KR102209896B1 - Air-conditioning System For Face Of Wall - Google Patents

Abstract

According to an embodiment of the present invention, a wall-greening air conditioning system includes: a wall-greening panel (100) including greening plants for wall-greening; an air circulation part (200) supplying air to the wall-greening panel (100); a water supply part (300) supplying water to the wall-greening panel (100); a sensing part (400) sensing the temperature and humidity of surroundings of the wall-greening panel (100); and a control part (500) controlling the air circulation part (200), the water supply part (300) and the sensing part (400). As the wall-greening panel (100) has a water flow passage where water flows in a predetermined direction, the water supplied by the water supply part (300) is supplied to the greening plants, and then is moved to the water supply part (300) to be stored therein. Therefore, the present invention is capable of reducing fine dust by supplying water and air to a greening panel.

Description

Air-conditioning System For Face Of Wall}

The content disclosed in the present specification relates to an air conditioning system, and more specifically, to a wall greening air conditioning system that supplies moisture and circulates air to a wall greening panel equipped with a greening plant for wall greening.

In general, eco-friendly planning, construction, and management are required when constructing structures in relation to three-dimensional greening in urban areas, and ecological parks, artificial wetlands, artificial ground greening, elevations and balcony greening of structures are being promoted as such means. .

Particularly, in the case of structures such as rooftops and apartments as greening of structures in the city, partial wall greening methods have been developed by installing separate vegetation ports on the walls of the structures, and balcony greening in which a flower bed is separately formed on the balcony. Therefore, various methods to satisfy residents' willingness to secure green space due to lack of green space in urban areas are being implemented under various legal supplements.

Among them, the rooftop greening method of the structure is most actively implemented, and is applied to a number of urban structures, and a method of separately forming a space for a separate greening space not only on the rooftop but also on the intermediate floor is spreading.

In order to continuously maintain such a greening wall, water and nutrients necessary for plant growth must be continuously supplied, which is solved by providing an irrigation system. The irrigation system is configured to smoothly supply water, nutrients, etc. through an appropriately piped irrigation pipe, and the irrigation pipe is usually installed to be exposed to the outside.

This conventional method has a problem in that a long period of time is required for the wall recording of a certain area, and it must be individually managed manually.

KR 101472023 B1 KR 100653790 B1

The disclosed content is to provide a wall recording air conditioning system that not only operates the wall recording smoothly when recording the wall, but also supplies moisture to the green panel and circulates air based on the detection of ambient temperature and humidity. There is this.

A wall recording air conditioning system according to an embodiment of the present disclosure for solving the above problems,

Wall recording panel 100 provided with green plants for wall recording; An air circulation unit 200 supplying air to the wall recording panel 100; A water supply unit 300 supplying water to the wall recording panel 100; A sensing unit 400 for sensing temperature and humidity around the wall recording panel 100; And a control unit 500 for controlling the air circulation unit 200, the water supply unit 300, and the sensing unit 400. Including,

The wall recording panel 100 has a water flow passage through which water is moved in a predetermined direction, and the water supplied by the water supply unit 300 is supplied to the green plants and then returned to the water supply unit 300. It may be configured to be moved and stored.

In addition, the air circulation unit 200 includes an air inlet module 210 for introducing air, an air temperature control module 220 for adjusting the temperature of the introduced air, and an air injection module for injecting the air whose temperature is adjusted. Consisting of 230,

The control unit 500 may be configured by controlling a temperature of air supplied by the air circulation unit 200 based on temperature data sensed by the sensing unit 400.

In addition, the water supply unit 300 includes a water supply storage module 310 in which water is stored, a pump module 320 for transporting the stored water to a predetermined position, and a water spray module 330 for spraying the transferred water. Including,

The control unit 500 may be configured by controlling the amount of water provided by the water supply unit 300 based on the humidity data sensed by the sensing unit 400.

In addition, the detection unit 400 further includes a fine dust detection module 430 for detecting fine dust,

The control unit 500 may be configured to operate the air circulation unit 200 and the water supply unit 300 based on the fine dust data detected by the detection unit 400.

In addition, further comprising a smart terminal 600 connected to the control unit 500 and wired or wirelessly to exchange data,

The smart terminal 600 may be configured with an application capable of monitoring based on the data.

According to embodiments, the wall recording air conditioning system according to the present disclosure provides a function of supplying water and air to the wall recording panel 100 based on the detection of ambient temperature and humidity during wall recording.

In addition, the wall greening air conditioning system according to the present disclosure has an advantage that water can be efficiently supplied by allowing a part of water supplied by the water supply unit 300 to be stored in the water supply unit 300 again.

