KR20190082647A - System for controlling heating and cooling of building - Google Patents

Abstract

The present invention relates to a system for controlling heating and cooling of a building. According to an embodiment of the present invention, the system for controlling heating and cooling of a building comprises: at least one temperature measurement device configured to transmit temperature information of a predetermined area in a building; an air conditioner supplying cold and hot air into the building; at least one diffuser having at least one aromatic switch to spread the cold and hot air supplied from the air conditioner into the building; and a building cooling and heating control device receiving temperature information from the temperature measurement device and controlling the air conditioner and the diffuser based on the received temperature information.

Description

System for controlling heating and cooling of building

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building cooling and heating control system, and more particularly, to a system for controlling cooling and heating of a building by measuring a temperature at an arbitrary place in a building and controlling opening and closing of a diffuser based thereon.

Generally, an air conditioner for supplying cold and warm air is installed at the time of construction, and a plurality of diffusers for diffusing the cold air supplied from the air conditioner into the room are installed at regular intervals on the ceiling. In most cases, the interior space of the building is divided into a plurality of spaces (areas) by the inner wall to enhance its usability.

However, when the interior space of the building is divided into a plurality of areas according to the purpose of use, the diffusers installed at regular intervals on the ceiling are not proportionally allocated to the divided space (area) as illustrated in FIG. 1, Therefore, there is a difference in the size of the space occupied by each diffuser.

In this regard, as for the building heating and cooling system according to the related art, when a thermometer (fixed type temperature measurement device) fixedly installed on a wall or a column in a building transmits temperature information and the air conditioner compares the temperature information with predetermined set temperature information After controlling the heater / cooler, damper (duct opening rate) and static pressure (wind intensity) of the air conditioner according to a predetermined algorithm, the heating and cooling of the building was controlled. In some cases, the user (for example, the building manager) directly controls the heating / cooling of the building by adjusting the set temperature of the air conditioner, the damper, and the static pressure.

However, as described above, if the space inside the building is divided into a plurality of areas, there is a difference in the size of the spaces occupied by the respective diffusers. In the case of the prior art, the diffusers can not be individually controlled, Cold wind was supplied, resulting in a large temperature variation in each building area.

In addition, the temperature of the building varies according to the morning and afternoon, the seasonal sunshine and the material of the exterior wall of the building. Accordingly, even in the same floor in a building, the time of sunlight, the presence and direction of the window, The average temperature deviation was more than 3 degrees in each location.

Therefore, in the case of the related art, even if the average temperature inside the building is compared with the set temperature of the air conditioner and controlled according to a predetermined algorithm, the temperature in the building can not be reflected and controlled in detail, There is a problem that a deviation occurs, which eventually causes a waste of electric power energy necessary for controlling the heating and cooling of the building.

Korean Patent Publication No. 10-2005-0103855 Korean Patent Laid-Open Publication No. 10-2016-0104159

SUMMARY OF THE INVENTION The present invention has been made to overcome the above-mentioned problems, and an object of the present invention is to minimize the temperature variation in each building area and location by controlling the temperature of buildings in detail, Which can efficiently utilize the energy of the building.

Another object of the present invention is to provide a building cooling / heating control system capable of optimally controlling the temperature in various places in a building by providing a diffuser for controlling the air flow rate and direction of the cold air supplied from the air conditioner.

It is another object of the present invention to provide a building capable of measuring the temperature at any place in a building using a portable temperature measuring device and controlling the open / close direction and opening rate of the diffuser based on the temperature, And to provide a cooling and heating control system.

To this end, the building heating / cooling control system according to an aspect of the present invention includes at least one temperature measuring device for transmitting temperature information of a certain area inside a building; An air conditioner for supplying cold air into the building; At least one diffuser each having at least one directional switch for diffusing cold air supplied from the air conditioner into the building; And a building cooling and heating control device for controlling the air conditioner and the at least one diffuser based on temperature information measured by the at least one temperature measuring device.

Preferably, the at least one temperature measuring device includes at least one first area temperature measuring device installed at a predetermined position in a first area inside the building to transmit temperature information, and at least one first area temperature measuring device And at least one second zone temperature measurement device installed in the second zone and transmitting the temperature information.

The building cooling / heating control device may calculate temperature information of the first area using the temperature information transmitted from the at least one first area temperature measuring device, And controls the at least one diffuser with respect to at least one of the first region and the second region according to the calculated temperature information.

