screen.

This control signal passes through the mobile communication network 202 and is transmitted to the communication module 2 (304) of the gateway 3 under the control of the management server 2. The communication module 2 304 of the gateway 3 transmits the operation program 303 to the communication module 48 of the standby power outlet 40 under the control of the built-in CPU 2 (301) Lt; / RTI > process. Of course, this is a process associated with the control program 320 of the management server 2. Also, the communication method between the standby power outlet 40 and the gateway 3 can be variously configured as described above. Both of them will be in accordance with the processes of the operation program 303 and the control program 320 of the gateway 3 and the management server 2 since they have a plurality of communication means (= communication module).

The CPU 47 of the standby power outlet 40 shorts the arbitrary power outlet 242 in accordance with the transmitted control signal and accomplishes this purpose by turning on and off the shutoff switch 241. Thereafter, the user can confirm the result of such operation through the user's application program 20, and power supply of the gas boiler is also possible through transmission of the control signal in the reverse direction.

This remote remote controller function A1 can turn on and off the operation of the standby power outlet 46, the optional power outlet 242 and the always-on power outlet 43, as described above. In general, the function of the remote controller (A1) is complementary to that of the user because the user wants to divide the home appliance into the optional power supply appliance (243), the constant power supply appliance (12) and the standby power supply appliance It can be described as shorting any power outlet 242 in order to do so.

Next, the gateway 3 according to the short-range remote controller function A2 of the present invention is configured to form a separate gateway network 201 in the A household through the communication module 2 (304) and; The user's control signal transmitted from the application program 20 is transmitted to the communication module 2 304 of the gateway 3 through the gateway network 201 and the transmitted signal and data are transmitted to the CPU 2 And the operation interruption switch 45 and the arbitrary shutoff switch 241 are short-circuited via the operating program 303 in the storage device 302. [

An example of the short-range remote controller function A2 is to use the gateway network 201 as already explained to some extent (as shown in Fig. 15). This can be used even when the user is unable to turn on or off the standby power supply 13 or any power supply 243, that is, when the user walks to the standby power supply 13 and turns on and off the power. This can be used when it is difficult to find out where to put the remote controller of such standby power supply 13 or arbitrary power supply 243 or place it. The user simply uses the app program 20 of his / her smartphone 6 to issue a control signal by clicking a button or a certain area on the touch screen. The control signal is transmitted to the gateway 3 communication module 2 304 spreading out the gateway network 201 and the communication module 2 304 transfers the control signal to the standby power outlet 40. The processes of these operations all follow the process of the operating program 303 under the control of the CPU (2) 301 of the gateway 3. The operation program 303 of the present invention can be stored in the CPU 2 (301) or the separate storage device 302, but it is more preferable to have the separate storage device 302. The transmitted control signal turns on and off the standby power outlet 46 or the optional power outlet 242 in accordance with the user's intention in accordance with the control signal generated by the CPU 47 of the standby power outlet 40. [ The standby shutoff switch 45 and the arbitrary shutoff switch 241 can be short-circuited.

On the other hand, the smart phone 6 according to the direct distance remote controller function (A3)

The remote control unit 311, which can operate through a remote controller in each home, performs device recognition (= device compatible) by infrared communication or Bluetooth communication, so that it can be used as a remote controller.

This direct distance remote controller function A3 does not use the gateway network 201. [ The mobile communication network 202 is not used. The direct distance refers to the position at which the remote controller faces each appliance, that is, the distance over which the visibility can be ensured. Consumer appliances such as TV among existing household appliances are produced to be able to turn on and off through remote controller by using infrared communication or Bluetooth communication. Most household appliances already have a remote controller so that users can more conveniently operate home appliances in real life. In the case of these appliances, after achieving the device recognition (≒ device compatibility) that matches the remote controller and home appliances, we can easily control the home appliances' functions such as turning on / off the appliances, . This is because the communication module (= communication means) of the remote controller and the communication module of the home appliance can communicate with each other. Most of these appliances achieve communication using infrared communication, and a few may achieve Bluetooth communication.

