KR102297691B1 - air-quality measurement device of digital clock-integrated type for presenting indoor-to-outdoor air-quality comparative analysis by use of open data server - Google Patents

Abstract

The present invention relates to a digital watch integrated-air quality measurement device based on comparative analysis and display of indoor and outdoor air quality using public data server, which is a technic that compares and analyses the indoor air quality of a place where a user wants to know the air quality such as the user's residence and the most recent actual outdoor air quality for that place from the outside, so as to practically determine and control whether the window of the space in which the user lives is opened or closed and whether various IoT devices are operated to improve the air quality installed in the room. By implementing an air quality measurement device with an air quality measuring technology to a digital watch installed indoors, a luminous color in an hour hand and minute hand of the digital clock is adjusted in response to the indoor air quality of the residence and the outdoor air quality around the residence, and this helps residents to intuitively judge the indoor/outdoor air quality around the residence and helps determine whether ventilation of indoor and outdoor air is appropriate or whether it is appropriate to operate an air quality improvement device installed indoors. According to the present invention, as a gas meter reading data transmission/reception member is provided, the gas meter reading data transmission/reception member serves as a gateway to receive a meter reading measurement value from a nearby gas meter reader and provide the same to an external gas management server.

Description

An air-quality measurement device of digital clock-integrated type for presenting indoor-to-outdoor air-quality comparative analysis by use of open data server}

The present invention receives and compares and analyzes the indoor air quality of a place where the user wants to know the air quality (eg, the user's residence) and the most recent actual outdoor air quality for the place from the outside, thereby whether the window of the space in which the user resides is opened or closed. and technology to actually determine and control the operation of various IoT devices to improve air quality installed in the room.

More specifically, the present invention implements an air quality measurement device to which air quality measurement technology is applied to a digital watch installed indoors, so that, for example, the time part and By adjusting the emission color in the minute part, it helps residents to intuitively judge the indoor/outdoor air quality around the place they live in and whether it is appropriate to ventilate the indoor/outdoor air or whether it is appropriate to operate the indoor air quality improvement device. It's about technology that helps you do that.

A public data server that provides public data (eg, outdoor air quality information) to a large number of users through their personal terminals is disposed in a certain area in Korea.

At this time, based on the outdoor air quality information around the individual user received from his/her personal terminal, whether it is desirable to open the window of the building in which he resides to ventilate, or the air quality provided indoors without the window open There is a need to recognize precisely when it is more desirable to operate the improvement devices.

To this end, it is necessary to understand the indoor air quality in which individual users live, and only when it is possible to immediately check what the indoor air quality is in comparison with the outdoor air quality provided from an external public data server. You will be able to quickly determine whether it is working or not.

However, if an individual user compares and analyzes the outdoor air quality information received from the outside and the indoor air quality information in which he or she resides with personal effort, the user can open and close the window or control the operation of the air quality improvement device. There is a problem that can't help but fall.

Accordingly, the intuitive light emitting pattern of the digital watch, which the user frequently sees in the space where the user resides, changes according to the indoor and outdoor air quality, and the comparative analysis of the indoor air quality and the outdoor air quality is intuitively displayed on the light emission pattern. By configuring so as to be possible, it is required to implement a technology that can solve the problems of the prior art as described above.

The present invention has been proposed in view of the above, and an object of the present invention is to change the light emitting pattern in response to indoor and outdoor air quality through the light emitting device provided in the digital watch installed in the space where the user lives. An object of the present invention is to provide an air quality measurement device based on a digital watch that allows a user to intuitively determine indoor and outdoor air quality and manually determine whether a window is opened or closed or an air quality improvement device is operating.

In addition, it is an object of the present invention to change the light emitting pattern in response to indoor and outdoor air quality through a light emitting element provided in the digital watch in a digital watch installed in a space in which a user lives, and to interlock window opening and closing control and air quality improvement device. An object of the present invention is to provide a digital watch-based air quality measurement device that enables operation control.