Preferably, the at least one temperature measuring device includes a fixed temperature measuring device installed at a predetermined position in a predetermined area of the building to transmit temperature information within the predetermined area, And a movable temperature measuring device that is installed at an arbitrary position in the region and transmits position information and temperature information.

In another aspect of the present invention, there is provided a building cooling and heating control apparatus comprising: a data collection unit for receiving temperature information at an arbitrary position inside a building from at least one temperature measurement device; An air conditioner controller for controlling an air conditioner that supplies cold air to the inside of the building; A diffuser control unit for controlling at least one diffuser to diffuse the cold air supplied from the air conditioner into the building through one or more directional switches; And a cooling / heating control unit for controlling the air conditioner control unit and the diffuser control unit based on the temperature information collected by the data collection unit.

Preferably, the at least one diffuser includes a fixed diffuser having a plurality of directional switches corresponding to a plurality of directions, and the diffuser control unit controls the individual opening rates of the plurality of directional switches provided in the fixed diffuser And controls the cold / warm air to be diffused into the building.

Preferably, the at least one diffuser includes a rotatable diffuser having a directional switch rotatable by a predetermined angle, and the diffuser control unit controls the opening / closing direction, the opening ratio, and the opening / closing direction of the directional switch provided to the rotatable diffuser. And controlling the rotational speed to control the cold / warm air diffused into the building.

According to the present invention, a plurality of diffusers, which can control the air flow rate and the direction of the cold wind supplied from the air conditioner, are installed and controlled in the building, so that the temperature can be controlled in detail at any position in the building. It is possible to minimize the temperature deviation of each building area and location, and to efficiently use the energy consumed in heating and cooling.

According to the present invention, the temperature is measured at an arbitrary place in a building by using a mobile temperature measuring device that transmits temperature information and position information together, and based on this, the open / close direction and the opening rate of the diffuser are controlled This has the effect of optimally maintaining the indoor environment in various places in the building.

Further, according to the present invention, since the diffuser includes the plurality of directional switches corresponding to a plurality of directions or the directional switch that can be rotated at a predetermined angle, the effect of enabling efficient supply of the cold wind from the diffuser to a desired place in the building .

FIG. 1 is a view illustrating a conventional method for controlling a building air conditioner.
2 is a block diagram of a building air-conditioning control system according to an embodiment of the present invention.
3 is a schematic view illustrating a structure of a fixed type diffuser according to an embodiment of the present invention.
4 is a schematic view illustrating a structure of a rotary type diffuser according to an embodiment of the present invention.
FIG. 5 is a view illustrating a building air-conditioning control system according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention unnecessarily obscure.

2 is a block diagram of a building air-conditioning control system according to an embodiment of the present invention.

2, the building heating / cooling control system according to an embodiment of the present invention includes at least one temperature measuring device 10-1, 10-2, ..., 10-m, an air conditioner 20, The diffusers 30-1, 30-2, ..., 30-n of the building, and the building cooling and heating control device 100, and the like.

The temperature measuring devices 10-1, 10-2, ..., and 10-m measure the temperature at an arbitrary position in the building and transmit the temperature information to the building cooling / heating control device 100. [

The temperature measuring devices 10-1, 10-2, ..., and 10-m are fixed temperature measuring devices that are fixed to a wall, a column, a ceiling or the like in the building and transmit temperature information at the corresponding locations and / And can be implemented as a mobile temperature measuring device that can be moved to various places of a building and installed at a variable position in an arbitrary position and transmits temperature information and position information at the corresponding location together.

Fixed type temperature measuring devices are fixedly installed on walls, pillars, ceilings, and the like in a building or interior of a building. When a plurality of fixed temperature measuring devices are installed in a building, each fixed temperature measuring device Location and / or area of the building, and is managed in the building cooling / heating control apparatus 100. Accordingly, if the interior space of the building is divided into a plurality of areas (for example, first, second, third, and so on), the plurality of fixed temperature measuring devices may be classified according to their installation locations and / First, second, third ... areas).

On the other hand, since the mobile temperature measuring device is movable and is installed in a variable position arbitrarily in a building, it is not grouped into a specific area, and the temperature is measured in a position and / To the building cooling / heating control device (100).

The air conditioner 20 is installed in the inside of the building in a buried state and operates or regulates a heater, a cooler, a damper (duct opening rate), a static pressure (wind intensity) under the control of the building cooling and heating control device 100, Provide cold air. For reference, in the present invention, cold air is used to mean at least one of cold air and hot air.

