KR101376331B1 - A system for cooling of spray fog using different temperatures per cell area - Google Patents

Abstract

The present invention relates to a spray cooling system using different temperatures by cell areas and, more specifically, to a spray cooling system using different temperatures by cell areas to individually cool cell areas by spraying water through individual control corresponding to the temperature and humidity of each cell area of an outdoor space. To achieve this, the present invention comprises a plurality of injection nozzles on a pipe; a solenoid valve installed on each injection nozzle to control the opening and closing operation of the injection nozzles for spraying water; a water supplier for supplying water to the pipe on which the injection nozzles are installed; a spraying pressure part between the water supplier and the pipe; a plurality of sensors for individually sensing the temperature and the humidity of each cell area; and a control device for controlling the operation of the solenoid valve. [Reference numerals] (130) Water supply part(water supply or water tank); (140) Spray pressure part; (141) Pump(motor); (150) Sensor part; (160) Control device; (AA) Water + Spray pressure; (BB) Solenoid valve control; (CC) Pressure control

Description

Spray cooling system using different temperature by cell area {A SYSTEM FOR COOLING OF SPRAY FOG USING DIFFERENT TEMPERATURES PER CELL AREA}

The present invention relates to a spray cooling system using different temperatures for each cell region. More specifically, the present invention relates to a spray cooling system using a different temperature. The present invention relates to a cell space divided by cell units. The present invention relates to a spray cooling system using different temperatures for each cell region to enable cooling operation of water spray for each cell region through zone-specific control corresponding thereto.

In general, the heat island has a significantly higher temperature in the center of the city than in the surrounding area due to population increase, increase of various artificial facilities, increase of concrete covering, increase of automobile traffic, emission of artificial heat, It refers to the phenomenon that appears. In other words, the densely populated urban areas generally have a higher temperature than other regions, and it is known that the urban climate has a distinct phenomenon different from the surrounding area. In 1927, Austrian meteorologist W. Schmidt, After examining the temperature distribution, it is confirmed that the temperature goes up toward the city center.

In urban areas, changes in surface heating due to increase in buildings, pavement roads, artificial heat due to fuel consumption, increase in emission of pollutants, greenhouse effect caused by air pollutants covering the city, high-rise buildings in the city center, And the fact that it is difficult to make the heat island phenomenon. The surface covered with buildings, roads, and concrete absorbs and stores more solar heat than earth, including moisture, and acts as a reflector that reflects solar energy.

In recent years, as a countermeasure for the heat island phenomenon, a cooling system has been employed in which a spray nozzle is installed on a pillar near a pavilion or a facility, and the surrounding air temperature is lowered by spraying from the spray nozzle.

1 is a view showing the configuration of a conventional spray cooling system, Figure 2 is a view showing the configuration of another example of a conventional spray cooling system. FIG. 1 is an example of a conventional spray cooling system, in which one nozzle is controlled by one control so that the whole has on / off function, and a plurality of nozzles 12 are provided in a single space. This installed pipe 11 is installed, and is composed of one pump 13, one sensor 14, and a control device 15. FIG. 2 is another example of the conventional spray cooling system, in which a plurality of spaces are separated and a plurality of nozzles 22 are provided in a plurality of spaces. Each of the installed pipes 21 is installed, and a small pump 23 is individually assigned to the pipes 21 installed in the respective spaces, and a plurality of sensors 24 and a control device for sensing temperature and humidity for each space. It consists of 25.

As described above, the conventional spray cooling system of the on / off control of the entire space is difficult to control the individual zones, which is a problem that the same water spray is made even if the degree of moisture damages the product in each zone. In addition, the conventional spray cooling system in which a plurality of small pumps are applied to individually control a plurality of spaces has a disadvantage of increasing the number of pumps and controls. This can be a problem that causes not only the difficulty of installation, but also increases the cost. On the other hand, Japanese Patent Laid-Open No. 2008-275304 discloses a three-dimensional area cooling system for relieving heat island phenomenon as a prior patent. These prior patents have proposed a method of controlling the stop and spray direction of spray according to the wind speed and the wind direction.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, by allocating n injection nozzles in which a solenoid valve is installed in a cell region in which the entire open space of the open space is divided into cells. It is an object of the present invention to provide a spray cooling system using different temperatures for each cell region, which enables cooling operation of water spray for each cell region through zone-specific control corresponding to temperature and humidity of each cell region.

