KR102300492B1 - Blower Control Method and System based on Electric Appliance Usage - Google Patents

Abstract

As a measure to minimize the energy used by the blower, a blower that precisely controls only the required amount of a blower installed nearby according to sensor data placed around it based on the location of electronic devices in use in places where multiple blowers are installed, such as business sites. A control method and system are provided. A blower control system according to an embodiment of the present invention includes: a first collection module for collecting electricity usage of electronic devices; an estimation module for estimating a location of an electronic device in which electricity usage exceeds a threshold value based on a collection result of the first collection module; and a control module for controlling the blower in the vicinity of the estimated location of the electronic device.
Accordingly, autonomous driving is possible without the user directly controlling the blower, and the blower control effect can be enhanced by precisely controlling the blower based on sensor data arranged at a position where the blower operation effect is effective, and If there is no electronic device in use, the blower does not operate, so it is possible to minimize energy consumption.

Description

Blower Control Method and System based on Electric Appliance Usage

The present invention relates to a blower control technology, and more particularly, to a blower control method and system for separately operating only necessary blowers.

The manual control method in which the user directly operates the blower is not only cumbersome, but also has problems in effectively controlling the operation.

The automatic blower control technology that has emerged to solve this problem is a method of constantly operating the blower by a predetermined amount for a predetermined period of time, but precise control is not possible, and thus the energy used by the blower cannot be reduced.

In order to improve this, a technique for reducing energy by determining the control amount of the blower according to a sensor value disposed around the blower and operating the blower only by the required amount has emerged. However, the blower can be operated even when there is no person or electronic device in use, so the problem of wasting energy is unavoidable.

The present invention has been devised to solve the above problems, and an object of the present invention is to minimize the energy used by the blower. An object of the present invention is to provide a blower control method and system for precisely controlling only a required amount of a blower installed nearby according to sensor data disposed in the vicinity.

According to an embodiment of the present invention for achieving the above object, a blower control system includes: a first collection module for collecting electricity usage of electronic devices; an estimation module for estimating a location of an electronic device in which electricity usage exceeds a threshold value based on a collection result of the first collection module; and a control module for controlling the blower in the vicinity of the estimated location of the electronic device.

The control module may control the blower with different control amounts based on the estimated environmental state of the location of the electronic device.

The blower control system according to the present invention further includes a second collection module configured to collect sensor data from a sensor in the vicinity of the estimated location of the electronic device, wherein the control module is configured to use the sensor data collected by the second collection module to estimate It may be to determine the environmental condition of the location of the electronic device.

The control module may control the blower to operate faster as it is determined from the sensor data that the environmental condition is not good.

The control module may control the blower to operate slowly as it is determined from the sensor data that the environmental condition is not bad.

The estimation module may estimate the location of the electronic device with reference to pre-stored location information of the electronic device.

The estimation module may identify an outlet for supplying power to the electronic device, and estimate the location of the electronic device by referring to location information of the identified outlet.

The control module may transmit a control amount to an inverter connected to a blower to be controlled, and may control the blower through the inverter.

The electronic device may be a device operated by an operator.

According to another aspect of the present invention, collecting the electricity usage of the electronic device; estimating a location of an electronic device in which electricity usage exceeds a threshold value based on the collection result; and controlling the blower in the vicinity of the estimated electronic device location.

According to another aspect of the present invention, sensors installed around the electronic devices; blowers installed around the sensors; A blower control system for collecting electricity usage of electronic devices, estimating a location of an electronic device having an electrical usage exceeding a threshold based on the collection result, and controlling a blower in the vicinity of the estimated location of the electronic device; characterized by comprising: A blowing system is provided.

According to another aspect of the present invention, the blowers installed around the sensors installed around the electronic devices; and a blower control system that collects the electricity usage of the electronic device, estimates the location of the electronic device where the electrical usage exceeds a threshold based on the collection result, and controls a blower in the vicinity of the estimated location of the electronic device. A blowing system is provided.

As described above, according to the embodiments of the present invention, autonomous operation is possible without the user directly controlling the blower, and the blower can be precisely controlled based on sensor data disposed at a position where the blower operation effect is effective. It is possible to increase the blower control effect and minimize the energy consumption because the blower does not operate when there are no people or electronic devices in use.

1 is a diagram illustrating a workplace environment to which the present invention is applicable;
Figure 2 is a detailed block diagram of the blower control system shown in Figure 1, and,
3 is a flowchart provided to explain a blower control method according to another embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

In an embodiment of the present invention, an electronic device electricity consumption-based blower control method and system are provided.