Another object of the present invention is to provide an air quality measurement device based on a digital clock that allows a digital clock installed indoors to operate as a gateway for transmitting usage information of a gas meter reader to a gas management server.

In order to achieve the above object, the digital watch-based air quality measuring device according to the present invention includes a base 111, a hour display unit 112 that emits light in a state mounted on the base, and a minute display unit that emits light in a state mounted on the base. 113, a separator display unit 114 mounted on the base and emitting light in a state in which the hour display unit and the minute display unit are partitioned a digital watch member 110 having a light emission control unit 115 to control the light emission control unit 115 and a time control unit 116 to control the time displayed on the hour display unit and the minute display unit; a Wi-Fi member 120 for requesting and receiving the NTP server and providing the current time information to the time controller; The public data receiving member 130 that receives the outdoor air quality data of the area where the digital watch member is located from an external public data server; Indoor air quality measuring sensor member 140 for measuring the air quality of the room in which the digital watch member is located; an indoor air quality data receiving member 150 for receiving indoor air quality data measured by the indoor air quality measuring sensor member; an indoor/outdoor air quality analysis member 160 that receives outdoor air quality data from the public data receiving member and receives the indoor air quality data from the indoor air quality data receiving member and compares and analyzes them; The light emission notification control member 170 for controlling the light emission of the hour display unit, the minute display unit, and the separator display unit by transmitting a control command to the light emission control unit according to the result of comparative analysis of the indoor and outdoor air quality analysis members; may be configured to include.

At this time, as a result of the comparative analysis of the indoor and outdoor air quality analysis members, the light emission notification control member 170 displays the corresponding light emission color according to the first light emission color list predetermined in response to the pollution level of the outdoor air quality data provided from the public data receiving member. The control command may be transmitted to the light emission control unit to do so, and a control command may be transmitted to the light emission control unit so that the minute display unit displays the light emission color according to a predetermined second light emission color list in response to the pollution degree of the indoor air quality data provided from the indoor air quality data receiving member. can

And, as a result of comparative analysis of the indoor/outdoor air quality analysis member, the light emission notification control member 170, when the pollution degree of the outdoor air quality data provided from the public data receiving member is greater than the pollution degree of the indoor air quality data provided from the indoor air quality data receiving member A control command may be transmitted to the light emission controller so that the separator display unit displays the corresponding light emission color according to a third list of light emission colors determined in response to the difference in the degree of contamination.

In addition, as a result of comparative analysis of the indoor/outdoor air quality analysis member, the light emission notification control member 170 is configured to have a pollution degree of outdoor air quality data provided from the public data receiving member is greater than a pollution degree of indoor air quality data provided from the indoor air quality data receiving member. A control command may be transmitted to the light emission control unit so that the separator display unit blinks.

On the other hand, the short-distance communication module 181 for performing short-distance communication with the air quality improving device for improving the air quality of the room in which the digital watch member is located; an indoor device control member 182 that transmits an operation command to the air quality improvement device through a short-distance communication module according to a comparative analysis result of the indoor/outdoor air quality analysis member; A gas meter reading data transmitting/receiving member 183 for receiving the gas meter reading measured value of the gas meter reader from the indoor gas meter reader in which the digital clock member is located and transmitting it to an external gas management server; may be configured to further include.

On the other hand, the indoor air quality measuring sensor member 140 may include at least one of a fine dust sensor, a carbon dioxide sensor, a temperature and humidity sensor, and a multi-gas sensor.

The present invention is provided with an indoor and outdoor air quality analysis member and a light emission notification control member, so that the user can intuitively tell the user that the indoor and outdoor air quality is good or bad by changing the light emission pattern of the hour display part and the minute display part of the digital watch according to the indoor and outdoor air quality of the place where the user resides. It has the advantage of helping you make decisions.

In addition, the present invention shows the advantage of enabling the operation control of one or more air quality improvement devices installed indoors according to the comparative analysis result of the indoor and outdoor air quality analysis members as the short-distance communication module and the indoor device control member are provided.