The diffusers 30-1, 30-2, ..., 30-n are installed at regular intervals on a building ceiling to diffuse cold and warm air supplied from the air conditioner 20 into a building. Unlike the prior art, each of the diffusers 30-1, 30-2, ..., 30-n according to the present invention includes one or more directional switches, and the building heating and cooling control device 100 includes an individual diffuser 30-1, 30-2, ..., 30-n to control the opening direction and the opening ratio of the directional switches to control the wind direction and the air flow rate to the cold air supplied from the air conditioner 20, It is possible to control the amount of the cold air supplied to the predetermined position.

The diffuser according to the present invention may be implemented as a fixed diffuser and / or a rotatable diffuser, and FIGS. 3 and 4 schematically show the structure of a fixed diffuser and a rotatable diffuser according to an embodiment of the present invention, respectively.

3, the stationary diffuser includes a plurality of directional switches (first to fourth directional switches in FIG. 3) corresponding to a plurality of directions (first to fourth directions in FIG. 3) The building heating and cooling control apparatus 100 controls the individual opening rates of a plurality of directional switches provided in the fixed type diffusers to control the direction and direction of the cold and warm wind supplied to the room. For example, in FIG. 3, when the cold wind is to be supplied in the first direction, the opening ratio of the first directional switch is set to 100% and the opening rate of the second and fourth directional switches is set to 50% The opening ratio of the three-way switch is set to be 0% open so that the cold air diffused in the fixed diffuser is supplied in a large amount in the first direction.

4, the rotary type diffuser includes a directional switch capable of rotating at a predetermined angle (e.g., 120 degrees, 360 degrees), and the building heating / cooling control device 100 includes a directional switch provided in the rotary type diffuser, The opening rate, the rotation speed, and the like of the air conditioner to control the air direction and air amount of the cold / warm air supplied to the room. For example, in FIG. 4, when the cold wind is to be supplied in the first direction, the opening ratio of the directional switch is set to 100% open, the opening / closing direction is set to the first direction, So that the cold air diffused in the rotary diffuser is supplied in a large amount in the first direction.

2, the building air conditioner control apparatus 100 according to an embodiment of the present invention includes a data collecting unit 110, an air conditioner controller 120, a diffuser controller 130, a cooling and heating controller 140, (150), and the like.

The data collecting unit 110 receives temperature information at the corresponding position from at least one temperature measuring device 10-1, 10-2, ..., 10-m located at an arbitrary position in the building do. If the temperature measuring apparatus is a fixed temperature measuring apparatus, the data collecting unit 110 receives temperature information from the fixed temperature measuring apparatus and refers to the receiving path (e.g., port) (In this case, the identification information of the fixed temperature measuring apparatus can be used as the position information). If the temperature measuring apparatus is a mobile temperature measuring apparatus, the data collecting unit 110 receives the temperature information and the position information from the mobile temperature measuring apparatus, and matches the same with the fixed temperature measuring apparatus.

The data collecting unit 110 can collect outdoor temperature information from an outdoor temperature measuring device outside the building linked to the air conditioner 20 through the air conditioner 20. [

According to a preferred embodiment of the present invention, the data collecting unit 110 collects status information on the corresponding diffuser from at least one diffuser 30-1, 30-2, ..., 30-n Direction, and opening rate), respectively. In this case, alternatively, the data collecting unit 110 acquires control information (e.g., open / close directions) for at least one of the diffusers 30-1, 30-2, ..., 30-n from the diffuser control unit 130 , The opening ratio) can be replaced with the status information for the corresponding diffuser.

The air conditioner controller 140 controls the air conditioner and / or the diffuser control information according to an algorithm according to the present invention by using temperature information about an arbitrary position in the building, outside temperature information outside the building, and status information (control information) And controls the air conditioner control unit 120 and / or the diffuser control unit 130 to substantially control the air conditioner 20 and / or the diffusers 30-1, 30-2, ..., 30-n.

The cooling and heating control unit 140 generates the air conditioner control information using the temperature information of at least one temperature measuring device 10-1, 10-2, ..., 10-m collected through the data collecting unit 110 can do. For example, the heating and cooling control unit 140 averages the temperature information of at least one temperature measuring device 10-1, 10-2, ..., 10-m collected through the data collecting unit 110, (For example, averages of temperatures measured from a plurality of fixed and / or mobile temperature measuring devices are averaged to calculate an average temperature inside the building), and the calculated average temperature information is calculated for the building It is possible to generate the air conditioner control information by referring to the outside temperature information after comparing with the set temperature information.

