KR101605021B1 - Environment-friendly Hydro-cooling Cooling Tower - Google Patents

Abstract

The present invention relates to an eco-friendly cooling tower for cooling and circulating water power and, more specifically, to an eco-friendly cooling tower for cooling and circulating water power, which provides a coolant used for lowering the heat generated in a product or a mold during operations such as injection molding, mold manufacture, product processing, etc. The present invention has the following effects. The tower enables a device for discharging hot air and cooling to be operated by using the force supplied by water required for cooling, without an extra motor for operating the device for discharging hot air and cooling. Therefore, electrical energy required for operating the motor is not consumed, and has the effects in providing an eco-friendly coolant circulation cycle, capable of saving the electrical energy.

Description

Eco-friendly Hydraulic Cooling Circulation Cooling Tower {omitted}

The present invention relates to an eco-friendly hydraulic cooling circulation cooling tower, a cooling device which rotates a blower fan by a hydraulic force and thereby discharges hot water as the hot water is dispersed and flows down from the bottom, and more specifically, Cooling water circulation cooling tower that provides cooling water used for lowering the heat generated by the temperature control inside the building and the operation of production of molding products.

Generally, a lot of heat is generated at the time of the operation such as the production of the injection molding product, and heat is generated inside the building due to the above operation.

As described above, when heat is generated, work efficiency and quality are lowered.

As described above, in order to prevent the deterioration of the work efficiency and quality, the work is performed to cool the mold so as not to generate heat such as mold cooling or product, and the temperature inside the building must be controlled through cooling.

As a typical cooling means for temperature control, a cooling method for cooling by using cooling water is widely used.

At this time, the cooling water to be used must be maintained at a temperature below a certain level to provide efficient cooling.

Therefore, a device for cooling water in order to provide cooling water in an appropriate state for using water as a cooling means is required, and water used as cooling water for cooling operation for preventing the heat of the mold or product from being generated is heated It is not suitable as a cooling means, and a device for lowering the temperature to make the water having a high temperature and the cooling water suitable for use as a cooling means again is necessary.

Conventionally, a technique for providing cooling water is a cooler that operates on the principle that a fan is operated by using a motor to lower the temperature of water. Since the cooler is equipped with a motor for operating a fan, , The heat generated when the motor rotates and the efficiency of electric energy consumed when the motor is operated are much lowered, and the cooling efficiency is also lowered, resulting in a waste of electric power.

On the other hand, the present invention forms a warm discharge and cooling device that operates by a hydraulic force, and it is not necessary to provide a motor separately.

That is, the warm discharge and cooling device operates using the force to supply the water requiring cooling, so that the warm discharge and cooling device can be operated without the cooling circulation pump.

As described above, it is possible to provide an eco-friendly hydraulic cooling circulation cooling tower having a cooling cycle that saves energy because it does not require additional electric energy to operate the fan, and provides cooling water in an environmentally friendly manner.

Korean Patent No. 10-1403938 (Apr. 29, 2014)

It is an object of the present invention to solve the above problems and provide an apparatus and a method for operating a heat discharging and cooling apparatus without requiring a separate electric energy by using a force to supply water requiring cooling, Friendly cooling water circulation cooling tower capable of providing cooling water in an environmentally friendly manner.

SUMMARY OF THE INVENTION [0006] The present invention provides a solution for achieving the above object.

A cooling circulation pipe 100 for receiving cooling water, supplying and discharging cooling water by a cooling water circulation pump 11, and circulating the cooling water;
A cooling water supply nozzle 210 formed adjacent to one end of the cooling circulation pipe 100 and supplied with cooling water from one end of the cooling circulation pipe 100 is provided, A heat discharging and cooling unit 200 provided inside the apparatus;
A cooling water discharge nozzle (not shown) formed at a lower portion of the warm discharge and cooling unit 200 and adapted to receive the cooled cooling water through the warm discharge and cooling unit 200 and discharge the cooling water to the other end of the adjacent cooling circulation pipe 100, And a cooling water storing and discharging unit (300) provided with a cooling water outlet (310)
The warm discharge and cooling device (250)
A warm discharge fan 251 formed at the upper end,
A power transmission rod 252 coupled to the warm discharge fan 251 and transmitting power to rotate the warm discharge fan 251,
And a warm air discharge device driving vane 253 fixed to the power transmission bar 252,
The warming-discharging and cooling-device driving vane (253)
Is formed to rotate by the cooling water pressure supplied from the cooling water supply nozzle (210)
And a heat exchange unit 400 formed between the warm discharge and cooling unit 200 and the cooling water storage and discharge unit 300,
The heat exchanger (400)
The upper part of the heat exchanging part 400 is connected to the lower end part of the warming discharging and cooling part 200 and the lower part of the heat exchanging part 400 is connected to the cooling water storing and discharging part 300, And the cooling filler 410 is inserted into the heat exchange unit 400,
The cooling water storing and discharging unit (300)
And a plurality of external air inlet holes 401 are formed on an outer upper surface of the heat exchanger 400 that is not adjacent to a lower end of the heat exchanger 400. As a result, Thereby solving the problem of.

