KR101834178B1 - Atomizing cooling device for facility - Google Patents

Abstract

The present invention relates to a spraying type cooling device for a facility which alleviates heat wave and hot spot phenomena in a facility such as a conventional market or a terminal. In particular, a rotation means provided with a spraying means rotates with a support plate such that a spraying angle of cooling water sprayed from the spraying means is adjusted. Thus, a spraying efficiency of the cooling water is improved, and heat wave and hot spot phenomena in an artificial facility can be alleviated.

Description

[0001] The present invention relates to an atomizing cooling device for facility,

In particular, the present invention relates to a spray-type cooling apparatus for a facility to solve the phenomenon of heat and heat island inside a facility such as a traditional market or a terminal. In particular, And more particularly, to a spray-type cooling device for a facility capable of effectively suppressing the phenomenon of heat and heat island inside the artificial facility by improving the injection efficiency of the cooling water by controlling the injection angle of the cooling water.

The heat island phenomenon refers to the phenomenon that urban areas are warmer than rural areas due to heat and gas surges caused by various industries such as factories, stoves, chimneys, etc., due to urban industrial development and population density.

The main causes of this heat island phenomenon are as follows: First, due to the dark color of cement buildings and asphalt roads, they are easily absorbed by solar heat, absorbing much heat, emitting the heat absorbed and raising the temperature of the city. Secondly, Third, the soot, artificial heat, and fine dust generated in factories, cars, air conditioners are trapped in the city center during the daytime, and late at night And fourth, the use of excessive artificial lighting in the inner city.

In order to overcome such a heat island phenomenon, there is a method of forming a green space on a wall of a roof of a building, a floor of a veranda, a floor of an interior, an exterior wall, a partition, etc. Korean Patent Publication No. 10-2015-0005116 is a typical technique.

However, Korean Patent Publication No. 10-2015-0005116 has a disadvantage in that there is a limitation in the composition of the planting space, and the cost is also high and the efficiency is low.

Separately, efforts have been made to effectively reduce the geothermal heat of the road by spraying water on the road pavement, which is considered to be one of the main factors of the heat island phenomenon, in order to reduce the heat island phenomenon. However, There has been a drawback that it is limited to effectively reduce the heat and heat island phenomenon of the whole or various facilities.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a facility capable of effectively suppressing the phenomenon of heat and heat island inside the facility by improving the injection efficiency of the cooling water by adjusting the injection angle of the cooling water injected from the injection means by the rotation of the rotation means provided with the injection means And to provide a solvent-free cooling device.

Further, the bottom surface of the pivoting means is inclined so that the cooling water remaining after being sprayed from the injection nozzle is collectively collected and discharged to the discharge pipe, thereby preventing damage to the cooling water immediately falling on the pedestrians, Another object of the present invention is to provide a spray-type cooling device for a facility which minimizes occurrence of cracks and damages.

The above object is achieved by the following constitutions provided in the present invention.

A spray-type cooling apparatus for a facility according to the present invention comprises: a supply means for supplying cooling water; A jetting means composed of a flow pipe through which the cooling water supplied by the supply means flows and a plurality of jetting nozzles jetting out the cooling water mounted on the flow pipe; Rotating means for rotating the injection means in a pulled-in state to adjust an injection angle of the cooling water injected through the injection means; The hinge shaft is coupled to the hinge unit by a hinge shaft so that the hinge unit is rotated by the hinge unit so that the hinge unit is pivotally coupled to the swing unit. And a support plate fixed to the position to be installed by bolt fastening, wherein the rotation unit is divided into a jetting section and a rotation section having jetting means, and the jetting section And a hinge shaft to be coupled to the support plate is inserted into the rotary partition at one side thereof so that the cooling water is injected into the rotary partition. A hinge portion is formed, and on the other side where the hinge portion is formed, When the rotating means is rotated at a desired angle, a rotating portion is fixed with a bolt and a nut. The bottom surface of the rotating means is inclined downward from the lower side of the jetting nozzle toward the rotating partition, And a collecting part for collecting moisture moved by the dropping part and the guide plate on the other side of the guide plate is formed on one side of the guide plate, And a discharge pipe for discharging the collected water collectively to the lower side of the collecting portion of the rotating means.

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According to the present invention as described above, the injection angle of the cooling water injected from the injection means is adjusted by the rotation of the rotation means provided with the injection means, thereby improving the injection efficiency of the cooling water, effectively solving the phenomenon of heat and heat island inside the facility So that a pleasant indoor environment of the facility can be realized.