Nowadays smart phones 6 have various communication modules (3) 310 inside small devices. It is equipped with a variety of communication modules such as mobile communication module, WiFi communication module, Bluetooth communication module, smart beam communication module, infrared communication module and NFC communication module. There are many. Therefore, the present invention separately performs the application program 20 capable of utilizing all of the communication modules (3) and (310). The application program 20 for power management can be divided into a remote controller. Accordingly, if the device recognition is matched through the app program 20 of the smartphone 6, the smartphone 6 can control each appliance as a remote controller. More precisely, it is possible to control only the remote control appliance 311.

The app program 20 embedded in the smartphone 6 according to the present invention may include a program B1 for power management for managing the digital power meter 30 and the standby power outlet 40, (B2); The program B1 for the remote control includes a remote mode C1 using the mobile communication network 202, a gateway mode C2 using the gateway network 201 and a home mode C3 using infrared rays or Bluetooth communication at a direct distance Control; It is possible to manage waste of electric power through easy power short of household appliances.

That is, as shown in FIGS. 19 and 22, the app program 20 of the present invention is preferably divided into a program B1 for power management and a program B2 for remote control. As described above, the program for power management in the application program 20 includes at least a data reception request means 21-1 according to standby power reduction through the communication module 48, And a data display means 21-3 for displaying the calculated data in the form of data and information that can be recognized by the user. Data mainly obtained from the digital power meter 30 and the standby power outlet 40 are processed through respective means. The reason for this is called "means" because most cases are programmatic sequences and algorithms, but there are hardware additions. Although the phrase collectively referred to as the process for obtaining the above-described data result is accurate, it is referred to as means in consideration of hardware configuration. It is also possible that the process group is not necessarily a means of physical goods, and more precisely, it is more desirable that the technological progress of the present era is completed through the program alone.

In the present invention, the program B2 for the remote control is included in the application program 20 for performing the remote controller function. As described above, the remote mode C1, the gateway mode C2, the consumer mode C3, Respectively.

The remote mode (C1) is a program for managing the communication mode using the mobile communication network (202) and through the management server (2). The application program 20 and the operating program 303 of the gateway 3 provided in each home are connected to the control program 320 of the management server 2 to be described later in accordance with the command of the user application program 20, Data is transmitted. Therefore, this remote mode C1 is a part of a process group of the application program 20 that performs a remote control function using the mobile communication network 202 at a remote location. It is even more desirable that it can be physically and visually distinguishable as a separate browser.

On the other hand, the gateway mode C2 is a program that the operating program 303 of the gateway 3 using the gateway network 201 can manage. The gateway operating program 303 provided in each home is a bilateral communication through the gateway network 201 rather than the mobile communication network 202 in connection with the application program 20. [ Therefore, the gateway mode C2 is a partial process group of the application program 20 that performs the remote control function using the gateway network 201 in the short distance. It is even more desirable that it can be physically and visually distinguishable as a separate browser.

Furthermore, the home appliance mode (C3) is a program formed by a management form only of the app program 20 using the already installed infrared communication or Bluetooth communication of each home appliance. The mobile communication network 202 in association with the remote control appliances 311 installed in each home and the app program 20 of the user smartphone 6. This is a bilateral communication that achieves device recognition using an infrared or Bluetooth communication network, not the gateway network 201. Therefore, the home appliance mode C3 is a group of processes of the application program 20 that performs the remote control function using the infrared rays and the Bluetooth network at the direct distance. It is more preferable that it can be physically and visually distinguishable as a browser.

A method of blocking the waste of standby power by using the standby power outlet 40 and the smartphone 6 through the above description; A method of supplementing and supplementing the waste of power generated by the user's carelessness; And a method of performing a remote control ring function in conjunction with the application program 20 to substantially prevent waste of electric power. However, it is desirable to understand that the present invention is a management system and a system that revolves into a Smart Grid strategy for effectively managing power in connection with the contents of a prior application as described above. To this end, the management server 2 of the present invention needs to be partially described, and thus the components of the management server 2 will be briefly described. These are described in detail in the earlier application, so it is better to refer to them as needed.