The heating and cooling control unit 140 may control the temperature of the diffuser 130 using the temperature information of at least one temperature measuring device 10-1, 10-2, ..., 10-m collected through the data collecting unit 110, Information. For example, the heating / cooling control unit 140 compares the temperature information at an arbitrary position in the building with the average temperature information inside the building to calculate the temperature deviation. When the calculated temperature deviation exceeds the predetermined range (for example, When the temperature measured by the portable temperature measuring device shows a temperature deviation in excess of a predetermined threshold value with respect to an average temperature inside the building), it is possible to generate the diffuser control information for increasing or decreasing the cold wind supplied to the corresponding position.

On the other hand, if the inside space of the building is divided into a plurality of areas (for example, first, second, third, and so on), the air conditioner controller 140 according to the preferred embodiment of the present invention can control air conditioners by area.

Specifically, the cooling and heating control unit 140 groups the plurality of fixed temperature measuring devices according to their installation positions, and similarly groups a plurality of diffusers according to their installation positions. In this case, the cooling / heating control unit 140 calculates the average temperature information inside the building by averaging the temperature information collected from the plurality of fixed temperature measuring devices, and also calculates the average temperature information per area by averaging the temperature information (For example, the average temperature of the first region is calculated by averaging the temperatures measured by the at least one first region temperature measuring device provided at a predetermined position in the first region, and the average temperature of the at least one And the average temperature of the second region is calculated by averaging the respective measured temperatures from the second region temperature measuring device).

The cooling / heating control unit 140 refers to the location information transmitted from the mobile temperature measurement device to determine which area the mobile temperature measurement device is currently located in, and determines the temperature, which is transmitted from the mobile temperature measurement device, (For example, when the mobile temperature measuring device is currently located in the first area, the temperature of the at least one fixed temperature measuring device installed in the first area and the temperature of the mobile temperature measuring device may be calculated Is averaged to calculate the average temperature of the first region).

The cooling / heating controller 140 may compare the average temperature information within the building with the preset temperature information about the building, and then generate the air conditioner control information referring to the outside temperature information.

In addition, the cooling / heating control unit 140 compares the average temperature information of each area with the average temperature information inside the building to calculate a temperature deviation for each area. When the temperature deviation of an arbitrary area exceeds a predetermined range (for example, If the average temperature of the area shows a deviation in excess of a predetermined threshold value with respect to the average temperature inside the building), it is possible to generate the diffuser control information to increase or decrease the cold wind supplied to the area.

The air conditioner control unit 120 and the diffuser control unit 130 receive the air conditioner control information and the diffuser control information transmitted from the cooling and heating control unit 140 and output the air conditioner control information and the diffuser control information to the air conditioner 20 and the diffusers 30-1, ., 30-n.

That is, the air conditioner control unit 120 controls the heater, the cooler, the damper, the static pressure, etc. of the air conditioner 20 according to the air conditioner control information, and controls the air flow rate and wind speed of the cold air supplied from the air conditioner.

The diffuser control unit 130 controls the directional switches individually for at least one of the diffusers 30-1, 30-2, ..., 30-n according to the diffuser control information, By controlling the opening rate, the cold / hot air supplied from the air conditioner is supplied in a large amount or minimized, thereby minimizing the temperature variation in each building area and location inside the building (refer to FIG. 5).

The monitoring unit 150 provides a user interface (UI) that can be interlocked with the heating and cooling control unit 140 to show the user the heating and cooling state of the building and can directly control the air conditioner and the diffuser.

Meanwhile, according to the preferred embodiment of the present invention, the building cooling / heating control apparatus 100 may be implemented as two or more devices interlocked with each other.

For example, the data collection unit 110, the air conditioner control unit 120, and the diffuser control unit 130 are implemented as a fixed type device installed in the building, and the cooling and heating control unit 140 and the monitoring unit 150 are implemented as a portable type Device. Alternatively, the data collection unit 110, the air conditioner control unit 120, and the diffuser control unit 130 may be implemented as a fixed device installed in the building, and the air conditioning control unit 140 and the monitoring unit 150 may be implemented as a cloud server . ≪ / RTI >

In this case, there is a modbus TCP between the data collecting unit 110 and at least one temperature measuring device 10-1, 10-2, ..., 10-m and between the air conditioner control unit 120 and the air conditioner 20. [ Protocol and a Modbus RTU (e.g., RS-485, RS-232C) protocol is used between the diffuser controller 130 and at least one diffuser 30-1, 30-2, ..., So that communication can be performed.

