KR102137666B1 - Platform Shelter Fine Dust Suction and Water Convection Cooling System - Google Patents

Abstract

The present invention relates to a platform shelter fine dust suction and water current convection cooling apparatus and, more specifically, to a platform shelter fine dust suction and water current convection cooling apparatus, which can supply sterilized and vapor-cooled air into a platform shelter, and suction fine dust around the platform shelter to reduce fine dust. According to the present invention, the sterilized and vapor-cooled air can be supplied into the platform shelter to keep the inside of the platform shelter cool and comfortable. Moreover, the fine dust around the platform shelter can be suctioned to reduce the fine dust.

Description

Platform shelter fine dust suction and water convection cooling system {Platform Shelter Fine Dust Suction and Water Convection Cooling System}

The present invention relates to the suction and water convection type cooling device of the platform shelter, and more specifically, not only supplies sterilized and vaporized cooled air into the platform shelter, but also reduces the fine dust by sucking the fine dust around the platform shelter. It relates to the suction and water convection type air-conditioning device of the platform shelter that can be done.

Since the 1970s, the rapid industrialization of the city has deepened the concentration of cities, and as a result of this, the so-called Heat Island phenomenon, in which the temperature over the city is higher than the surrounding areas due to various artificial heat and air pollutants, is a major social and environmental problem. Began to emerge.

The heat island phenomenon is a climatic characteristic that occurs as urbanization and advanced land use progress. Due to the artificial heat generated in the city, air pollution, architecture, and pavement, the city center covers the islands with hot air compared to the surrounding suburbs. It says that there is.

The heat island phenomenon rapidly increases the surface temperature of buildings due to the increase in high-rise buildings, and as a result, increases the temperature inside the city. In addition, the increase in buildings and pavement is due to the reduction of shade and vegetation and the effect of evapotranspiration due to the reduction in the ratio of green space.

In summer, when the weather is hot, the heat island phenomenon is intensified. In particular, the platform shelter is a space where many users wait for a long time, and efforts to reduce the temperature inside are urgently required.

As part of alleviating the temperature inside the structure, the present applicant not only supplies sterilized and vaporized cooled air to the interior of the platform shelter, but also sucks fine dust around the platform shelter to reduce fine dust. And water convection cooling system.

Registered Patent No. 10-1057988 (2011.08.12.)

The present invention not only supplies sterilized and vaporized cooled air to the inside of the platform shelter, but also provides a platform shelter fine dust suction and water convection-type cooling device capable of reducing fine dust by inhaling fine dust around the platform shelter. There is this.