Further, the bottom surface of the pivoting means is inclined so that the cooling water remaining after being sprayed from the injection nozzle is collectively collected and discharged to the discharge pipe, thereby preventing damage to the cooling water immediately falling on the pedestrians, Thereby minimizing the occurrence of cracks and damaging them.

1 and 2 are views showing a preferred embodiment of the present invention,
Fig. 3 is an exemplary view showing a preferred embodiment in which the rotation means, the support plate, and the sealing plate of the present invention are provided;
4 is a perspective view showing a preferred mode in which the rotation means and the support plate of the present invention act,
5 is a cross-sectional view showing a preferred embodiment of the rotating means of the present invention

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 3 is a view showing a preferred embodiment in which the rotating means, the supporting plate and the sealing plate of the present invention are provided. FIG. 4 is a perspective view showing the rotating means and the supporting plate of the present invention, 1, 2, 3, 4 and 5, the present invention is characterized in that the cooling water is supplied to the supply means 10 (30) for receiving the injection means (20) and adjusting the injection angle of the injection means (20), and a control means And a support plate (40) for rotating the rotating means (30).

The supply means 10 is configured to supply the cooling water to the injection means 20 as described above. More specifically, the supply means 10 stores and supplies the cooling water supplied from the outside, The filter body allows the foreign matter to be effectively filtered when the cooling water stored in the storage tank (11) is discharged from the storage tank (11).

The supply means 10 includes a supply pipe 12 for supplying the cooling water stored in the storage tank 11 to the injection nozzle 23 and a cooling water supply pipe 12 installed in the supply pipe 12 for supplying the cooling water supplied from the storage tank 11 And a spray pump 13 for spraying the fluid to the spray nozzle 23 of the spray means 20 described later via a pressure action.

The supply means 10 includes a compressor (not shown) provided in the supply pipe 12 for spraying the cooling water, which is moved to the supply pipe 12, together with the spray pump 13 by compressed air to the injection nozzle 23 14).

The supply means 10 includes a water discharge pipe 15 and a water discharge valve 16 provided in the spray pump 13 for discharging the cooling water remaining in the supply pipe 12.

That is, the spray pump 13 and the compressor 14 act on the supply pipe 12, respectively, so that the cooling water flows smoothly through the supply pipe 12 to the injection nozzle 23, and the compressor 32 So that the cooling water remaining in the supply pipe 12 and the water discharge pipe 15 is discharged by the compressed air to prevent the freezing.

The injection means 20 is configured to inject the cooling water supplied by the supply means 10 to the outside and includes a flow pipe 21 through which the cooling water supplied by the supply means 10 flows, And a plurality of spray nozzles 23 for spraying cooling water that is mounted and flowed to the outside.

The cooling water supplied to the flow pipe 21 is supplied together with the air pressure of the spray pump 13 and the compressor 14 and the cooling water supplied to the flow pipe 21 is atomized by the plurality of injection nozzles 23 And is sprayed in the form of mist.

That is, since the cooling water injected in this way rapidly evaporates at a high speed and absorbs the surrounding heat in the process of evaporating the cooling water, the surrounding air temperature is relatively lowered so that the cooling effect can be exhibited and the heat island phenomenon can be prevented will be.

The cooling water is mixed with a functional material consisting of 2 to 3 parts by weight of a perilla leaf powder, 1.5 to 3 parts by weight of a pine leaf powder, and 2 to 3 parts by weight of a charcoal powder based on 100 parts by weight of water, To a large amount of natural fragrance such as phytoncide to give to the environment, such as atopy, asthma, rhinitis and the environment related to the eradication of the health of the surrounding users to be promoted.

The rotation means 30 is configured to rotate in a state in which the injection means 20 is drawn in and adjust the injection angle of the cooling water injected through the injection means 20. [

The support plate 40 is installed on both sides of the rotation unit 30 and is coupled to the rotation unit 30 by a hinge shaft so that the rotation unit 30 is hinged, A rotary long hole 41 is formed so as to be rounded on a part of the base plate 41 and a plate which is bent in the horizontal direction on the lower side.

The rotating unit 30 which is rotated together with the support plate 40 is divided into a jetting section 31 and a turning section 32 having the jetting means 20.

The injection partitioning section 31 is formed as a space partitioned forward and is structured such that the flow pipe 21 of the injection means 20 is drawn in and the injection nozzle 23 is provided at the tip end thereof to open the injection port .