In addition, the present invention has the advantage of serving as a gateway that receives the gas meter reading data from a nearby gas meter reader and provides it to an external gas management server as the gas meter reading data transmission/reception member is provided.

[Figure 1] is an exemplary view showing a state in which the digital watch-based air quality measurement device according to the present invention is installed;
[Figure 2] is an exemplary view showing a state in which the digital watch-based air quality measurement device according to the present invention emits light;
[Figure 3] is an exemplary view of a digital watch-based air quality measurement device according to the present invention,
[Figure 4] is a block diagram of a digital watch-based air quality measurement device according to the present invention;
[FIG. 5] is a state diagram 1 of a digital watch-based air quality measurement device according to the present invention;
[Figure 6] is an exemplary view of an indoor air quality measuring sensor member of the present invention;
[Fig. 7] is a state diagram of the use of a digital watch-based air quality measuring device according to the present invention 2,
[Fig. 8] is a state diagram 3 of the digital watch-based air quality measuring device according to the present invention in the present invention.

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

[FIG. 1] is an exemplary view showing a state in which the digital watch-based air quality measuring device according to the present invention is installed. Referring to [Fig. 1], the present invention provides a digital watch as a household appliance that performs its original function of displaying time without having a separate device for indicating the condition of indoor and outdoor air quality. to display it.

A detailed configuration of the digital watch-based air quality measuring device will be described in detail below with reference to FIGS. 2 to 8 .

First, [Fig. 2] is an exemplary diagram showing a state in which the digital watch-based air quality measurement device according to the present invention emits light, and [Fig. 3] is an exemplary diagram of the digital watch-based air quality measurement device according to the present invention, [ 4] is a block diagram of a digital watch-based air quality measurement device according to the present invention, [Fig. 5] is a state diagram 1 of the digital watch-based air quality measurement device according to the present invention, and [Fig. 6] is this It is an exemplary view of an indoor air quality measuring sensor member that is a configuration of the present invention.

2 to 6, the digital watch-based air quality measuring device 100 according to the present invention includes a digital watch member 110, a Wi-Fi member 120, a public data receiving member 130, and an indoor Including air quality data receiving member 140, indoor air quality data receiving member 150, indoor and outdoor air quality analyzing member 160, luminescence notification control member 170, short-distance communication module 181, indoor device control member 182 can be configured.

The digital watch member 110 includes a base 111, an hour display unit 112, a minute display unit 113, and a separator display unit 114 to perform the original function as a digital watch as in [Fig. 2] and [Fig. 3]. , a light emission control unit 115 , and a time control unit 116 may be provided.

That is, the base 111 represents a housing that supports the hour display unit 112 , the minute display unit 113 , and the separator display unit 114 as shown in FIG. 3 .

The hour display unit 112 and the minute display unit 113 may be independently configured, for example, in a type in which an LED emits light while mounted on the base 111, respectively, as shown in FIGS. 2 and 3 .

In addition, the separator display unit 114 is also mounted on the base 111, for example, of a type in which an LED emits light. It can be arranged to partition.

In this case, the light emission control unit 115 may independently control light emission of the hour display unit 112 , light emission of the minute display unit 113 , and light emission of the separator display unit 114 while being mounted on the base 111 .

In addition, the time control unit 116 may be configured to control the time displayed on the hour display unit 112 and the minute display unit 113 .

The Wi-Fi member 120 interfaces to provide the current time information received by requesting to the 'network time protocol (NTP) server' to the time controller 116 with reference to FIGS. 4 and 5 .

The public data receiving member 130 is preferably mounted on the base 111 portion of the digital watch member 110, and referring to [Fig. 4] and [Fig. 5], a digital watch from an external 'public data server' The member 110 is provided with outdoor air quality data in or around the area.

The indoor air quality measuring sensor member 140 may also be mounted on the base 111 of the digital watch member 110 with reference to Figs. The air quality is measured and provided to the indoor air quality data receiving member 150 .

The indoor air quality measuring sensor member 140 may include one or more of a fine dust sensor, a carbon dioxide sensor, a temperature and humidity sensor, and a multi-gas sensor, as shown in FIG. 6 .