In order to achieve the above object, the present invention includes a platform shelter 100 and a device unit 200 installed on an upper part of the platform shelter 100, and the platform shelter 100 includes a platform shelter 100 It includes a second air flow hole 110 formed on the upper side of the, and is installed on one side of the platform shelter 100, the temperature measuring unit 120 for measuring the temperature (T) inside the platform shelter 100, The second air flow hole 110 is ⅰ) Air passing through the lower blowing fan 240 when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward (a21' ) Is introduced into the platform shelter 100, ii) the air inside the platform shelter 100 when the lower air blowing fan 240, the upper air blowing fan 250 and the water cooling fan 232 are reversed (b10) A flows into the device unit 200, the temperature measuring unit 120 is ⅰ) when the measured temperature (T) is above a predetermined reference temperature (T0) lower blowing fan 240, upper blowing fan 250 And the water cooling fan 232 is rotated forward, the pump unit 233 is operated, and ii) when the measured temperature T is less than the preset reference temperature T0, the lower blowing fan 240 and the upper blowing fan ( 250) and the water cooling fan 232 is reversed, the operation of the pump unit 233 is stopped, and the device unit 200 includes a first air flow hole 210 formed on one side of the device unit 200. And, the filter unit 220 is installed inside the device unit 200, and installed inside the device unit 200, the cooling water supply unit 230 for supplying cooling water to the filter unit 220, and the device unit ( 200) is installed on the lower side of the inside, the lower blowing fan 240 disposed at a position adjacent to the cooling water supply unit 230, the upper blowing fan 250 installed on the inner upper side of the device unit 200, and the device unit ( It includes a third air flow hole 260 formed on the upper side of the 200), and an air sterilizing portion 270 installed inside the device 200 to sterilize the air, the first air flow hole 210 Silver ⅰ) When the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward, air (a10) is introduced from the outside, ii ) When the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversely rotated, air (b30) passing through the filter unit 220 is discharged to the outside, and the filter unit 220 Is a filter 221 that sterilizes air, a cooling pad 222 including a plurality of honeycomb structure-shaped flow path portions 222a, and a plurality of cooling fins 223a are stacked between the cooling fins 223a. A radiator 223 in which the tube 223b is formed, and an air purification filter 224 for purifying air, wherein the filter 221 is ⅰ) a lower blowing fan 240, an upper blowing fan 250 and water When the cooling fan 232 is rotated forward, air (a10) flowing through the first air flow hole 210 passes, ii) the lower blowing fan 240, the upper blowing fan 250, and the water cooling fan ( When 232) is reversed, air (b23) passing through the cooling pad 222 is passed, and the cooling pad 222 has cooling water w31 distributed by the distribution unit 235 of the flow channel portion 222a. Characterized in that it flows downward along the surface, ⅰ) Air passing through the filter 221 when the lower fan (240), the upper fan (250) and the water cooling fan (232) are rotated forward (a11) Is passed, ii) the air (b22) passing through the radiator 223 is passed when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversed, and the radiator 223 ) Is characterized in that the cooling water (w32) distributed by the distribution unit 235 flows downward through the tube 223b, and iv) a lower blowing fan 240, an upper blowing fan 250 and water cooling. When the fan 232 is rotated forward, air (a12) passing through the cooling pad 222 passes, ii) the lower blowing fan 240, the upper blowing fan 250, and the water cooling fan 232 are reversely rotated. When the air (b21) that has passed through the air purification filter 224 is passed, the air purification filter 224 is ⅰ) the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 The air (a13) passing through the radiator 223 is passed when it is rotated forward, ii) the lower blowing fan 240 and the upper blowing fan 250 ) And the air (b20) passing through the lower blowing fan 240 is passed when the water cooling fan 232 is reversed, and the cooling water supply unit 230 is the surface of the flow path portion 222a of the cooling pad 222. The water tank portion 231 and the water tank portion 231 in which the cooling water w41 flowing downward along the tube and the cooling water w42 flowing downward through the tube 223b of the radiator 223 are stored are stored. By the water cooling fan 232 for cooling the cooling water (w41, w42), a pump unit 233 for pumping the cooling water (w10) cooled by the water cooling fan 232 upward, and the pump unit 233 It includes a disinfection unit 234 for sterilizing the pumped cooling water (w20), and a distribution unit 235 for distributing the cooling water (w30) sterilized by the sterilization unit to the cooling pad 222 and the radiator 223. When the water cooling fan 232 is reversely rotated, heat is discharged into the device unit 200 to increase the temperature of the air b10', b11 introduced into the platform shelter 100, and the sterilization unit 234 A cooling water flow pipe 234a having a spiral cooling water spiral flow guide protrusion 234a' formed on an inner surface, and a sterilizing lamp 234b installed inside the cooling water flow pipe 234a, the lower blower fan 240 )) ⅰ) Air (a20) passing through the filter unit (220) and air (a21) passing through the upper blowing fan (250) flow into the platform shelter (100) when it is rotated forward, and ii) to be reversed. When the air (b10) inside the platform shelter 100 flows into the device unit 200, and the upper blowing fan 250 is ⅰ) when the external air (a10') Flows into the interior of the secondary 200, and ii) discharges air (b20') that has passed through the lower blower fan 240 when rotated to the outside, and the third air flow hole 260 is ⅰ) the lower blower fan (240), when the upper air blowing fan 250 and the water cooling fan 232 is rotated forward, air (a10') is introduced from the outside, ii) the lower air blowing fan 240, the upper air blowing fan 250 and water When the cooling fan 232 is reversed, the air (b30') that has passed through the lower blowing fan 240 is Presenting a platform shelter fine dust suction and water convection cooling device, characterized in that it is discharged to the outside.

The present invention exerts the following effects.

That is, according to the present invention, the sterilized and vaporized cooled air is supplied to the interior of the platform shelter, as well as keeping the interior of the platform shelter cool and comfortable, as well as suctioning fine dust around the platform shelter to reduce fine dust. have.