In addition, the present invention, by controlling the opening and closing drive of the solenoid valve of the injection nozzle assigned to each cell area to enable the drive control for each cell area, it is possible to individually correspond to each cell area without increasing the pump and control as in the prior art Another object of the present invention is to provide a spray cooling system using different temperatures for each cell region, thereby improving convenience of installation and management range.

Spray cooling system using a different temperature for each cell region according to a feature of the present invention for achieving the above object,

A spray cooling system using different temperatures for each cell area,

A plurality of spray nozzles installed on a pipe which is installed at a height that does not interfere with a traffic of a person on a ceiling or a wall of a building provided with an open space through which a person passes;

A solenoid valve installed at each of the plurality of injection nozzles to control an opening / closing drive for spraying water of the injection nozzles;

A water supply unit for supplying water for spraying to a pipe provided with the plurality of injection nozzles;

A spraying pressure portion provided between the water supply portion and the piping to provide a spraying pressure for water spraying;

A plurality of sensor units for individually sensing the temperature and humidity of an individual cell area formed by tying a plurality of injection nozzles installed in the pipe into n pieces; And

The solenoid valve controls the driving for generating the spray pressure of the spray pressure unit, and sprays water only at the spray nozzles of the corresponding individual cell regions based on the temperature and humidity of the individual cell regions detected by the plurality of sensor units. It is characterized by its configuration to include a control unit for controlling the driving of the.

Preferably, the piping includes:

It can be composed of high pressure pipes made of nylon and stainless steel.

Preferably, the plurality of injection nozzles,

Arranged at a specific interval along the longitudinal direction of the pipe, the 10 injection nozzles installed in the pipe is assigned to one cell area can be individually driven according to the zone-specific control of the control unit.

Preferably, the injection nozzle is a nozzle,

People passing through the open space can spray water fog having an average particle diameter of 20 to 30 microns, which does not get wet and can lower the temperature through the heat of vaporization without causing inconvenience.

Advantageously,

Under the drive control of the said control apparatus part, it can comprise with the pump provided with the motor which can generate the spray pressure of the water supplied to the said piping.

Preferably, the control unit may include:

The total space in which the pipes with the plurality of injection nozzles installed are constructed is divided into a plurality of individual cell areas, and each individual cell area is composed of a combination of ten injection nozzles having a solenoid valve and one sensor unit. Based on the sensed temperature and humidity of the sensor units allocated to the individual cell regions, the driving control for each unit of each cell region may be performed.

More preferably, the control device unit,

A lower limit temperature of 25 degrees and an upper limit of humidity of 90% may be set and managed as an operating condition of water spray of the spray nozzle, but when the upper limit of humidity exceeds 90%, the corresponding solenoid valve may be turned off to stop the water spray operation of the spray nozzle. .

According to the spray cooling system using different temperatures for each cell region proposed by the present invention, a plurality of spray nozzles provided with solenoid valves are assigned to the cell region in which the entire outdoor space in which the open space is provided is divided in units of cells, and assigned to each of n, Zone-specific control corresponding to the temperature and humidity of the cell region may enable cooling operation of water spray for each cell region.

In addition, according to the present invention, by controlling the opening and closing operation of the solenoid valve of the injection nozzle assigned to each cell area to enable the drive control for each cell area, it is possible to individually correspond to each cell area without increasing the pump and control as in the prior art And, it can be made to improve the convenience of construction installation and management range accordingly.

1 is a view showing a configuration of a conventional spray cooling system;
2 is a view showing a configuration of another example of a conventional spray cooling system;
3 is a view showing the configuration of the spray cooling system using different temperatures for each cell area according to an embodiment of the present invention.
4 is a view showing an installation configuration of individual cell regions of the spray cooling system using different temperatures for each cell region according to an embodiment of the present invention.
5 is a view showing an operating state of the spray cooling system using different temperatures for each cell area according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

3 is a view showing the configuration of the spray cooling system using different temperatures for each cell area according to an embodiment of the present invention. As shown in FIG. 3, the spray cooling system using different temperatures for each cell region according to an embodiment of the present invention includes a spray nozzle 110, a solenoid valve 120, a water supply unit 130, and a spray pressure unit ( 140, the sensor unit 150, and the control device unit 160 may be configured.