The transmission is stably performed between the data collecting unit 110, the air conditioner control unit 120, the diffuser control unit 130, the air conditioner control unit 140, and the monitoring unit 150, which are implemented as a fixed device, And can communicate through the Message Queuing Telemetry Transport (MQTT) protocol, which is an Internet application protocol.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. ≪ / RTI > are to be understood in all respects only as illustrative and not restrictive.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. .

Claims (12)

As a building heating / cooling control system,
At least one temperature measuring device for transmitting temperature information of a certain area inside the building;
An air conditioner for supplying cold air into the building;
At least one diffuser each having at least one directional switch for diffusing cold air supplied from the air conditioner into the building; And
And a building cooling and heating control device for controlling the air conditioner and the at least one diffuser based on temperature information measured by the at least one temperature measuring device. The method according to claim 1,
Wherein the at least one temperature measuring device comprises at least one first area temperature measuring device installed in a first area inside the building and at least one second area temperature measuring device installed in a second area inside the building ,
Wherein the building cooling and heating control device controls the at least one diffuser according to each area based on temperature information measured by a temperature measuring device installed in at least one of the first area and the second area. system. 3. The method of claim 2,
Wherein the building cooling / heating control device is configured to control the heating / cooling control device based on the temperature information of the first area calculated using the temperature information of the at least one first area temperature measuring device and the temperature information of the at least one second area temperature measuring device Wherein the control unit controls the at least one diffuser with respect to at least one of the first area and the second area according to the temperature information of the second area. The method of claim 3,
Wherein the temperature information of the first region is an average of temperature information transmitted from the at least one first region temperature measuring device and the temperature information of the second region is temperature information transmitted from the at least one second region temperature measuring device Of the building cooling / heating control system. 5. The method according to any one of claims 1 to 4,
Wherein the at least one temperature measuring device includes a fixed temperature measuring device installed at a predetermined position within a predetermined area of the building and transmitting temperature information within the predetermined area. 6. The method of claim 5,
Wherein the at least one temperature measuring device further comprises a mobile temperature measuring device that is installed at an arbitrary position within the predetermined area and transmits position information and temperature information in order to change an average temperature within the predetermined area, Building heating and cooling control system. The method according to claim 1,
Wherein the at least one diffuser comprises at least one of a fixed diffuser having a plurality of directional switches corresponding to a plurality of directions and a rotary diffuser having a directional switch rotatable at a predetermined angle, system. A building heating /
A data collecting unit for receiving temperature information at an arbitrary position inside the building from at least one temperature measuring device; And
An air conditioner for supplying cold air to the inside of the building based on the temperature information collected by the data collecting unit, and at least one diffuser for diffusing the cold air supplied from the air conditioner into the building through one or more directional switches And a cooling / heating control unit for controlling the cooling / heating of the building. 9. The method of claim 8,
Wherein the at least one temperature measuring device comprises at least one first area temperature measuring device installed in a first area inside the building and at least one second area temperature measuring device installed in a second area inside the building ,
Wherein the cooling / heating control unit controls the at least one diffuser according to each area based on temperature information measured by a temperature measuring device installed in at least one of the first area and the second area. 10. The method of claim 9,
Wherein the cooling and heating control unit calculates the temperature information of the first region by averaging the temperature information of the at least one first region temperature measuring apparatus and averages the temperature information of the at least one second region temperature measuring apparatus, And controls the at least one diffuser with respect to at least one of the first area and the second area according to the calculated temperature information. 11. The method of claim 10,
Wherein the at least one temperature measuring device further comprises a mobile temperature measuring device installed at a predetermined position in a predetermined area of the building to transmit position information and temperature information,
The cooling / heating control unit determines the area where the mobile temperature measurement device is located by referring to the location information of the mobile temperature measurement device, and calculates the temperature information of the area where the mobile temperature measurement device is located based on the temperature information of the mobile temperature measurement device Wherein the control unit is configured to control the heating of the building. The method according to any one of claims 8 to 11,
Wherein the at least one diffuser includes at least one of a fixed diffuser having a plurality of directional switches corresponding to a plurality of directions and a rotary diffuser having a directional switch rotatable at a predetermined angle,
The cooling / heating control unit controls the individual opening rates of the plurality of directional switches provided in the fixed type diffuser or controls the opening / closing direction, the opening rate, and the rotating speed of the directional switch provided in the rotary type diffuser, Wherein the control unit controls the cold / warm air to be supplied to the building.

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