The indoor air quality data receiving member 150 may be preferably mounted on the base 111 of the digital watch member 110 with reference to [FIG. 4], and the indoor air quality data measured by the indoor air quality measuring sensor member 140 are provided with

Referring to FIG. 4 , the indoor and outdoor air quality analysis member 160 receives outdoor air quality data from the public data receiving member 130 and receives indoor air quality data from the indoor air quality data receiving member 150 to compare and analyze them.

Referring to [FIG. 4], the light emission notification control unit 170 transmits a control command to the light emission control unit 115 according to the comparative analysis result of the indoor/outdoor air quality analysis member 160, thereby displaying the hour display unit 112 and the minute display unit 113. ), control the light emission of the separator display unit 114 .

As a result, as shown in FIG. 2 , the luminous color of the hour display unit 112 , the minute display unit 113 , and the separator display unit 114 emits light in a predetermined color according to the comparative analysis result of the indoor/outdoor air quality analysis member 160 .

As for the short-distance communication module 181, referring to [Fig. 5], for example, any one or more of an infrared module and an RS-485 communication module may be adopted, and an air quality improvement device for improving the air quality of the room in which the digital watch member 110 is located (eg, air purifier, circulator, air conditioner, other IoT devices) and short-distance communication (eg, Bluetooth, wireless LAN) can be configured.

The indoor device control member 182 is an air quality improvement device (eg, an air purifier, It can transmit operation commands to circulators, air conditioners, and other IoT devices).

On the other hand, referring to [Fig. 4] and [Fig. 5], the light emission notification control member 170 is the pollution degree of the outdoor air quality data provided from the public data receiving member 130 according to the comparative analysis result of the indoor and outdoor air quality analysis member 160. According to a first list of luminous colors (eg, red series) in response to, the hour display unit 112 may be configured to transmit a control command to the emission control unit 115 to display the corresponding emission color as shown in FIG. 2 . .

In other words, the darker the red color, the worse the outdoor air quality of the area. Here, the user will be able to intuitively grasp the outdoor air quality according to the luminous color on the digital watch that he sees every day.

At this time, referring to [Fig. 4] and [Fig. 5], the luminescence notification control member 170 is [ 2], the minute display unit 113 may be configured to transmit a control command to the emission control unit 115 to display a corresponding emission color (eg, green series).

That is, the darker the green color, the worse the indoor air quality in the area. Here, the user will be able to intuitively grasp the indoor air quality according to the luminous color on the digital watch that he sees every day.

As a result, the user may intuitively determine whether it is better to open the window or close the window through the emission color of the hour display unit 112 and the emission color of the minute display unit 113 .

On the other hand, referring to [Fig. 4] and [Fig. 5], the light emitting notification control member 170 has a third luminous color (e.g.: It may be configured to transmit a control command to the light emission control unit 115 to display a red color (red color) as shown in FIG. 2 .

Here, when the pollution degree of the outdoor air quality data provided from the public data receiving member 130 is greater than the pollution degree of the indoor air quality data provided from the indoor air quality data receiving member 150, the third emission color is predetermined in response to the difference in the pollution degree. A list should be prepared first.

On the other hand, referring to [Fig. 4] and [Fig. 5], the luminescence notification control member 170 receives the outdoor air quality data provided from the public data receiving member 130 according to the comparative analysis result of the indoor/outdoor air quality analysis member 160. When the pollution degree is greater than the pollution degree of the indoor air quality data provided from the indoor air quality data receiving member 150, the separator display unit 114 on [Fig. .

[Figure 7] is a state diagram 2 of the digital watch-based air quality measurement device according to the present invention. Referring to FIG. 7 , the present invention may further include a gas meter reading data transmitting/receiving member 183 .

The gas meter reading data transmission/reception member 183 may be configured to receive the meter reading measurement value of the 'gas meter reader' from the 'gas meter reader' in the room where the digital watch member 110 is located and transmit it to an external 'gas management server'. .