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The present invention has the following effects.

That is, without the need for a separate motor to operate the warm discharge and cooling device, the warm discharge and cooling device can be operated using the force of the water that needs to be cooled,

The electric energy required for driving the motor is not consumed, thereby providing an eco-friendly cooling water circulation cycle that can save electric energy.

FIG. 1 is a perspective view showing the overall configuration of an environment-friendly hydro power cooling circulation cooling tower according to an embodiment of the present invention.
2 is a cross-sectional view showing the overall configuration of an environment-friendly hydraulic cooling circulation cooling tower according to an embodiment of the present invention.
FIG. 3 is a front view showing a whole configuration of an environmentally-friendly hydro-cooling circulation cooling tower according to an embodiment of the present invention viewed from another direction.
4 is a cross-sectional view illustrating the circulation process of the cooling water in the environmentally-friendly hydraulic cooling circulation cooling tower according to the embodiment of the present invention.
FIG. 5 illustrates a first cooling step (S100) of an environmentally-friendly hydro power cooling circulation cooling tower according to an embodiment of the present invention.
FIG. 6 illustrates a second cooling step S200 of the eco-friendly hydraulic cooling circulation cooler tower according to the embodiment of the present invention.
FIG. 7 illustrates a third cooling step (S300) of an environmentally-friendly water-cooled cooling circulation cooler tower according to an embodiment of the present invention.
8 is a flowchart illustrating a cooling water circulation process of the environmentally-friendly water-cooled cooling circulation cooler tower according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, it should be noted that, in the drawings, the same components or parts have the same reference numerals as much as possible.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

The terms "about "," substantially ", etc. used to the extent that they are used herein are intended to approximate the numerical values when the manufacturing and material tolerances inherent in the meanings mentioned are presented, Absolute numbers are used to prevent unauthorized exploitation by unauthorized intruders of the mentioned disclosure.

The present invention is summarized as follows.

A cooling circulation pipe 100 for receiving cooling water, supplying and discharging cooling water by a cooling water circulation pump 11, and circulating the cooling water; A cooling water supply nozzle 210 formed adjacent to one end of the cooling circulation pipe 100 and supplied with cooling water from one end of the cooling circulation pipe 100 is provided, A heat discharging and cooling unit 200 provided inside the apparatus; A cooling water discharge nozzle (not shown) formed at a lower portion of the warm discharge and cooling unit 200 and adapted to receive the cooled cooling water through the warm discharge and cooling unit 200 and discharge the cooling water to the other end of the adjacent cooling circulation pipe 100, And a cooling water storing and discharging unit 300 provided with a cooling fan 310. The warming discharging and cooling unit 250 includes a warm discharge fan 251 formed at an upper end, A power transmission rod 252 for transmitting power to rotate the warm discharge fan 251 and a warm discharge cooler driving vane 253 fixed to the power transmission rod 252, The warming discharge and cooling device driving vane 253 is formed to rotate by the cooling water pressure supplied from the cooling water supply nozzle 210 and the warming discharging and cooling unit driving water vane 253 is rotated by the cooling water pressure supplied from the cooling water supply nozzle 210, And a heat exchanging part 400 formed between the heat exchanging part 400, The upper part of the heat exchanging part 400 is connected to the lower end of the heat exchanging part 400 and the lower part of the heat exchanging part 400 is connected to the cooling water storing and discharging part 300, The cooling water storing and discharging unit 300 is formed so that the inside of the heat exchanging unit 400 is adjacent to the upper end of the heat exchanging unit 400, And a plurality of external air inlet holes 401 are formed on an outer upper surface of the heat exchanger 400 that is not adjacent to a lower end of the heat exchanger 400. [

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FIG. 1 is a perspective view showing the overall configuration of an environment-friendly hydro power cooling circulation cooling tower according to an embodiment of the present invention.

As shown in Fig. 1, the cooling circulation pipe 100 is formed to receive cooling water, to supply and discharge cooling water, and to circulate the cooling water.

The cooling water is used to lower the heat of the heating device 10,

The heating device 10 refers to a device for performing an operation such as an injection molding operation or the like in which the temperature rises in the building or the inside of the building where the temperature rises.

The cooling circulation pipe (100) circulates the cooling water by a cooling circulation pump (11).