1 to 2 is a view showing the overall configuration of the platform shelter fine dust suction and water convection cooling system.
3 is a view for explaining a process in which cooling water is supplied from the cooling water supply unit to the filter unit.
4 to 5 are views for explaining a process of passing air through the filter unit.
6 is a view showing components of the filter unit.
7 is a view showing the components of the sterilizing unit.
8 is a view for explaining the process of cooling water flowing into the sterilizing unit.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the scope of rights of the present invention should be understood by describing the claims. Also, descriptions of well-known technologies that obscure the subject matter of the present invention will be omitted.

However, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to that shown in the drawings, and the thickness is enlarged to clearly express various parts and regions. Did.

In addition, in the description of the present invention, direction limitations such as "before and after", "left and right", and "up and down" are only indicated based on the form of FIG. 1 for ease of understanding, and the direction is different when the reference line (or drawing) is different. Reveal that it will be ordered.

The present invention relates to the suction and water convection type cooling device of the platform shelter, and more specifically, not only supplies sterilized and vaporized cooled air into the platform shelter, but also reduces the fine dust by sucking the fine dust around the platform shelter. It relates to the suction and water convection type air-conditioning device of the platform shelter that can be done.

1 to 2 is a view showing the overall configuration of the platform shelter fine dust suction and water convection cooling system, Figure 3 is a view for explaining the process of supplying the cooling water from the cooling water supply to the filter unit, Figures 4 to 5 is a view for explaining a process of passing air through the filter unit, FIG. 6 is a view showing the components of the filter unit, FIG. 7 is a view showing the components of the sterilization unit, and FIG. 8 is a cooling water inside the sterilization unit It is a diagram for explaining the flow process.

The platform shelter fine dust suction and water convection cooling apparatus according to the present invention includes a platform shelter 100 and a device unit 200 installed on the platform shelter 100.

The platform shelter 100 is a structure installed at a vehicle stop, and is a space provided to allow passengers to comfortably wait while waiting for the vehicle. The platform shelter 100 includes a second air flow hole 110, a temperature measurement unit 120, and a humidity measurement unit 130.

The second air flow hole 110 will be described. The second air flow hole 110 is a portion formed on the upper side of the platform shelter 100, and ⅰ) the lower air blowing fan 240, the upper air blowing fan 250, and the water cooling fan 232 when the lower air blows The air (a21') that has passed through the fan 240 is introduced into the platform shelter 100 (see FIG. 1), ii) the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 When the reverse rotation, the air (b10) inside the platform shelter 100 flows into the device unit 200 (see FIG. 2).

The temperature measuring unit 120 will be described. The temperature measuring unit 120 is installed on one side of the platform shelter 100, and serves to measure the temperature T inside the platform shelter 100. Ⅰ) When the measured temperature (T) is higher than the preset reference temperature (T0), the lower blowing fan (240), the upper blowing fan (250) and the water cooling fan (232) are rotated forward, but the pump unit (233) is operated. When the measured temperature (T) is less than the predetermined reference temperature (T0), the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversely rotated, but the pump unit 233 Stops the operation.

Here, the reference temperature (T0) is preferably set to any one of the temperature value of 24 ℃ to 35 ℃ corresponding to the summer temperature.

The humidity measuring unit 130 will be described. The humidity measuring unit 130 is installed on one side of the platform shelter 100, and serves to measure the humidity (M) inside the platform shelter 100. Ⅰ) When the measured humidity (M) is higher than the preset reference humidity (M0), the lower blowing fan (240), the upper blowing fan (250) and the water cooling fan (232) are reversely rotated, but the operation of the pump unit (233) Ⅰ) When the measured humidity (M) is less than the preset reference humidity (M0), the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward, but the pump unit ( 233).

Here, the reference humidity (M0) is preferably set to any one of the humidity value of 70% to 100% corresponding to the wet state.

The device unit 200 will be described. The device part 200 is a part installed on the upper part of the platform shelter 100. The device 200 includes a first air flow hole 210 formed on one side, a third air flow hole 260 formed on the upper side, a filter unit 220 installed inside, and a cooling water supply unit 230, It comprises a lower blowing fan 240, the upper blowing fan 250 and the air sterilization unit 270.

The first air flow hole 210 will be described. The first air flow hole 210 is a portion formed on one side of the device unit 200, and ⅰ) the lower air blowing fan 240, the upper air blowing fan 250, and the water cooling fan 232 are rotated externally. Air (a10) flows in, ii) the lower air blower fan 240, the upper air blower fan 250, and the water cooling fan 232 when the air (b30) passing through the filter unit 220 is rotated outside It is the part that is discharged.