Here, for example, the gas meter reader measures the rotation value of the rotation gear which is basically provided to operate as a meter reader, and then transmits the measured rotation value to short-range communication (eg, 433 MHz, 447.9 MHz, FSK447/219MHz) can be transmitted to the gas meter reading data transmission/reception member 183 provided in the digital watch member 110 .

In addition, the gas meter reading data transmission/reception member 183 may receive the rotation value of the rotary gear from the gas meter reader through short-distance communication and transmit it to an external 'gas management server'. Data transmission to the 'management server' can be configured to pass through the 'wired/wireless router' by short-distance communication (eg, ASK/FSK, 2.4-5 GHz wireless LAN, Bluetooth 4.x, Wi-Fi) as in [Fig. 7]. can

At this time, referring to [Fig. 7], the user may set device registration for the corresponding digital watch member 110 and the corresponding 'gas meter reader' in advance through the dedicated app of the 'user terminal' that the user has.

As a result, the 'gas management server' may provide information related to the 'gas meter reader' as a device registered in the 'user terminal' (eg, monthly usage amount, monthly usage amount).

[Fig. 8] is a state diagram 3 of the digital watch-based air quality measuring device according to the present invention in the present invention.

Referring to FIG. 8 , a plurality of digital watch-based air quality measuring devices according to the present invention may be installed, for example, in a large building.

At this time, referring to [Fig. 8], each air quality measuring device 100 transmits information on indoor and outdoor air quality in the area it is responsible for to an external 'cloud server' via a 'wired/wireless router' through Wi-Fi or Ethernet communication. can be transmitted

In addition, the 'cloud server' may provide indoor and outdoor air quality information for each region, which is provided from one or more air quality measuring devices 100 in charge of it, to a pre-registered 'manager terminal' or a pre-registered 'user terminal'.

Here, the 'manager terminal' or 'user terminal' transmits the operation control command of the air quality improvement device (eg, air purifier, circulator, air conditioner, other IoT device) in charge of the air quality measurement device 100 through its dedicated app. It may also be configured to transmit to a 'cloud server'.

100: Digital watch-based air quality measurement device
110: digital clock absence
111: base
112: hour display
113: minute display
114: separator display unit
115: light emission control unit
116: time control
120: no wifi
130: public data receiving member
140: indoor air quality measurement sensor member
150: indoor air quality data receiving member
160: indoor and outdoor air quality analysis member
170: light emission notification control material
181: short-distance communication module
182: indoor device control material
183: Gas meter reading data transmission/reception member

Claims (7)