In addition, the wall recording air conditioning system according to the present disclosure provides a function that can be monitored by the smart terminal 600 so that a user can remotely monitor the air conditioning system.

In addition, the air conditioning system according to the present disclosure detects fine dust and manages power based thereon, and automatically supplies water and air to the greening panel in a predetermined situation to reduce the surrounding fine dust.

1 is a conceptual diagram schematically showing a wall recording air conditioning system according to the present disclosure.
2 is a block diagram schematically showing the configuration of the wall recording panel 100 and the air circulation unit 200 according to the present disclosure.
3 is a block diagram schematically showing the configuration of the water supply unit 300 and the detection unit 400 according to the present disclosure.
4 is a block diagram schematically showing the configuration of the control unit 500 according to the present disclosure.
5 is a view showing an embodiment of a wall recording air conditioning system according to the present disclosure.

Hereinafter, the technical idea of the present invention will be described with reference to the drawings, but this is for easier understanding, and the scope of the present invention is not limited thereto, and the present invention is only defined by the scope of the claims.

In describing an embodiment of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted, and the same reference numerals are the same throughout the specification. Refers to the element.

1 is a conceptual diagram schematically showing a wall recording air conditioning system according to the present disclosure, FIG. 2 is a block diagram schematically showing the configuration of a wall recording panel 100 and an air circulation unit 200 according to the present disclosure, and FIG. 3 is A block diagram schematically showing the configuration of the water supply unit 300 and the detection unit 400 according to the disclosure, FIG. 4 is a block diagram schematically showing the configuration of the control unit 500 according to the present disclosure, and FIG. 5 is A diagram showing an embodiment of a wall greening air conditioning system.

<Wall greening air conditioning system according to this disclosure>

1 to 4, a wall recording air conditioning system according to an embodiment of the present disclosure includes a wall recording panel 100, an air circulation unit 200, a water supply unit 300, a sensing unit 400, and a control unit 500. ) Can be included.

The wall recording panel 100 is installed on a wall recording object, and as shown in FIG. 2A, the panel body 110, at least one storage frame 120 coupled to the panel body 110 And it may be configured to include a communication module 140 that can send and receive data.

The storage frame 120 has a space for storing green plants for wall recording, and may be configured to be detachably coupled to the panel body 110.

The panel body 110 may be provided with an air flow passage through which air can move, and when the storage frame 120 is coupled to the panel body 110, the air flow passage is attached to the storage frame 120 It may be configured to supply air to the housed green plants.

In addition, the panel body 110 may be provided with a water flow passage through which water can move, and when the storage frame 120 is coupled to the panel body 110, the storage frame 120 ) May be configured to supply water to the green plants housed in).

Meanwhile, the water flow passage may be configured to move water in a predetermined direction. For example, the water flow passage may be formed to have a certain slope in a predetermined direction, so that water supplied to the wall recording panel 100 is left. It may be configured to move in a direction or in a right direction and then eventually fall in a downward direction.

A water supply unit 300, which will be described later, may be installed at a predetermined interval in the downward direction of the wall recording panel 100, and accordingly, water supplied by the water supply unit 300 may be supplied to the wall recording panel 100. After being watered in the green plant of ), it may be configured to be moved downward and stored in the water supply unit 300 again. This has the advantage that water can be efficiently used by minimizing wasted water after water supply.

On the other hand, the wall recording panel 100 may further include an operation module 130, the operation module 130 is controlled by a control unit 500 to be described later, the storage by the operation module 130 The frame 120 may be configured to be automatically moved and attached to or detached from the panel body 110.

A conveyor belt may be used as the operation module 130, but is not limited thereto, and may be configured in various ways as necessary.

Accordingly, even if the wall recording panel 100 is installed out of reach of humans, it is possible to replace the storage frame 120 through the operation module 130, thereby enabling easy management.

The air circulation unit 200 supplies air to the wall recording panel 100, and as shown in FIG. 2(b), an air inlet module 210, an air temperature control module 220, and air injection It may be configured to include a module 230 and a communication module 240 capable of exchanging data.

The air inlet module 210 is for inhaling external air, and it is preferable to use an air pump as the air inlet module 210, but is not limited thereto, and may be configured using one or more suction fans.

The air temperature control module 220 is for adjusting the temperature of air introduced by the air inlet module 210, and preferably, a heat exchanger is used, but the present invention is not limited thereto, and may be configured using a hot wire. The air temperature control module 220 may be configured to have a temperature sensor therein to be controlled by a controller 500 to be described later based on data of the temperature sensor.