The warm discharge and cooling unit 200 is formed to be adjacent to the cooling circulation pipe 100 and one end thereof so that the cooling water can be supplied from the cooling circulation pipe 100.

A cooling water supply nozzle 210, which is formed to increase the pressure of the cooling water supplied from the cooling circulation pipe 100, is provided in the warm discharge and cooling unit 200.

Also, although not shown in FIG. 1, the warm discharge and cooling unit 200 is formed with a warm discharge cooler 250 therein.

The heat exchanging part 400 is formed below the warming-out and cooling part 200 and is formed so as to be adjacent to each other and to pass through the inside thereof.

The cooling water is cooled in the warm discharge and cooling part 200, and the cooling water is supplied to the heat exchange part 400, so that the secondary cooling and the tertiary cooling proceed.

The cooling water storing and discharging unit 300 formed at the lower portion of the heat exchanging unit 400 is formed so as to be adjacent to the heat exchanging unit 400 so as to pass through the inside of the heat exchanging unit 400. The cooled cooling water is supplied from the heat exchanging unit 400 And discharges the cooling water to the cooling circulation pipe 100.

The cooling water storing and discharging unit 300 has a plurality of outside air inlet holes 401 formed in an upper end surface adjacent to the heat exchanging unit 400 so that the internal cold air can be drawn in. So that cooling can be efficiently assisted.

The external shape of the warm discharge and cooling unit 200, the heat exchange unit 400, and the cooling water storage and discharge unit 300 is preferably made of stainless steel so as to prevent rusting and environmental pollution. It is not limited to stainless steel.

2 is a cross-sectional view showing the overall configuration of an environment-friendly hydraulic cooling circulation cooling tower according to an embodiment of the present invention.

As shown in FIG. 2, the warming and cooling device 250 is formed including the warming and cooling device driving vane 253, the power transmitting rod 252, and the warming-out fan 251.

A cooling water supply nozzle 210 is formed to increase the pressure of the cooling water supplied from the cooling circulation pipe 100 and the cooling water having a pressure higher than that of the cooling water supply nozzle 210 is supplied to the warming and cooling device driving vane 253 The warming discharging and cooling device driving vane 253 is rotated, and the warming discharging and cooling device 250 is driven.

At this time, the cooling water stream colliding with the warming-discharging and cooling device driving vane 253 is dispersed to lose heat.

Further, the warming and cooling device 250 rotates, the warming-out fan 251 is driven, and the steam is discharged to the outside, so that the primary cooling proceeds.

The primary cooling water is supplied to the heat exchanging part 400. The cooling water dispersed due to the rotation of the warming exhaust and cooling device driving vane 253 is scattered to the inner wall of the heat exchanging part 400 and moves downward. The cooling of the vehicle proceeds.

After the second cooling, the third cooling is performed by the cooling filler 410 formed in the heat exchange unit 400.

The cooling filler material 410 is generally used as a heat transfer medium. In order to maximize the heat exchange efficiency by lengthening the heat transfer area and the flotation time of water and air, the cooling filler material 410 is formed of a droplet, And a cooling filler material 410 to be inserted into the heat exchange unit 400 is not limited to any one type and material but may be changed according to the structure.

After the third cooling in the heat exchanging part 400, the cooling water is supplied to the cooling water storing and discharging part 300.

The cooling water storing and discharging unit 300, which is supplied with the cooling water,

Is supplied to the cooling circulation pipe (100) through the cooling water supply nozzle (310) formed in the cooling water storage and discharge unit (300).

The circulation of the cooling water circulates the cooling water circulated through the cooling circulation pipe 100 by cooling the heat generating device 10 and the cooling water circulated by the cooling circulation pump 11 connected to the cooling circulation pipe 100, .

FIG. 3 is a front view showing a whole configuration of an environmentally-friendly water cooling cooling and cooling tower according to an embodiment of the present invention viewed from another direction.

As shown in FIG. 3, the entire configuration of the environmentally-friendly hydraulic cooling circulation cooling tower is viewed from above. The cooling exhaust pipe 251 is formed in the cool air discharge and cooling device 250, A heat generating device 10, and a cooling circulation pump 10 are shown.

FIG. 4 is an enlarged view showing a driving scene in a warming-up and cooling device driving vane 253 of an environment-friendly hydraulic cooling circulation cooling tower according to an embodiment of the present invention.

4, the warm discharge and cooling device driving vane 253 is driven by the pressure of the cooling water provided in the cooling water supply nozzle 210, and the warming and cooling device driving vane 253 The cooling water stream is dispersed and the heat is lost.

Further, the warming and cooling device 250 rotates, the warming-out fan 251 is driven, and the steam is discharged to the outside, so that the primary cooling proceeds.