The management server 2 according to the present invention forms a CPU 3 (330) for controlling all data and signals to be input and output; A power meter control program 321 for controlling data and processes associated with the digital power meter 30, a power saving control program 322 for controlling data and processes associated with the standby power outlet 40, A control program 320 consisting of a remote control program 323 for processing and controlling the transmitted remote control data and signals is stored in the CPU 3 (330) or in a separate storage device; A communication module 4 (340) for communication between the smartphone 6 and the gateway 3 is formed.

That is, the management server 2 has a CPU (3) 330 inside it, and it is possible to manage all the measures for saving power in the home. For the system, the management server 3 has a digital power meter 30, a standby power outlet 40, and a user's app program 20, and the means for operating them is processed through an inner control program 320. The control program 320 is equipped with a power meter reading control program 321 for power meter reading and operation in association with the digital power meter 30, as shown in Fig. Although details are described in detail in the applicant's prior application, the present invention manages data such as the amount of power consumption currently consumed and an estimate of power consumption, and processes the data so that the user can recognize the data through the application program 20.

The control program 320 that controls data or processes associated with the standby power outlet 40 is also referred to as a power saving control program 322, which is already described in detail in the domestic preferred applications and prior art. The standby power is reduced, the predicted value is displayed in the form of a game of the application program 20, so that the user can always be conscious of an accident for power saving.

Finally, a remote control control program 323 is provided, which refers to a program for performing the remote remote controller function A1. This feature has already been described, so I will not discuss it any further.

45; Standby switch 46; Standby power outlet
47; A CPU 48; Communication module
49; The display unit

Claims (20)