The spray nozzle 110 is configured to be provided in plurality for spraying water on the pipe 101 which is constructed at a height that does not interfere with the passage of a person on the ceiling or one side wall of the building provided with an open space through which a person passes. The plurality of spray nozzles 110 are arranged at specific intervals along the longitudinal direction of the pipe 101, but the control device 10 will be described later as 10 spray nozzles 110 installed in the pipe 101 is assigned to one cell area According to the zone-specific control of the unit 160 may be driven individually. That is, the plurality of spray nozzles 110 are grouped to be driven by individual cell regions when the individual space is to be set and managed in units of cells in the present invention. At this time, the injection nozzle 110 is configured to spray water fog of 20 to 30 microns in average particle diameter that can lower the temperature through evaporation heat without people getting wet and passing the open space. In addition, the pipe 101 in which the plurality of injection nozzles 110 are installed may be configured to withstand the water and the spray pressure supplied from the spray pressure unit 140 as a high pressure pipe made of nylon and stainless steel. Can be. Such a pipe 101 may be understood that a pipe of various materials capable of withstanding high pressure may be used in addition to a high pressure pipe made of nylon and stainless steel.

The solenoid valve 120 is provided in each of the some injection nozzle 110, and is a structure which controls the opening-closing drive for the water spray of the injection nozzle 110. FIG. Each of the solenoid valves 120 is installed in one injection nozzle 110 to control the opening and closing of the corresponding injection nozzle 110 according to the solenoid valve control operation of the control unit 160 to be described later. Here, the solenoid valve 120 may be configured integrally with the injection nozzle 110 or may be installed at a connection portion between the injection nozzle 110 and the pipe 101.

The water supply part 130 is a structure for supplying water for spraying to the piping 101 in which the some injection nozzle 110 was provided. The water supply unit 130 may be configured as one of a type of water tank for storing a faucet or a predetermined amount of water for supplying tap water. In the present invention, it is preferable to connect to a water supply for supplying tap water so that continuous spraying is performed and there is no restriction on the installation place.

The spray pressure unit 140 is provided between the water supply unit 130 and the pipe 101 to provide a spray pressure for spraying water. The spray pressure unit 140 may be configured as a pump 141 having a motor capable of generating a spray pressure of the water supplied to the pipe 101 under the driving control of the control unit 160. Here, the spray pressure unit 140 is driven so that the spray pressure is generated at the rotational speed of the pump 141 determined by the rpm of the motor under the drive control of the control unit 160. In this case, the spray pressure unit 140 may generate the spray pressure constantly, or may adjust the spray pressure by varying the rotation speed of the pump 141 determined by the rpm of the motor. That is, in the case of variably controlling the spray pressure generated by the spray pressure unit 140, the spray amount of the spray nozzle 110 may be increased or decreased according to the spray pressure, which may increase the spray amount corresponding to the high temperature and the low temperature. The operation can be made as desired.

The sensor unit 150 is a component for individually sensing the temperature and humidity of an individual cell region formed by tying n pieces of the plurality of injection nozzles 110 installed in the pipe 101. One sensor unit 150 is allocated to the individual cell area, and the sensor unit 150 senses the temperature and humidity of the individual cell region and provides the sensor unit 160 to the control unit unit 160. Here, each of the sensor units 150 may include a temperature sensor for measuring the temperature and a humidity sensor for sensing the humidity. At this time, a pressure sensor for detecting the spray pressure generated by the spray pressure unit 140 is provided separately.

The control unit 160 controls the driving for generating the spray pressure of the spray pressure unit 140, and the corresponding individual cells based on the temperature and humidity of the individual cell regions detected by the plurality of sensor units 150. It is a configuration that controls the driving of the solenoid valve 120 so that water spray can be made only in the injection nozzle 110 of the region. The control unit 160 divides and allocates the entire space in which the pipe 101 on which the plurality of injection nozzles 110 are installed is constructed, into a plurality of individual cell regions, and the solenoid valve 120 is provided in one individual cell region. It consists of a combination of 10 injection nozzles 110 and one sensor unit 150 installed, and drive by zone of individual cell region based on the sensed temperature and humidity of the sensor unit 150 assigned to a plurality of individual cell regions Control will be performed. At this time, the control unit 160 manages by setting the lower limit temperature 25 degrees and the upper limit 90% as the operating conditions of the water spray of the spray nozzle 110, the water spray of the spray nozzle 110 when the upper limit of humidity exceeds 90% The solenoid valve 120 may be controlled to be off so that the operation is stopped. In addition, the control unit 160 may maintain the spray pressure at a specific pressure constant through the control of the spray pressure unit 140, but is not limited thereto, the spray pressure at the lower limit temperature 25 degrees of water spray operating conditions The spray pressure of the part 140 may be controlled to 40 bar, and the spray pressure may be increased by 3 bar for each 1 degree increase from the lower limit temperature of 25 degrees to control the spray pressure to a maximum of 85 bar at a maximum of 40 degrees to adjust the spray amount.