The air injection module 230 injects the air whose temperature is adjusted to the wall recording panel 100, and the air injection module 230 may include an air flow sensor and an air injection valve, The air injection valve may be configured to be controlled by a controller 500 to be described later based on the air flow sensor.

The air supplied by the air circulation unit 200 is supplied to the green plants accommodated in the storage frame 120 by moving the air flow passage of the panel body 110 described above.

The water supply unit 300 supplies water to the wall recording panel 100, and as shown in FIG. 3A, the water supply storage module 310, the pump module 320, and the water spray module 330 ) And a communication module 340 capable of exchanging data.

The water supply storage module 310 is for storing water supplied to the wall recording panel 100, and it is preferable to use a storage tank, but is not limited thereto, and may be configured using a water tank as necessary.

The water supply storage module 310 may be installed at least one spaced apart at a predetermined interval in the downward direction of the above-described wall recording panel 100, and is supplied by the water supply unit 300 through the water flow passage. After water is supplied to the greening plants of the wall recording panel 100, it may be configured to be moved downward and stored again in the water supply storage module 310. To this end, the water supply storage module 310 is configured such that the upper surface is completely open, or a part of the upper surface is opened and the remaining part is formed to be inclined toward the open part, so that water passes through the open part along the slope and is inside. It can be configured to be stored.

The pump module 320 is for transporting the water stored in the water supply storage module 310 to a predetermined position, and in detail, the pump module 320 is located under the wall recording panel 100. It may be configured to lift the water stored in the water supply storage module 310 upward. The pump module 320 may be miniaturized using a DC motor pump, but is not limited thereto, and may be configured in a large size using an AC motor pump.

Meanwhile, the pump module 320 may further include a speed control unit controlled by a control unit 500 to be described later, and may be configured to adjust the speed of the pump module 320 by the speed control unit.

The water spray module 330 is for spraying the water transferred by the pump module 320, and the water spray module 330 may include a water flow sensor and a water spray valve. The injection valve may be configured to be controlled by a control unit 500 to be described later based on the water flow sensor.

The water supplied by the water supply unit 300 is supplied to the green plants accommodated in the storage frame 120 by moving the water flow passage of the panel body 110 described above.

The sensing unit 400 is for sensing the temperature and humidity around the wall recording panel 100, and as shown in FIG. 3(b), a temperature sensing module 410, a humidity sensing module 420, and It may be configured to include a communication module 440 capable of exchanging data.

The temperature around the wall recording panel 100 is sensed by the temperature sensing module 410, and the sensed temperature data is transmitted to the controller 500 to be described later through the communication module 440, and the transmitted The air circulation unit 200 and the water supply unit 300 described above may be controlled by the control unit 500 based on temperature data.

For example, when the temperature sensed by the temperature sensing module 410 is below a predetermined temperature, the controller 500 controls the air temperature control module 220 to be supplied to the wall recording panel 100. It can be configured to control the temperature of the air.

Humidity around the wall recording panel 100 is sensed by the humidity detection module 420, and the sensed humidity data is transmitted to the control unit 500 to be described later through the communication module 440, and the transmitted The air circulation unit 200 and the water supply unit 300 described above may be controlled by the control unit 500 based on the humidity data.

For example, when the humidity sensed by the humidity detection module 420 is less than a predetermined humidity, the controller 500 controls the water spray module 330 described above to reduce the amount of water supplied to the wall recording panel 100. It can be configured to control the amount.

Meanwhile, the detection unit 400 may further include a fine dust detection module 430 for detecting fine dust, and fine dust around the wall recording panel 100 is removed by the fine dust detection module 430. The detected and sensed fine dust data is transmitted to the control unit 500 to be described later through the communication module 440, and the air circulation unit described above by the control unit 500 based on the transmitted fine dust data ( 200) and the water supply unit 300 described above may be configured to be controlled.

For example, when the fine dust detected by the fine dust detection module 430 is greater than or equal to a predetermined numerical value, the control unit 500 is configured to operate the air circulation unit 200 and the water supply unit 300 Can be. Accordingly, there is an advantage in that it is possible to reduce the fine dust around by using green plants.

The control unit 500 is connected to the air circulation unit 200, the water supply unit 300, and the sensing unit 400 by wire or wirelessly to control the power management module 510 as shown in FIG. ), a data storage module 520, a PLC module 530, and a communication module 540 capable of exchanging data.

The power management module 510 includes a first power unit connected to an external power source to supply power to the system according to the present disclosure, and a second power unit supplying power by at least one battery separate from the first power unit. It may be configured to include, and the battery of the second power unit may be configured to be rechargeable in a mounted state.