In a multi-plug outlet,
So as to have a receptacle groove (K) in which two plugs can be fitted, fitted into a wall power outlet (14);
One of the two receptacle grooves K measures an excessive current when it flows through the current sensor 2 and 44 and performs an electric leakage blocking function so that current is cut off through a separate standby switch 45, A standby power outlet (46) for shutting off the current of the standby cutoff switch (45) to block waste of the standby current even when the flowing current is smaller than or equal to the reference value of the standby current that has already been measured;
The other one of the two outlet grooves K measures the current through the current sensor 1 and 41 when an excessive current flows separately from the standby power outlet 46, A power outlet (43);
A display unit (49) for displaying an amount of current flowing in an outlet of the receptacle groove (K), a change amount thereof, and necessary information;
A communication module (48) for transmitting and receiving a control signal and necessary information and data under the control of the CPU (47);
A CPU for controlling and managing the operation of the electrical leakage cutoff switch 42, the standby cutoff switch 45, the current sensors 1 and 2 (41; 44), and the communication module 48 in the standby power outlet 46; (= Multi-tap) 40 comprising a power supply 47 and a power supply 47. The power consumption is minimized and the effective use of the current is improved by managing standby power and managing it, Multifunction outlet that blocks waste of standby power.
The method according to claim 1,
An atmospheric cut-off switch 45 that cuts off the waste of standby power through the current detection of the current sensors 2 and 44 is connected to the end of the power line 124 extending long in the standby power outlet And the power supply of the current can be manually turned on and off through the combined external short-circuit switch (125).
The method according to claim 1,
A standby power outlet (= multi-tap) 40 having a physical structure,
A plug terminal 121 protruding to be fitted to a wall power switch 14 formed on a wall surface;
A pair of outlet grooves K formed in a circular groove to a predetermined depth from the upper portion of the housing body 123;
A display unit 49 formed on one side of the housing body 123 and configured to display characters or information;
And a click switch 122 formed on one side of the housing body 123 for controlling ON / OFF of energization and operation of a standby power outlet (= multi-step) A multifunctional multi-plug receptacle shields waste of standby power so as to prevent waste of standby power by simply plugging into a wall power outlet (14).
The method of claim 3,
The outlet receptacle K is enlarged to form a standby power receptacle 40 having three receptacle recesses K. When an excessive current flows through the third receptacle recess K, (A1), a short range remote controller function (A2), and a direct distance remote controller (A3) 240, while performing a function of preventing a current leakage through a separate random disconnect switch 241 And a power outlet (242) that allows the current to be controlled through control of the controller function (A3).
5. The method of claim 4,
The remote remote controller function (A1)
The management server 2 transmits a control signal to the home gateway 3 via the mobile communication network 202 by clicking a button in the application program 20 of the smartphone 6 at a remote location, The control signal is transmitted to the communication module 48 of the standby power outlet 40 through the communication module 2 304 of the standby power outlet 40. Under the control of the CPU 47, ) Is short-circuited. A multifunctional multi-tap outlet that blocks waste of standby power.
5. The method of claim 4,
The short-range remote controller function (A2)
The gateway 3 is operated under the control of the CPU 2 (301) by the communication module (2) 304 of the gateway 3 by clicking a button in the app program 20 of the smartphone 6 at a close range, The control signal is transmitted to the communication module 48 of the standby power outlet 40 under the control of the CPU 47 and the standby shutoff switch 45 and the arbitrary shutoff switch 241 are short- The multi-function multi-tap outlet prevents the waste of standby power.
5. The method of claim 4,
The direct distance remote controller function (A3)
The remote control appliances 311 that have achieved the device recognition (= device compatibility) with the app program 20 of the smartphone 6 communicate with each other through the infrared communication or the Bluetooth communication through the communication module or communication means of both, This multi-function multi-tap outlet prevents the waste of standby power.
The method according to claim 5 or 6,
The operating program 303 embedded in the gateway 3 is stored inside the CPU 2 or 301 or in a separate storage device (= storage space) 302,
To manage and operate the short circuit between the digital power meter (30) and the standby power outlet (40) through the communication module (2) 304;
Is a process for managing and controlling information related to the standby power outlet (40) and the digital power meter (30) and its data.
5. The method of claim 4,
A standby power outlet (40) consisting of three outlet recesses (K)
One outlet receptacle K for any power outlet 242 is formed in the standby power receptacle 40 according to claim 4 so as to have three outlet receptacles K;
Off switch (241) can be turned on and off manually via the click switch (122) and the external short-circuit switch (125).
A method for blocking waste of standby power,
A first step; (S10) measuring the current flowing through the standby power outlet (46) and the standby power outlet (43) of the standby power outlet (= multi-tap) (40) inserted in the wall power outlet (14);
A second step; When the current is supplied to the standby power outlet (= multi-step) 40, particularly, the initial current flowing in the standby power outlet 46 is measured to measure the initial value, );
A third step; (S30) confirming whether the operation of the standby power supply appliance (= household appliance) 13 inserted into the standby power outlet 46 is started and continued through measurement of the current;
Step 4; When the current flowing in the standby power outlet 46 is equal to or larger than 15 A, the current sensor 2 or 44 detects this and activates the standby cutoff switch 45 in accordance with the control signal of the CPU 47, (Step S50); Step S60 of automatically shutting off the energization of the standby power outlet 40 even when the current measured by the current sensors 2 and 44 becomes "measured value? Reference value" in comparison with the reference value;