Unlike the existing technology in which energy is wasted because the blower cannot be precisely controlled or the blower can be operated unnecessarily by direct control by a person or control through a sensor, the blower control method and system according to the embodiment of the present invention are used The energy efficiency of the blower can be maximized by precisely operating the blower only by the required amount according to the surrounding sensor values based on the location of the electronic device in progress.

1 is a diagram illustrating a workplace environment to which the present invention is applicable. In the workplace to which the present invention is applicable, as shown, there are a person 100 , an electronic device 200 , a sensor 300 , an inverter 400 , a blower 500 , and a blower control system 600 .

The person 100 is a worker, a manager, or the like, and the electronic device 200 , the sensor 300 , the inverter 400 , and the blower 500 may be configured in plurality, and may be implemented in different numbers.

The electronic device 200 refers to a facility operated by a person 100 or automatically operated. The sensor 300 is installed around the electronic device 200 to measure the surrounding environment of the electronic device 200 .

The blower 500 is also installed around the electronic device 200 and operates to ventilate the surrounding of the electronic device 200 . The inverter 400 is connected to the blower 500 to operate the connected blower 500 .

The blower control system 600 controls the operation of the blower 500 by controlling the inverter 400 based on the amount of electricity used in the electronic device 200 and the measurement data of the sensor 300 . A detailed configuration of the blower control system 600 is shown in FIG. 2 .

FIG. 2 is a detailed block diagram of the blower control system 600 shown in FIG. 1 . As shown in FIG. 2 , the blower control system 600 includes an electricity usage collection module 610 , a sensor data collection module 620 , an electronic device estimation module 630 and an inverter control module 640 . do.

The electricity usage collection module 610 periodically collects electricity usage of the electronic device 200 . The sensor data collection module 620 periodically collects sensor data from the sensor 300 .

The electronic device estimation module 630 estimates the location of the electronic device 200 in use when electricity usage of the electronic device 200 occurs. Specifically, the location of the electronic device 200 in which electricity usage exceeds a threshold (standby power or more) is estimated.

The location of the electronic device 200 can be estimated by referring to the pre-stored location information of the electronic device 200, identifying an outlet for supplying power to the electronic device 200, and referring to the identified location information of the outlet. can

The inverter control module 640 determines the control amount of the inverter 400 connected to the blower 500 located in the vicinity of the sensor 300 based on the sensor data of the sensor 300 disposed in the vicinity of the electronic device 200 and , control according to the determined control amount.

Specifically, as it is determined from the sensor data of the sensor 300 that the environmental condition is not good, the control amount of the inverter 400 is determined to operate the blower 500 faster, and as it is determined that the environmental condition is not bad, the blower 500 ) determines the control amount of the inverter 400 to operate slowly.

Hereinafter, a process of controlling the blower 500 by the blower control system 600 shown in FIG. 2 will be described in detail with reference to FIG. 3 . 3 is a flowchart provided to explain a blower control method according to another embodiment of the present invention.

As shown, when the person 100 uses the electronic device 200 (S710), electricity consumption occurs in the electronic device 200 (S720).

The electricity usage collection module 610 of the blower control system 600 collects the electricity usage of the electronic device 200 generated in step S720, and the electronic device estimation module 630 uses the electronic device estimating module 630 based on the collection result. The location of the device 200 is estimated ( S730 ).

In step S730, the location of the electronic device 200 refers to the location information of the electronic device 200 stored in advance, or identifies an outlet that supplies power to the electronic device 200, and refers to the location information of the identified outlet can be estimated by

Next, the sensor data collection module 620 collects by requesting sensor data from the sensor 300 installed in the vicinity of the electronic device 200 being used ( S740 , S750 ).

Thereafter, the inverter control module 640 determines the control amount of the inverter 400 connected to the blower 500 located in the vicinity of the sensor 300 based on the sensor data collected through steps S740 and S750 (S760). .

In step S760, as it is determined from the sensor data of the sensor 300 that the environmental condition is not good, the control amount of the inverter 400 that operates the blower 500 faster is determined, and as it is determined that the environmental condition is not bad, the blower ( It is possible to determine the control amount of the inverter 400 that operates the 500) slowly.

Next, the inverter control module 640 requests control from the inverter 400 according to the control amount determined in step S760 (S770), and the inverter 400 controls the blower 500 according to the request in step S770 (S780). .

So far, a preferred embodiment has been described in detail with respect to a blower control method and system based on electricity consumption of electronic devices.

In an embodiment of the present invention, a method and system for precisely controlling only a necessary amount of a blower installed nearby according to data of a sensor disposed in the vicinity based on the location of an electronic device in use in a place where a plurality of blowers are installed, such as a business place. presented.

