KR101773605B1 - Offshore wind simulation apparatus for egnerating a simulation model structure in offshore wind - Google Patents

Abstract

In order to simulate the influence of the ship on the sea wind of the present invention, in a sea wind simulator installed in a water tank in which model lines are arranged,
An air blowing unit installed on the outer side of the model line, installed in the water tank, for simulating the sea wind by providing the wind of the intensity set toward the model line; The air blowing unit is constructed in the same manner as the air blowing unit and is disposed on the outer side of the model line and is coaxial with the blowing unit around the model line and operates in the same direction as the blowing unit, A suction unit for maintaining direction and intensity of wind provided in the blowing unit; And a controller connected to the blowing unit and the suction unit and controlling the operation of the blowing unit and the suction unit, wherein the blowing unit and the suction unit are rotated by the control of the controller, At least one blower fan for generating wind or for sucking in wind; A base member for supporting the blowing fan while the blowing fan is installed on the water tub and arranging the blowing fan on the water surface; And a direction guiding member installed at one end of the blowing fan to form a discharge port of the wind or to control the direction of the wind which is installed at the other end of the blowing fan to form the suction port of the wind while being discharged or sucked. do.

Description

TECHNICAL FIELD [0001] The present invention relates to an offshore wind simulator for generating a simulated sea wind on a model water tank,

More particularly, the present invention relates to an offshore wind simulator that is capable of simulating a sea wind uniformly by controlling the wind in an artificially created space and generating a simulated sea wind To a simulator device.

In order to investigate the spread of soot from the plant or to build large structures such as bridges and buildings, a wind environment survey is carried out to determine the winds around buildings near the structure and to establish forecasts of windsolutions and measures accordingly.

For this investigation, there is actually a method to carry out the measurement in the field, but mainly the method of the scale modeling of the peripheral terrain and the investigation through the wind tunnel experiment is mainly used for the cost.

This wind tunnel has closed loop and open loop type. The closed loop type is suitable for the high quality experiment of high wind speed and low turbulence, requiring a lot of space and installation cost while having little power loss. It is advantageous in cost, but it is suitable for low-quality experiment of low wind speed and high turbulence for civil engineering and building structures with large power loss.

Such an example is disclosed in Korean Patent Application No. 10-2009-0103729 entitled " Small Wind Tunnel capable of Providing Various Wind Conditions ".

BACKGROUND ART [0002] The prior art relates to a small wind tunnel, and more particularly, to a small wind tunnel capable of easily providing various wind environments by having a wind-up portion provided with a plurality of wind-

There is no spatial problem in that the experimental section should have a long section for producing the surface environment and there is no time / cost problem in which a different surface environment must be produced every time. In the wind tunnel of the related art, by controlling the wind blowing portion instead, the expected wind environment can be simply created, and a small-scale wind tunnel can be supplied at a low cost, thereby providing various wind environments that are controlled in advance.

The control unit is provided with a wind speed sensing unit for controlling the blowing unit so that the control unit can control the precise wind environment by feeding back the current wind speed distribution.

On the other hand, it is possible to easily control the wind when the wind tunnel test is possible because the small-sized space can be sealed easily. It is possible to test the marine environment simulating the sea wind while controlling the uniform wind or intensity, It is not easy to simulate the ocean environment and conduct wind tunnel experiments while controlling the wind in a large-scale space where the influence of the line wind should be tested.

Accordingly, there is a continuing demand for a device that uniformly generates and maintains winds similar to the sea wind, even in a large-scale space in which a wind tunnel test is to be conducted as described above.

Korean Registered Patent No. 10-0954238 (Title: Small wind tunnel capable of providing various wind environments)

SUMMARY OF THE INVENTION The present invention has been made in order to overcome the problems of the prior art as described above and provides a marine wind simulator for generating simulated sea air in a model water tank provided with a function capable of simulating sea wind in a large- .

Another object of the present invention is to provide an ocean wind-like simulating apparatus for generating a sea wind in a model water tank provided with a function of evenly distributing the wind and controlling the direction.