The hinged portion 33 is formed at one side of the rotation partition 32 to receive the hinge shaft to be coupled with the support plate 40 and the other end of the hinge portion 33 is coincident with the rotation hole 41 When the turning means 30 is rotated at a desired angle by the hinge axis at the point, the fixed portion 34 is fastened to the rotating long hole 41 by bolts and nuts.

The bottom surface of the rotating unit 30 is formed to be inclined downward from the lower side of the jet nozzle 23 toward the rotation partition 32 so as to move water generated in the jet nozzle 23 by condensation. (35).

The water generated in the injection nozzle 23 can be the cooling water remaining in the injection nozzle 23 after the cooling water is injected and the cooling water injected in front of the injection nozzle 23 without reaching the atmosphere Lt; / RTI >

One side of the guide plate 35 is provided with a dropping section 36 for dropping moisture generated from the injection nozzle 23 and moisture which is moved by the dropping section 36 and the guide plate 35 to the other side of the guide plate 35 And a separate moving hole h is formed in the dropping part 36 and the collecting part 37 so that the cooling water can be moved.

Further, a discharge pipe (p) for discharging the collected water collectively to the lower side of the collecting part (37) of the rotating means (30) is provided.

Accordingly, the jetting section 20 is stably positioned in the jetting section 31, and the rotational partition 32 is hingedly rotated upward and downward with respect to the hinge axis together with the support plate 40, The bolts and nuts are fastened to the rotating long hole 41 formed in the support plate 40 and the fixing portion 34 when the rotating means 30 is rotated at a desired angle so that the cooling water is supplied to the cooling water The injection efficiency of the cooling water can be improved.

The lower end surface of the rotation means 30 is formed so as to be inclined downward from the lower side of the injection nozzle 23 in the direction of the rotation partition 32 so that the cooling water remaining in the injection nozzle 23 does not directly fall to the bottom, Dew condensation is generated in the rotating means 30 in which the spray nozzle 23 is provided, while being dropped to the discharge nozzle 36 and collectively discharged to the discharge pipe p through the collecting portion 37 to prevent damage to the pedestrians .

The hinge shaft is inserted between the rotating means 30 and the supporting plate 40 in the form of a plate for sealing both sides of the rotating means 30 and is fastened to the rotating long hole 41 and the fixing portion 34. [ And a sealing plate 50 on which a bolt hole 51 through which a bolt is inserted is formed.

That is, the hinge shaft, the rotating long hole 41, and the fixing portion 34, which are fastened to the rotating unit 30 and the support plate 40, are prevented from being introduced into the rotating unit 30 through the sealing plate 50, So that the fixing force of the bolts fastened to the bolts can be improved.

A fixed cap 60 is provided to fix a tip end of the jetting part 31 formed in the rotating unit 30 and to form a fixing hole 61 for fixing the jetting nozzle 23.

The fixing cap 60 may be integrally formed in the longitudinal direction of the rotating unit 30, but it is also possible to form the fixing hole 61 in a semicircular shape at both sides of the injection nozzle 23 as shown in FIG. It is more preferable for the installation method and maintenance.

On the other hand, a separate control means 17 for controlling the spray pump 13 and the compressor 14 is provided.

The led module 70 is provided on the upper side of the rotating unit 30 and the led module 70 detects that the spray pump 13 and the compressor 14 are driven by the control unit 17 And is configured to operate in an interlocked manner.

That is, when the cooling water is injected according to the light emission of the LED module 70, the emission light of the LED module 70 is reflected on the cooling water when the cooling water is injected, thereby realizing an aesthetic sense inside the artificial structure .

When the humidity and the temperature are set and the humidity and temperature of the surroundings reach the set values by the measurement sensor 80, the control means 17 sets the humidity and the temperature And is configured to automatically drive the spray pump 13 and the compressor 14 of the supply means 10.

A display unit (not shown) is provided to indicate whether the spray pump 13 and the compressor 14 are driven by the control unit 17 in addition to the humidity and the temperature measured from the measurement sensor 80.

The display unit (not shown) notifies the users of the humidity and the temperature of the surroundings in addition to whether the spray pump 13 and the compressor 14 are driven.

On the other hand, an arbitrary humidity value and a temperature value are set in the control means 17, and the one-year humidity value and temperature value measured by the measurement sensor 80 are converted into a database by date and time zone.

The humidity value and the temperature value arbitrarily set by the control means 17 are compared with the humidity value and the temperature value measured through the measurement sensor 80, So that the spray pump 13 and the compressor 14 are driven through the control means 17.