According to an embodiment of the present invention, autonomous driving is possible without the user directly controlling the blower, and the blower control effect can be increased by precisely controlling the blower based on sensor data disposed at a position where the blower operation effect is effective. Furthermore, since the blower does not operate when there are no people or electronic devices in use, energy consumption can be minimized.

On the other hand, it goes without saying that the technical idea of the present invention can also be applied to a computer-readable recording medium containing a computer program for performing the functions of the apparatus and method according to the present embodiment. In addition, the technical ideas according to various embodiments of the present invention may be implemented in the form of computer-readable codes recorded on a computer-readable recording medium. The computer-readable recording medium may be any data storage device readable by the computer and capable of storing data. For example, the computer-readable recording medium may be a ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, hard disk drive, or the like. In addition, the computer-readable code or program stored in the computer-readable recording medium may be transmitted through a network connected between computers.

In addition, although preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the claims Various modifications are possible by those of ordinary skill in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

100 : person
200: electronic device
300: sensor
400: inverter
500: blower
600: blower control system
610: electricity usage collection module
620: sensor data collection module
630: electronic device estimation module
640: inverter control module

Claims (12)

a first collection module for collecting electricity usage of electronic devices;
an estimation module for estimating a location of an electronic device in which electricity usage exceeds a threshold value based on a collection result of the first collection module;
a second collection module that collects sensor data from sensors in the vicinity of the estimated electronic device location; and
Based on the environmental condition of the estimated location of the electronic device, the blower is controlled with different control amounts, but as the environmental condition is judged to be poor from the sensor data, the blower is controlled to operate faster, and the sensor data indicates that the environmental condition is not bad. Including; a control module that controls the blower to operate slowly as it is determined
The second collection module,
It collects by requesting sensor data from a sensor installed around the location of the electronic device estimated by the estimation module,
The control module is
A blower control system, characterized in that it controls a blower located in the vicinity of a sensor that has collected sensor data.
delete delete delete delete The method according to claim 1,
The estimation module is
A blower control system, characterized in that it estimates the location of the electronic device by referring to the location information of the electronic device stored in advance.
The method according to claim 1,
The estimation module is
A blower control system comprising identifying an outlet for supplying power to an electronic device, and estimating the location of the electronic device by referring to the identified location information of the outlet.
The method according to claim 1,
The control module is
A blower control system, characterized in that by transmitting a control amount to an inverter connected to a blower to be controlled, the blower is controlled through the inverter.
The method according to claim 1,
electronic devices,
A blower control system, characterized in that the device is operated by an operator.
collecting electricity usage of electronic devices;
estimating a location of an electronic device in which electricity usage exceeds a threshold value based on the collection result;
collecting sensor data from sensors in the vicinity of the estimated electronic device location; and
Based on the environmental condition of the estimated location of the electronic device, the blower is controlled with different control amounts, but as the environmental condition is judged to be poor from the sensor data, the blower is controlled to operate faster, and the sensor data indicates that the environmental condition is not bad. Including; controlling the blower to operate slowly as it is determined
The sensor data collection steps are:
The sensor data is requested and collected from the sensor installed around the location of the electronic device estimated by the estimation step,
The control stage is
A blower control method comprising controlling a blower located in the vicinity of a sensor that has collected sensor data.
sensors installed around electronic devices;
blowers installed around the sensors;
A blower control system that collects the electricity usage of the electronic device, estimates the location of the electronic device where the electrical usage exceeds a threshold based on the collection result, and controls a blower in the vicinity of the estimated location of the electronic device; includes;
The blower control system is
Based on the environmental condition of the estimated location of the electronic device, the blower is controlled with different control amounts, but as the environmental condition is judged to be poor from sensor data collected from sensors in the vicinity of the estimated location of the electronic device, the blower operates faster Control the blower to operate slowly, but as it is determined that the environmental condition is not bad,
It collects sensor data by requesting it from a sensor installed around the estimated location of the electronic device,
A blower system, characterized in that it controls a blower located in the vicinity of a sensor that has collected sensor data.
Blowers installed around the sensors installed around the electronic devices; and
A blower control system that collects the electricity usage of the electronic device, estimates the location of the electronic device where the electrical usage exceeds a threshold based on the collection result, and controls a blower in the vicinity of the estimated location of the electronic device; includes;
The blower control system is
Based on the environmental condition of the estimated location of the electronic device, the blower is controlled with different control amounts, but as the environmental condition is judged to be poor from sensor data collected from sensors in the vicinity of the estimated location of the electronic device, the blower operates faster Control the blower to operate slowly, but as it is determined that the environmental condition is not bad,
It collects sensor data by requesting it from a sensor installed around the estimated location of the electronic device,
A blower system, characterized in that it controls a blower located in the vicinity of a sensor that has collected sensor data.

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