Meanwhile, in order to charge the battery of the second power unit, the power management module 510 may further include an optical charging unit. Accordingly, there is an advantage in that the power can be efficiently managed by charging the second power unit using sunlight during the day and using it at night.

The data storage module 520 may be configured to store data transmitted through the communication module into DB.

The PLC module 530 is for controlling the air circulation unit 200, the water supply unit 300, and the detection unit 400 using a programmable logic controller device.

To describe the PLC module 530 in relation to the wall recording panel 100,

When the above-described operation module 130 is included in the wall recording panel 100, the PLC module 530 can operate the operation module 130 by receiving a predetermined input signal. The storage frame 120 may be moved and attached to the panel body 110, or the storage frame 120 may be configured to be detached from and moved from the panel body 110.

To describe the PLC module 530 in relation to the air circulation unit 200,

The PLC module 530 receives the temperature data measured by the temperature detection module 410 of the detection unit 400 and, when the temperature is less than a predetermined temperature, operates the air temperature control module 220 described above. The air circulation unit 200 may be configured to adjust the temperature of air supplied to the wall recording panel 100.

In addition, the PLC module 530 may be configured to receive data from the air flow sensor of the air injection module 230 and control the air injection valve of the air injection module 230 based on this. For example, if the reference air flow rate of air injection supplied to the wall recording panel 100 is set in advance and the data transmitted from the air flow rate sensor of the air injection module 230 is compared with the reference air flow rate, The air injection valve may be further opened to increase the air flow rate, and when the air injection valve is high, the air flow rate may be lowered by closing the air injection valve to reach the reference air flow rate.

To describe the PLC module 530 in relation to the water supply unit 300,

The PLC module 530 receives the humidity data measured by the humidity detection module 420 of the detection unit 400, and when the humidity is less than a predetermined humidity, the speed control unit of the pump module 320 It may be configured to control the amount of water supplied to the wall recording panel 100 by the water supply unit 300.

In addition, the PLC module 530 may be configured to receive data from the water flow sensor of the water spray module 330 and control the water spray valve of the water spray module 330 based on this. For example, if a reference water flow amount of water spray supplied to the wall recording panel 100 is set in advance and the data transmitted from the water flow sensor of the water spray module 330 is compared with the reference water flow amount, The speed control unit of the pump module 320 is controlled and the water injection valve is further opened to increase the amount of water flow, and when it is high, the speed control unit of the pump module 320 is controlled and the water injection valve is closed to reduce the water flow amount. It may be configured to lower and reach the reference water flow amount.

To further describe the PLC module 530 in relation to the sensing unit 400,

The PLC module 530 receives the fine dust data sensed by the fine dust detection module 430 of the detection unit 400, and when it is equal to or greater than a predetermined value of fine dust, the above-described air circulation unit 200 And it may be configured to reduce the fine dust around by operating the above-described water supply.

To describe the PLC module 530 in relation to the power management module 510 of the control unit 500,

The PLC module 530 may control so that only the first power unit is operated, the first power unit and the second power unit are operated together, or only the second power unit is operated according to a predetermined situation. For example, during a preset day time, only the first power unit is operated to supply power, and the second power unit may be configured to be charged through the above-described optical charging unit, and during a preset night time, the first power unit It may be configured to supply power by operating the power unit and the second power unit charged during the daytime together. Meanwhile, in case of an emergency situation in which external power is cut off, it may be configured to supply power only with the second power unit.

Additionally, the PLC module 530 may be configured to perform a fault diagnosis of the wall recording air conditioning system according to the present disclosure to smoothly operate the system.

For example, the PLC module 530 may be configured to perform fault diagnosis in the following manner.

a) First, when the water flow amount supplied to the wall recording panel 100 by the water supply unit 300 is a preset normal water flow, it is normally processed, and when the water flow is abnormal, it may be configured to detect an abnormal factor.

b) In this case, the abnormal factors are the control unit 500 and the water supply unit 300.

c) And, the abnormality factor estimates whether the control unit 500 is an abnormality factor by the following [Equation 1], and when the estimated value Xt of [Equation 1] is equal to or greater than a preset value, the control unit 500 Is determined as an abnormal factor, and if less than the water supply unit 300 is sequentially determined as an abnormal factor.

[Equation 1]

Xt = γ1Xt-1 + γ2Xt-2 + ... + γpXt-p + ζt-δt-1ζt-1-...-δqζt-q

(Where Xt is the degree of influence of the current control unit 500, Xt-p is the degree of surface cleanliness of the current control unit 500, the degree of influence of each component factor of the control unit 500 including the surface condition, and γ is the degree of influence of the control unit 500 The correlation between the influence of each component factor, ζ is the error between the moving average of the influence of each component factor of the control unit 500 and the Xt-p, and δ is the influence of the control unit 500 of the ζ)

d) And, the moving average section of [Equation 1] is a moving average calculated according to [Equation 2] below from a preset reference moving average section value when the current wear degree of the controller 500 in use is less than a preset value. Set shortening by subtracting by the section value.