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The filter unit 220 will be described. The filter unit 220 is a portion that is installed inside the device unit 200 and cools the air a10 flowing through the first air flow hole 210.

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3 to 6, the filter unit 220 includes a filter 221, a cooling pad 222, a radiator 223, and an air purifying filter 224.

The filter 221 will be described. The filter 221 serves to sterilize the air.

The filter 221 is ⅰ) when the lower air blowing fan 240, the upper air blowing fan 250, and the water cooling fan 232 are rotated forward, air (a10) flowing through the first air flow hole 210 passes. (See FIG. 4). And, ii) the air (b23) passing through the cooling pad 222 is passed when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversed (see FIG. 5).

The cooling pad 222 will be described. The cooling pad 222 is a portion that serves to primarily cool air, and as shown in FIG. 6, includes a plurality of honeycomb structure-shaped flow path portions 222a.

A cooling water w31 flows downward along the surface of the flow path portion 222a (see FIG. 3 ). The air (a11) that has passed through the cooling pad 222 is vaporized and cooled by cold coolant (w31), thereby reducing the temperature.

In addition, since the air a11 that has passed through the cooling pad 222 is adsorbed by the cooling water w31, the fine dust contained in the air a11 also flows downward along the surface of the flow path portion 222a, thereby allowing air ( a11) is also effective in filtering out fine dust.

The cooling pad 222 is ⅰ) air (a11) passing through the filter 221 is passed when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward (FIG. 4). Reference). And, ii) the air (b22) passing through the radiator 223 is passed when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversed (see FIG. 5).

The radiator 223 will be described. The radiator 223 is a portion serving to cool the air passing through the cooling pad 222 secondaryly, as shown in FIG. 6, a plurality of cooling fins 223a are stacked, and the cooling fins 223a The tube 223b is formed in between.

Cooling water (w32) along the tube 223b is passed through a process of flowing downward (see FIG. 3). The air (a12) that has passed through the radiator 223 is vaporized and cooled by cold cooling water (w32), thereby reducing the temperature.

The radiator 223 is ⅰ) air (a12) passing through the cooling pad 222 is passed when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward (FIG. 4). Reference). And, ii) when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 is reversed, the air b21 passing through the air purification filter 224 is passed (see FIG. 5). .

The air purification filter 224 will be described. The air purifying filter 224 is a part for purifying air, i) the air that has passed through the radiator 223 when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward ( a13) is passed (see FIG. 4), ii) the air passing through the air sterilization unit 270 when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversed (b20) ) Is passed (see FIG. 5 ).

The cooling water supply unit 230 will be described. The cooling water supply unit 230 is a portion installed inside the device unit 200 and serves to supply cooling water to the filter unit 220.

As shown in FIG. 3, the cooling water supply unit 230 includes a water tank unit 231, a water cooling fan 232, a pump unit 233, a sterilization unit 234, and a distribution unit 235. Including.

The water tank part 231 flows downward along the surface of the flow path part 222a of the cooling pad 222 and the cooling water w41 flowing downward through the tube 223b of the radiator 223 ) Is the part to be stored.

The water cooling fan 232 will be described. The water cooling fan 232 serves to cool the cooling waters w41 and w42 stored in the water tank unit 231. In addition, when the water cooling fan 232 is reversely rotated, heat is discharged into the device unit 200 to increase the temperature of the air b10' and b11 introduced into the device unit 200. Accordingly, the effect of drying the air (b10', b11) introduced into the device unit 200 is exerted.

The pump unit 233 serves to pump the cooling water w10 cooled by the water cooling fan 232 upwards. Since this is a known technique, detailed description is omitted.

The sterilizing unit 234 will be described. The sterilization unit 234 serves to sterilize the cooling water w20 pumped by the pump unit 233. As shown in FIGS. 7 to 8, the sterilization unit 234 includes a cooling water flow pipe 234a and a sterilizing lamp 234b installed inside the cooling water flow pipe 234a.

The cooling water flow pipe 234a is a portion where the cooling water w20 flows, and a spiral cooling water spiral flow guide projection 234a' is formed on the inner surface. The cooling water w20 flowing along the cooling water flow pipe 234a flows upward while rotating in a spiral shape along the cooling water spiral flow guide projections 234a'.

As an effect according to this, the time in which the cooling water w20 stays in the cooling water flow pipe 234a is prolonged, thereby increasing the sterilizing effect by the sterilizing lamp 234b to be described later.