Therefore, even if the user controls the separate control means 17, the spray pump 13 and the compressor 14 are controlled by the program, which is stored in the database in accordance with the date and time zone in which the humidity value and the temperature value set by the control means 17 are exceeded, It is possible to realize an unmanned system and effectively reduce the cost.

Here, the jetting section (31) and the rotation partitioning section (32) of the pivoting means (30) are formed with hot wire portions (38) through which heat rays are drawn, respectively, and are jetted through the jetting nozzle (23) It is possible to prevent condensation from being generated in the interior of the injection means 23 by the rotation means 30 and the cooling water during the winter while preventing condensation inside the rotation means 30.

10: Supply means 11: Storage tank
12: Supply piping 13: Spray pump
14: Compressor 15: Exhaust pipe
16: drain valve 17: control means
20: injection means 21: floating pipe
23: injection nozzle 30:
31: jetting partitioning part 32:
33: hinge portion 34:
35: guide plate 36:
37: collecting part 38: heat ray part
40: support plate 41:
50: sealing plate 51: bolt hole
60: Fixed cap 70: led module
80: Measuring sensor

Claims (7)

A supply means (10) for supplying cooling water;
And a plurality of injection nozzles (23) for discharging the cooling water, which is mounted on the flow pipe (21), to the outside, (20);
A rotating means (30) for rotating the injection means (20) in a pulled state and adjusting the injection angle of the cooling water injected through the injection means (20);
The hinge shaft 30 is coupled to the hinge unit 30 by a hinge shaft so that the hinge unit 30 is hinged so that the hinge unit 30 can be turned on a part of the radius of the hinge shaft. And a support plate 40 which is formed in the form of a plate bent in the horizontal direction and fixed by bolt fastening at a position to be installed,
The rotating unit 30 is divided into a jetting partitioning part 31 and a rotation partitioning part 32 having the jetting means 20,
The spray dividing section 31 is formed as a space partitioned forward and is structured such that the flow pipe 21 of the spraying means 20 is drawn in and the spray nozzle 23 is provided at the tip end to open the spraying nozzle ,
The hinged portion 33 is formed at one side of the rotation partition 32 to receive the hinge shaft to be coupled with the support plate 40 and the other end of the hinge portion 33 is coincident with the rotation hole 41 When the turning means 30 is rotated at a desired angle by the hinge axis at the point, the fixed portion 34 is fixed to the rotating long hole 41 by bolts and nuts,
The bottom surface of the rotating means 30 is formed to be inclined downward from the lower side of the jet nozzle 23 in the direction of the rotation partition 32 so as to guide the water generated in the jet nozzle 23 by condensation ),
One side of the guide plate 35 is provided with a dropping section 36 where moisture generated from the injection nozzle 23 drops and moisture which is moved by the dropping section 36 and the guide plate 35 to the other side of the guide plate 35 A collecting part 37 for collecting is formed,
And a discharge pipe (p) for discharging the collected water collectively to the lower side of the collecting part (37) of the rotating means (30). delete The method according to claim 1,
The hinge shaft is inserted between the rotation unit 30 and the support plate 40 in the form of a plate for sealing both sides of the rotation unit 30 and is fastened to the rotation long hole 41 and the fixing unit 34 And a sealing plate (50) on which a bolt hole (51) through which a bolt is inserted is formed. The method according to claim 1,
Characterized in that a fixed cap (60) fitted to the tip end of the jetting section (31) formed in the rotating means (30) and having a fixing hole (61) for fixing the jetting nozzle (23) Solvent free cooling system. The method according to claim 1,
The supply means 10 includes a storage tank 11 for storing and supplying cooling water supplied from the outside and a filter for filtering the foreign substances from the cooling water stored in the storage tank 11, A spray pump 13 for spraying the cooling water supplied from the storage tank 11 to the spray nozzle 23 through a pressure action, A compressor 14 installed in the supply pipe 12 for spraying the cooling water moved to the supply pipe 12 together with the spray pump 13 by compressed air to the injection nozzle 23, And a water discharge pipe (15) and a water discharge valve (16) installed in the pump (13) for discharging the cooling water remaining in the supply pipe. 6. The method of claim 5,
The spray pump 13 and the compressor 14 are controlled by a control means 17,
A led module 70 is provided on the upper side of the rotating unit 30,
Wherein the LED module (70) is interlocked and operated when the spray pump (13) and the compressor (14) are sensed to be driven by the control means (17). 6. The method of claim 5,
Wherein the spray partitioning part (31) and the rotation partitioning part (32) of the pivoting device (30) are formed with a heat ray part (38) into which a heat ray enters.

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