By using a public data server that provides outdoor air quality information and indoor air quality measurement sensor, we compare and analyze the indoor and outdoor air quality pollution levels for the location, and analyze the indoor and outdoor individual pollution levels and the difference in pollution levels for the hour, minute, and separator of the digital clock. In the air quality measurement device integrated with a digital watch for effectively providing a more superior method to indoor air quality improvement among ventilation and the operation of an indoor air quality improvement device by displaying it in a light emitting pattern at one time,
A base 111 for providing a housing of a digital watch, an hour display unit 112 for emitting light while mounted on the base, a minute display unit 113 for emitting light while mounted on the base, and mounted on the base A divider display unit 114 that emits light in a state in which the hour display unit and the minute display unit are partitioned, and the light emission of the hour display unit, the light emission of the minute display unit, and the light emission of the separator display unit are independently controlled while mounted on the base a digital clock member 110 having a light emission control unit 115 and a time control unit 116 for controlling the time displayed on the hour display unit and the minute display unit to perform a time display function of the digital clock;
a Wi-Fi member 120 for requesting an external network time protocol (NTP) server and providing the received current time information to the time controller 116;
It is mounted on the base 111 of the digital watch member 110 and provides outdoor air quality data (A) indicating the outdoor air quality for the area where the digital watch member 110 is located from an external public data server through the Internet. Receiving public data receiving member 130;
It is mounted on the base 111 of the digital watch member 110 and includes at least one of a fine dust sensor, a carbon dioxide sensor, a temperature and humidity sensor, and a multi-gas sensor to measure the air quality of the room in which the digital watch member 110 is located. an indoor air quality measuring sensor member 140;
Indoor air quality data receiving member 150 mounted on the base 111 of the digital watch member 110 and provided with indoor air quality data B indicating the indoor air quality measured by the indoor air quality measuring sensor member 140 ;
The outdoor air quality data (A) is received from the public data receiving member (130) and the indoor air quality data (B) is received from the indoor air quality data receiving member (150), and the outdoor air quality data (A) and the indoor air quality are provided. Indoor and outdoor air quality analysis member 160 for comparative analysis of the data (B);
The outdoor air quality data by the indoor/outdoor air quality analysis member 160 so that the hour display unit 112, the minute display unit 113, and the separator display unit 114 emit light in a preset color in response to the indoor/outdoor air quality comparison analysis result The hour display unit 112, the minute display unit 113, and the separator display unit 114 by transmitting a control command to the light emission control unit 115 according to the air quality comparison analysis result of (A) and the indoor air quality data (B). Light emission notification control member 170 for controlling the light emission of;
A digital watch-integrated air quality measurement device based on comparative analysis of indoor and outdoor air quality using a public data server comprising
The light emission notification control member 170,
(1) a preset first luminous color list corresponding to the pollution degree of outdoor air quality provided from the public data receiving member 130, and a preset corresponding to the indoor air quality pollution degree provided from the indoor air quality data receiving member 150 a second luminous color list and a preset third luminous color list corresponding to a difference in pollution degree between the outdoor air quality and the indoor air quality;
(2) according to the comparative analysis result of the indoor and outdoor air quality analysis member 160,
A control command is transmitted to the light emission control unit 115 so that the city display unit 112 emits light according to the first emission color list in response to the pollution level of the outdoor air quality data A received from the public data receiving member 130 . do,
A control command is sent to the light emission control unit 115 so that the minute display unit 113 emits light according to the second emission color list in response to the pollution level of the indoor air quality data B received from the indoor air quality data receiving member 150. convey,
When the pollution degree of the outdoor air quality data (A) is greater than the pollution degree of the indoor air quality data (B), the separator display unit 114 blinks and the separator display unit according to the third emission color list in response to the difference in the pollution level (114) is configured to transmit a control command to the light emission control unit 115 to emit light,
(3) The light emitting state of the hour display unit 112, the minute display unit 113, and the separator display unit 114 of the digital watch integrated into the air quality measurement device shows the difference in outdoor air quality, indoor air quality, and indoor/outdoor air quality pollution, respectively. By controlling the light emission control unit 115 so that the separator display unit 114 blinks when the air quality pollution degree of outdoor air quality is higher than indoor air quality while reflecting, the result of comparative analysis of indoor air quality and outdoor air quality is expressed in the light emission pattern of the digital watch. It provides a superior method among the first method of ventilation and the second method of operating the indoor air quality improvement device in a form that can be visually recognized by the user on the digital watch.
A digital watch-integrated air quality measurement device based on comparative analysis of indoor and outdoor air quality using a public data server, characterized in that it is displayed.
delete delete delete The method according to claim 1,
a short-distance communication module 181 for performing short-distance communication with an air quality improving device for improving the indoor air quality in which the digital watch member 110 is located;
According to the result of comparative analysis between the outdoor air quality data (A) and the indoor air quality data (B) by the indoor/outdoor air quality analysis member 160 , an operation command is transmitted to the air quality improvement device through the short-distance communication module 181 . an indoor device control member 182;
A digital watch-integrated air quality measurement device based on comparative analysis of indoor and outdoor air quality using a public data server, characterized in that it further comprises a.
6. The method of claim 5,
a gas meter reading data transmitting/receiving member 183 for receiving the gas meter reading measurement value of the gas meter reader from the indoor gas meter reader in which the digital clock member 110 is located and transmitting it to an external gas management server;
A digital watch-integrated air quality measurement device based on comparative analysis of indoor and outdoor air quality using a public data server, characterized in that it further comprises a. delete

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