FIG. 5 illustrates a first cooling step (S100) of an environmentally-friendly hydro power cooling circulation cooling tower according to an embodiment of the present invention.

As shown in FIG. 5, the primary cooling step (S100) uses the pressure of cooling water supplied from the cooling water supply nozzle 210 to drive the warm discharging and cooling device driving vanes 253, By the rotation of the cooling device driving vane 253, the cooling water is dispersed and the cooling progresses.

As shown in the drawing, the outside air is introduced through the outside air inlet hole 401 to improve the cooling efficiency.

FIG. 6 illustrates a second cooling step S200 of the eco-friendly hydraulic cooling circulation cooler tower according to the embodiment of the present invention.

6, in the second cooling step S200, the cooling water dispersed in the first cooling step S100 is scattered to the inner surface of the heat exchanging part 400, and is closely contacted with the inner surface of the heat exchanging part 400 The cooling water progresses as the cooling water loses heat to the inner surface of the heat exchanging part 400. As a result,

FIG. 7 illustrates a third cooling step (S300) of an environmentally-friendly water-cooled cooling circulation cooler tower according to an embodiment of the present invention.

7, in the third cooling step S300, the cooling water is supplied to the cooling filler 410 formed inside the heat exchanging part 400 after the second cooling step S200, so that the cooling filler 410, The cooling proceeds.

8 is a flowchart illustrating a cooling water circulation process of the environmentally-friendly water-cooled cooling circulation cooler tower according to the embodiment of the present invention.

As shown in FIG. 8, the cooling water used for cooling the heat generator device 10 has a temperature rising and can not be used as cooling water. Therefore, a cooling circulation process for cooling the cooling water to an appropriate temperature Is required.

The cooling water whose temperature is increased for cooling the heating device 10 is supplied to the cooling water supply nozzle 210 through the cooling circulation pipe 100 connected to the cooling circulation pump 11.

The cooling water is supplied to the heat discharging and cooling unit 200 under a certain pressure by the cooling water supply nozzle 210 and is cooled in the primary cooling step S100 and then supplied to the heat exchanging unit 400 after the primary cooling, The cooling water is supplied to the cooling circulation pipe 100 through the cooling water storing and discharging unit 300 through the cooling process in the car cooling step S200 and the third cooling step S300, It is used.

As described above, the present invention is an eco-friendly hydro-cooling circulation cooling tower that can provide efficient and environmentally friendly cooling water through the warming and cooling device 250 driven by the power supplied by the cooling water.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be clear to those who have knowledge.

11: Cooling circulation pump
100: cooling circulation piping
200: Heat exhaust and cooling unit
210: Cooling water supply nozzle
250: Heat exhaust and cooling system
251: Warm-up exhaust fan
252: Power transmission rod
253: Warm exhaust and cooling device drive wing
300: Cooling water sucking and discharging part
310: Cooling water discharge nozzle
400: heat exchanger
401: Outer opening hole
410: cooling filler

Claims (2)

A cooling circulation pipe (100) for receiving cooling water, supplying and discharging cooling water by a cooling water circulation pump (11) and circulating the cooling water;
A cooling water supply nozzle 210 formed adjacent to one end of the cooling circulation pipe 100 and supplied with cooling water from one end of the cooling circulation pipe 100 is provided, A heat discharging and cooling unit 200 provided inside the apparatus;
A cooling water discharge nozzle (not shown) formed at a lower portion of the warm discharge and cooling unit 200 and adapted to receive the cooled cooling water through the warm discharge and cooling unit 200 and discharge the cooling water to the other end of the adjacent cooling circulation pipe 100, And a cooling water storing and discharging unit (300) provided with a cooling water outlet (310)
The warm discharge and cooling device (250)
A warm discharge fan 251 formed at the upper end,
A power transmission rod 252 coupled to the warm discharge fan 251 and transmitting power to rotate the warm discharge fan 251,
And a warm air discharge device driving vane 253 fixed to the power transmission bar 252,
The warming-discharging and cooling-device driving vane (253)
Is formed to rotate by the cooling water pressure supplied from the cooling water supply nozzle (210)
And a heat exchange unit 400 formed between the warm discharge and cooling unit 200 and the cooling water storage and discharge unit 300,
The heat exchanger (400)
The upper part of the heat exchanging part 400 is connected to the lower end part of the warming discharging and cooling part 200 and the lower part of the heat exchanging part 400 is connected to the cooling water storing and discharging part 300, And the cooling filler 410 is inserted into the heat exchange unit 400,
The cooling water storing and discharging unit (300)
Wherein a plurality of outside air intake holes (401) are formed in an outer upper surface of the heat exchanging part (400) which is larger than a diameter of a lower end of the heat exchanging part (400) and is not adjacent to a lower end part of the heat exchanging part .

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