Step 5; When the user intends to operate the standby power supply appliance (= household appliance) 13 inserted into the standby power outlet 46, the current interruption switch 45 is turned ON to the standby interruption switch 45 of the standby power outlet (= multi-step) (S70) using the standby power outlet (46), wherein the standby power outlet (46)
When the current sensed by the current sensors 1 and 41 of the always-on power outlet 43 is equal to or greater than 15 A during the respective phases, under the control of the CPU 47, And the current flowing in the standby power is turned off.
11. The method of claim 10,
The communication module 48 and the gateway 3 of the standby power outlet 40 provided for each household are connected to transmit the standby power related data and information generated in the standby power outlet 40 to the management server 2, The management server 2 pushes down the saving information for reducing power consumption;
The apps program 20 embedded in the user's mobile phone 6 can acquire the power saving amount and the power saving expectation value through the standby power related data transmitted from the standby power outlet 40 through the communication module 48 A stand-by power cut-off method using a multi-tap outlet that prevents waste of standby power.
11. The method of claim 10,
The communication module 48 may include a plurality of communication modules 48 selected from an RF communication module, a Bluetooth communication module, a power line communication module, a mobile communication module, an NFC communication module, a WiFi communication module, and a smart beam communication module A standby power blocking method using a multi-plug outlet to block standby power dissipation.
11. The method of claim 10,
The application program 20 installed in the mobile phone 6 is provided with a data reception request means 21-1 according to at least standby power saving through the communication module 48, Data computing means 21-2, data displaying means 21-3 for displaying the calculated data in the form of data and information that can be perceived by the user. A method for blocking standby power using an outlet.
In the remote control method,
The smartphone 6 application program 20 is connected to the standby power outlet 40, the digital power meter 30, and a separate Causing each of the always-on power supply appliances (12), the standby power supply appliances (13), the optional power supply appliances (243) and the remote control appliances (311) having communication means to short-circuit;
The remote remote controller function A1 is connected to the communication module 202 of the standby power outlet 40 via the management server 2 and the gateway 3 connected to the mobile communication network 202 when the smart phone 6 is located at a remote location (48) and the CPU (47) to short-circuit the atmospheric interruption switch (45) and the arbitrary interruption switch (241);
When the smartphone 6 is located inside a gateway communication network (= gateway network) 201, which is an internal network of each household A, the remote remote controller function A2 is connected to the gateway network 201, Using the communication module 48 and the CPU 47 of the receptacle 40 to short-circuit the standby shutoff switch 45 and the arbitrary shutoff switch 241;
The direct distance remote controller function A3 is a function of the communication module 3 (310) of the smartphone 6 when the user faces each remote control appliance 311 having a separate communication means in each home And the remote control function of each household appliance can be short-circuited through the remote control function.
15. The method of claim 14,
The gateway 3 according to the remote remote controller function A1 is configured such that the user's control signal transmitted from the user's app program 20 is transmitted to the communication module 2 304 of the gateway 3 And the transferred signal or data is transmitted to the standby power outlet 40 via the standby program interruption switch 45 and the arbitrary shutdown switch 45 via the operation program 303 in the CPU 2 (301) (241) is short-circuited. A remote control method using a multi-plug outlet and an app program.
15. The method of claim 14,
The gateway 3 according to the short-range remote controller function A2 is capable of forming a separate gateway network 201 in the A-house through the communication module 2 (304);
The user's control signal transmitted from the application program 20 is transmitted to the communication module 2 304 of the gateway 3 through the gateway network 201 and the transmitted signal and data are transmitted to the CPU 2 And disconnecting the standby shutoff switch 45 and the arbitrary shutoff switch 241 via the operating program 303 in the storage device 302 and the remote control method using the app program.
15. The method of claim 14,
The smart phone 6 according to the direct distance remote controller function (A3)
The remote control unit 311 is operable through a remote controller in each home. The remote control unit 311 performs device recognition (device compatibility) by infrared communication or Bluetooth communication, and is used as a remote controller. Remote control method using.
15. The method of claim 14,
The application program 20 laid out on the smartphone 6,
A program B1 for power management for managing the digital power meter 30 and a standby power outlet 40, and a program B2 for remote control;
The program B1 for the remote control includes a remote mode C1 using the mobile communication network 202, a gateway mode C2 using the gateway network 201 and a home mode C3 using infrared rays or Bluetooth communication at a direct distance Control;
A remote control method using a multitap outlet and an app program, characterized in that waste of electric power can be managed through an easy power short circuit of household appliances.
15. The method of claim 14,
The management server 2,
Forming a CPU (3) (330) for controlling all data and signals to be input and output;
A power meter control program 321 for controlling data and processes associated with the digital power meter 30, a power saving control program 322 for controlling data and processes associated with the standby power outlet 40, A control program 320 consisting of a remote control program 323 for processing and controlling the transmitted remote control data and signals is stored in the CPU 3 (330) or in a separate storage device;
And a communication module (4) (340) for communication between the smartphone (6) and the gateway (3) are formed.
The method according to claim 1 or 5,
A digital power meter (30) for meter reading power is accommodated in a gateway (3) and can be simplified.

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