On the other hand, in the moving average section of [Equation 1], when the current wear degree of the controller 500 in use is greater than a preset value, the moving average section value calculated according to [Equation 2] below from the reference moving average section value The height is set by adding as much.

[Equation 2]

Moving average section = [{(current wear-preset wear)/preset unit wear difference value} × preset unit moving average section]

Meanwhile, the wall recording air conditioning system according to the present disclosure may further include a smart terminal 600 connected to the control unit 500 to monitor the system.

The smart terminal 600 may be connected to the controller 500 by wire or wirelessly to exchange data, and based on this, an application capable of monitoring the system in the smart terminal 600 may be provided.

It is preferable to use a smartphone as the smart terminal 600, but is not limited thereto, and of course, a desktop PC, a notebook PC, a tablet PC, etc. may be used as necessary.

Although it has been described with reference to the drawings according to the embodiments of the present disclosure, it is possible for those of ordinary skill in the art to perform various applications, modifications, and adaptations within the scope of the present invention based on the above contents. will be.

1000: wall greening air conditioning system according to the present disclosure
100: wall recording panel 110: panel body
120: storage frame 130: operation module
140: communication module 200: air circulation unit
210: air inlet module 220: air temperature control module
230: air injection module 240: communication module
300: water supply unit 310: water supply storage module
320: pump module 330: water injection module
340: communication module 400: detection unit
410: temperature detection module 420: humidity detection module
430: fine dust detection module 440: communication module
500: control unit 510: power management module
520: data storage module 530: PLC module
540: communication module 600: smart terminal

Claims (1)

Wall recording panel 100 provided with green plants for wall recording;
An air circulation unit 200 supplying air to the wall recording panel 100;
A water supply unit 300 supplying water to the wall recording panel 100;
A sensing unit 400 for sensing temperature and humidity around the wall recording panel 100; And
Includes a control unit 500 for controlling the air circulation unit 200, the water supply unit 300, and the sensing unit 400,
The wall recording panel 100 has a water flow passage through which water is moved in a predetermined direction, and the water supplied by the water supply unit 300 is supplied to the green plants and then returned to the water supply unit 300. Moved and saved,
The control unit 500 controls the air circulation unit 200, the water supply unit 300, and the detection unit 400 by wired or wireless connection, and a power management module 510 and a data storage module 520 , A PLC module 530 and a communication module 540 capable of exchanging data,
The water supply unit 300 includes a water supply storage module 310 in which water is stored, a pump module 320 for transferring the stored water to a predetermined position, and a water spray module 330 for spraying the transferred water. Composed,
The control unit 500 adjusts the amount of water provided by the water supply unit 300 based on the humidity data sensed by the detection unit 400,
The controller 500 receives data from the water flow sensor of the water spray module 330 and controls the water spray valve of the water spray module 330, and sprays water supplied to the wall recording panel 100. When a reference water flow amount is set in advance and the data transmitted from the water flow sensor of the water injection module 330 is compared with the reference water flow amount, when it is low, the speed control unit of the pump module 320 is controlled and the water injection valve Open further to increase the water flow amount, and if it is high, control the speed control unit of the pump module 320 and close the water injection valve to lower the water flow amount to reach the reference water flow amount,
The control unit 500 receives the fine dust data sensed by the fine dust detection module 430 of the detection unit 400, and when it is equal to or greater than a predetermined value of fine dust, the above-described air circulation unit 200 and The above-described water supply unit is operated to reduce the surrounding fine dust, and the power management module 510 includes a first power unit connected to an external power source to supply power, and a second power unit supplying power by a battery. It is configured, and the battery of the second power unit is supplied by generating power by sunlight,
The controller 500 is controlled so that only the first power unit is operated, the first power unit and the second power unit are operated together, or only the second power unit is operated, and only the first power unit is operated during the day. Power is supplied by operation, and the second power unit is charged by the solar charging unit described above, and when external power is cut off, power is supplied to the second power unit.
The air circulation unit 200 includes an air inlet module 210 for introducing air, an air temperature control module 220 for adjusting the temperature of the introduced air, and an air injection module 230 for injecting the air whose temperature is adjusted. ), and the control unit 500 controls the temperature of the air supplied by the air circulation unit 200 based on the temperature data sensed by the sensing unit 400. Air conditioning system.

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