4 is a diagram illustrating an installation configuration of individual cell regions of the spray cooling system using different temperatures for each cell region according to an exemplary embodiment of the present invention. As shown in FIG. 4, the spray cooling system using different temperatures for each cell region according to an embodiment of the present invention includes 10 injections in which the solenoid valve 120 is installed for each cell region in which the entire space is divided into a plurality of spaces. The nozzle 110 manages driving control for each cell region through zone-specific control. In this case, shortening or extending the spraying time through different time control in each zone enables management of temperature and humidity different from other zones.

5 is a view showing an operating state of the spray cooling system using different temperatures for each cell area according to an embodiment of the present invention. FIG. 5 illustrates that the pipe 101 is installed in a shopping mall dense area, and the water spray of the spray nozzle 110 is controlled according to the zone-specific control in a state in which 10 spray nozzles 110 are installed for each cell region in the pipe 101. Each process is controlled and operated individually. 5 shows an example of a shopping district, but the present invention is not limited thereto, and outdoor open spaces are installed in various spaces such as underground subway stations, traditional markets, spectators of sports stadiums, bus stops, parks, and individually. It can be understood that zone-specific control management is possible.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

110: injection nozzle 120: solenoid valve
130: water supply unit 140: spray pressure unit
141: pump 150: sensor
160: control unit

Claims (7)

A spray cooling system using different temperatures for each cell area,
A plurality of injection nozzles 110 installed on a pipe 101 that is installed at a height that does not interfere with a person's passage on a ceiling or one side wall of a building provided with an open space through which a person passes;
A solenoid valve (120) installed at each of the plurality of spray nozzles (110) to control the opening and closing drive for spraying water of the spray nozzles (110);
A water supply unit 130 for supplying water for spraying to the pipe 101 in which the plurality of spray nozzles 110 are installed;
A spray pressure unit 140 installed between the water supply unit 130 and the pipe 101 to provide a spray pressure for spraying water;
A plurality of sensor units 150 for individually sensing temperature and humidity of individual cell regions formed by tying a plurality of injection nozzles 110 installed in the pipe 101 into n pieces; And
The driving nozzle for generating the spray pressure of the spray pressure unit 140 is controlled, and the spray nozzle 110 of the corresponding individual cell region is based on the temperature and humidity of the individual cell region detected by the plurality of sensor units 150. The control unit 160 for controlling the driving of the solenoid valve 120 so that water spray can be made only),
The control unit 160,
The total space in which the pipes 101 provided with the plurality of injection nozzles 110 are installed is allocated to be divided into a plurality of individual cell regions, and one nozzle region is provided with a solenoid valve 120. Dog and one sensor unit 150 combination, and based on the sensed temperature and humidity of the sensor unit 150 assigned to the plurality of individual cell region, it is characterized in that for performing the drive control for each individual cell unit area Spray cooling system using different temperatures for each cell region.
The apparatus according to claim 1, wherein the pipe (101)
Spray cooling system using a different temperature for each cell region, characterized in that composed of high-pressure piping of nylon (Nylon) and stainless steel (Stainless).
The method of claim 1, wherein the plurality of injection nozzles 110,
Arranged at a specific interval along the longitudinal direction of the pipe 101, 10 injection nozzles 110 installed in the pipe 101 is assigned to one cell area to control the zone by the control device unit 160. Spray cooling system using different temperatures for each cell region, characterized in that the individual drive according.
The ink jet recording apparatus according to claim 1, wherein the injection nozzle (110)
By using different temperatures for each cell region, people passing through open spaces are sprayed with water mist of 20 to 30 microns in average particle diameter, which can lower the temperature through evaporative heat without causing wetness and inconvenience. Spray cooling system.
The method of claim 1, wherein the spray pressure unit 140,
Under the drive control of the control unit 160, the pump 141 having a motor capable of generating a spray pressure of the water supplied to the pipe 101, characterized in that the different temperature for each cell region Spray cooling system.
delete The method of claim 1, wherein the control unit 160,
The lower limit temperature 25 degrees and the upper limit humidity 90% is set and managed as the operating condition of the water spray of the spray nozzle 110, but when the upper humidity exceeds 90%, the corresponding solenoid valve is stopped so that the water spray operation of the spray nozzle 110 is stopped. Spray cooling system using different temperatures per cell region, characterized in that off 120 is controlled.

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