The sterilization lamp 234b is a part that sterilizes the cooling water w20 flowing upward along the cooling water flow pipe 234a. The sterilizing lamp 234b is preferably used with a lamp irradiated with ultraviolet rays, but is not necessarily limited thereto.

The distribution unit 235 serves to distribute the cooling water w30 sterilized by the sterilization unit 234 to the cooling pad 222 and the radiator 223.

The lower blowing fan 240 will be described. The lower blowing fan 240 is installed in the lower inner side of the device unit 200, as shown in Figs. And, the lower blowing fan 240 is preferably disposed in a position adjacent to the cooling water supply unit 230.

The lower blower fan 240 flows into the platform shelter 100 through air (a20) passing through the filter unit 220 and air (a21) passing through the air sterilization unit 270, which will be described later, when it is rotated forward. And, ii) the air (b10) inside the platform shelter (100) when reversely rotated to the air sterilization unit (270) to be described later.

The upper blowing fan 250 will be described. The upper blowing fan 250 is a portion installed on the inner upper side of the device unit 200, as shown in Figures 1 to 2. The upper blowing fan 250 flows through the air sterilizing portion 270 when ⅰ) the external air a10' flows to the air sterilizing portion 270 when rotated forward, and ii) the air passing through the air sterilizing portion 270 when rotated backward (b20') ) To the outside.

The third air flow hole 260 will be described. The third air flow hole 260 is a portion formed on the upper side of the device 200 as shown in FIGS. 1 to 2. The third air flow hole 260 is ⅰ) air (a10') is introduced from the outside when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward, ii) the lower When the blower fan 240, the upper blower fan 250 and the water cooling fan 232 are reversed, air (b30') passing through the upper blower fan 250 is discharged to the outside.

The air sterilization unit 270 will be described. The air sterilization unit 270 is installed inside the device unit 200 to sterilize air. Here, sterilization of air is primarily performed through UV irradiation. The irradiated UV reacts with the part coated with a special alloy surrounding the UV tube, and at this time, OH radicals are generated in the air. Secondary sterilization is achieved by decomposing various viruses and bacterial pathogens in the air by OH radical.

The present invention described above is not limited by the above-described embodiments and accompanying drawings, and various substitutions, modifications and changes are possible within the scope of the present invention without departing from the technical spirit of the present invention. It will be clear to those who have knowledge.

100: platform shelter
110: 2nd air flow hall
120: temperature measuring unit
130: humidity measuring unit
200: device unit
210: 1st air flow hall
220: filter unit
221: filter
222: cooling pad
222a: Euro part
223: radiator
223a: cooling fins
223b: tube
224: air purification filter
230: cooling water supply
231: water tank section
232: water cooling fan
233: pump unit
234: sterilization unit
234a: Cooling water flow pipe
234a': Coolant spiral flow guide projection
234b: Sterilization lamp
235: distribution unit
240: lower blowing fan
250: upper blowing fan
260: 3rd air flow hall
270: air sterilization unit

Claims (5)

delete delete delete Platform Shelter (100),
Includes a device unit 200 that is installed on top of the platform shelter 100,

In the platform shelter (100)
The second air flow hole 110 formed on the upper side of the platform shelter 100,
Is installed on one side of the platform shelter 100, and includes a temperature measuring unit 120 for measuring the temperature (T) inside the platform shelter 100,

The second air flow hole 110 is
Ⅰ) When the lower air blowing fan 240, the upper air blowing fan 250 and the water cooling fan 232 are rotated forward, air (a21') passing through the lower air blowing fan 240 flows into the platform shelter 100. However, ii) when the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversely rotated, air (b10) inside the platform shelter 100 flows into the device unit 200, ,

The temperature measuring unit 120
Ⅰ) When the measured temperature (T) is higher than the preset reference temperature (T0), the lower blowing fan (240), the upper blowing fan (250) and the water cooling fan (232) are rotated forward, but the pump unit (233) is operated. When the measured temperature (T) is less than the predetermined reference temperature (T0), the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are reversely rotated, but the pump unit 233 Stop the operation of,

The device unit 200 includes
A first air flow hole 210 formed on one side of the device unit 200,
A filter unit 220 installed inside the device unit 200,
It is installed inside the device unit 200, the cooling water supply unit 230 for supplying cooling water to the filter unit 220,
Is installed on the lower side of the inside of the device unit 200, the lower blowing fan 240 disposed in a position adjacent to the cooling water supply unit 230,
The upper blowing fan 250 is installed inside the upper portion of the device 200,
A third air flow hole 260 formed on the upper side of the device 200,
It is installed inside the device unit 200 and includes an air sterilization unit 270 for sterilizing air,

The first air flow hole 210 is
Ⅰ) When the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward, air (a10) flows in from outside, ii) the lower blowing fan 240, the upper blowing fan ( 250) and the air (b30) passing through the filter unit 220 when the water cooling fan 232 is reversed is discharged to the outside,

The filter unit 220
A filter 221 for sterilizing air,
Cooling pad 222 including a plurality of honeycomb structure-shaped flow path portion (222a),
A radiator 223 in which a plurality of cooling fins 223a are stacked and a tube 223b is formed between the cooling fins 223a,
It includes an air purification filter 224 to purify the air,

The filter 221 is
Ⅰ) When the lower air blowing fan 240, the upper air blowing fan 250 and the water cooling fan 232 are rotated forward, air (a10) flowing through the first air flow hole 210 passes, ii) the lower part When the blowing fan 240, the upper blowing fan 250, and the water cooling fan 232 are reversed, air (b23) passing through the cooling pad 222 passes,

The cooling pad 222
It is characterized in that the cooling water (w31) distributed by the distribution unit 235 flows downward along the surface of the flow path unit (222a),
Ⅰ) When the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward, air (a11) passing through the filter 221 is passed through, ii) the lower blowing fan 240 , When the upper blowing fan 250 and the water cooling fan 232 is reversed, air (b22) passing through the radiator 223 is passed,

The radiator 223
It characterized in that the cooling water (w32) distributed by the distribution unit 235 flows downward through the tube (223b),
Ⅰ) When the lower air blowing fan 240, the upper air blowing fan 250 and the water cooling fan 232 are rotated forward, air (a12) passing through the cooling pad 222 passes, ii) the lower air blowing fan 240 ), when the upper blowing fan 250 and the water cooling fan 232 is reversed, air (b21) passing through the air purification filter 224 is passed,

The air purification filter 224
Ⅰ) When the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward, air (a13) passing through the radiator 223 passes through, ii) the lower blowing fan 240 , When the upper blowing fan 250 and the water cooling fan 232 is reversed, the air (b20) passing through the lower blowing fan 240 passes,

The cooling water supply unit 230
A water tank portion in which cooling water w41 flowing downward along the surface of the flow path portion 222a of the cooling pad 222 and cooling water w42 flowing downward through the tube 223b of the radiator 223 are stored. (231) and,
Water cooling fan 232 for cooling the cooling water (w41, w42) stored in the water tank unit 231,
A pump unit 233 for pumping the cooling water w10 cooled by the water cooling fan 232 upward;
A sterilization unit 234 for sterilizing the cooling water (w20) pumped by the pump unit 233,
It includes a distribution unit 235 for distributing the cooling water (w30) sterilized by the sterilization unit to the cooling pad 222 and the radiator 223,

The water cooling fan 232
When reverse rotation, the heat is discharged into the device unit 200 to increase the temperature of the air (b10', b11) introduced into the device unit 200,

The sterilization unit 234
A cooling water flow pipe (234a) having a spiral cooling water spiral flow guide projection (234a') formed on an inner surface,
Includes a sterilizing lamp (234b) installed inside the cooling water flow pipe (234a),

The lower blowing fan 240 is
Ⅰ) Air (a20) passing through the filter unit 220 and air (a21) passing through the air sterilization unit 270 flow into the platform shelter 100 when it is rotated forward, and ii) when it is reversed Characterized in that the air (b10) inside the shelter (100) flows to the air sterilization unit (270),

The upper blowing fan 250 is
Ⅰ) When the air is rotated, the external air (a10') flows to the air sterilization unit (270), and ii) the air (b20') passing through the air sterilization unit (270) is discharged to the outside when rotated counterclockwise.

The third air flow hole 260 is
Ⅰ) When the lower blowing fan 240, the upper blowing fan 250 and the water cooling fan 232 are rotated forward, air (a10') is introduced from the outside, ii) the lower blowing fan 240, the upper blowing fan (250) and when the water cooling fan 232 is reversed, characterized in that the air (b30') passing through the upper blowing fan 250 is discharged to the outside
Platform shelter fine dust suction and water convection cooling system.







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