In order to achieve the above-mentioned object, an apparatus for generating a simulated sea air in a model water tank of the present invention comprises a water tank installed in a water tank in which model lines are arranged to simulate the influence of the ship on the sea water, An air blowing unit installed on the outer side of the model line and installed in the water tank to simulate the sea wind by providing the wind of the intensity set toward the model line; The air blowing unit is constructed in the same manner as the air blowing unit and is disposed on the outer side of the model line and is coaxial with the blowing unit around the model line and operates in the same direction as the blowing unit, A suction unit for maintaining direction and intensity of wind provided in the blowing unit; And a controller connected to the blowing unit and the suction unit and controlling the operation of the blowing unit and the suction unit, wherein the blowing unit and the suction unit are rotated by the control of the controller, At least one blower fan for generating wind or for sucking in wind; A base member for supporting the blowing fan while the blowing fan is installed on the water tub and arranging the blowing fan on the water surface; And a direction guiding member installed at one end of the blowing fan to form a discharge port for the wind or to control the direction of the wind which is installed at the other end of the blowing fan to form the suction port of the wind while being discharged or sucked.

The base member may include: a base table made of a steel material corresponding to the blowing fan and detachably coupled to a lower portion of the blowing fan; And a base frame made of a steel material and fixed to the upper part of the base table, and a base provided at a lower part of the bottom part of the water tank to provide a supporting force to the base table.

The direction inducing member may include a rectangular induction duct mounted on a discharge port or a suction port of the blowing fan corresponding to the blowing fan to induce a wind direction; A duct body coupled to an inlet side of the induction duct to finish the induction duct to provide a wind blowing or a suction passage through the blowing fan; And a guide vane installed on the side surface of the duct frame body so as to be rotatable at a plurality of horizontally spaced intervals and connected by a linker to move up and down to adjust the angle of the wind.

The direction guiding member may further include a honeycomb panel disposed inside the guide vane of the duct frame body and having a honeycomb-shaped hollow hole for distributing the wind generated or sucked by the blowing fan to a predetermined intensity can do.

The air blowing unit and the suction unit may further include a fan bracket that connects the plurality of blowing fans together to maintain the blowing direction and the suction direction of the wind.

In addition, the controller may include a wireless communication module that wirelessly controls operation of the blowing unit and the suction unit using the wireless terminal.

In addition, the direction guiding member can control the operation of the guide vane in the vertical direction while being moved integrally under the control of the controller in a state where both ends of the guide vane are connected to the linker.

The present invention relates to an apparatus for generating a simulated sea air in a model water tank, which uses a controller to adjust wind direction and direction of an air blowing unit and a suction unit to generate winds of an intensity and direction set in an artificial large- An efficient model wind tunnel test is possible.

In addition, it is possible to insert the honeycomb panel into the duct frame body to maintain the wind intensity set at the time of wind blowing or suction.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual diagram of an ocean wind simulator for generating simulated sea air in a model water tank according to an embodiment of the present invention; FIG.
2 is a perspective view of the air blowing unit and the suction unit.
3 is an enlarged perspective view of a blowing fan portion of the blowing unit and the suction unit.
4 is an enlarged perspective view of the duct frame.
5 is a perspective view showing a front portion of the air blowing unit and the suction unit.
6 is a perspective view showing a rear portion of the air blowing unit and the suction unit;
7 is a perspective view of the base member.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

2 is a perspective view of the air blowing unit and the suction unit, and Fig. 3 is a perspective view of the air blowing unit and the suction unit. Fig. FIG. 5 is a perspective view showing a front portion of the air blowing unit and a suction unit, FIG. 6 is a perspective view showing a rear portion of the air blowing unit and the suction unit, FIG. 6 is an enlarged perspective view of the air blowing fan portion, And Fig. 7 is a perspective view of the base member.

As shown in FIGS. 1 to 7, the present invention relates to an air blowing unit installed in a water tank in which model lines are arranged to simulate the influence of a ship on the sea air, A suction unit 200 and a controller 300. [

The air blowing unit 100 may be installed on the outer side of the model line 20 while being installed in the water tank 10 and may provide the wind of the intensity set toward the model line 20 to simulate the sea air.

The suction unit 200 is constructed in the same manner as the blowing unit 100 and is disposed on the other side of the model line 20 so as to be coaxial with the blowing unit 100 around the model line 20, So that the wind direction and intensity provided by the blowing unit 100 can be maintained while sucking the wind provided by the blowing unit 100. [

That is, the operator places the blowing unit 100 and the suction unit 200 facing each other, winds the model line 20 while adjusting the intensity of the wind, So that it is possible to simulate the sea air so that a constant wind is always maintained in the water tub 10.

The air blowing unit 100 and the suction unit 200 may include a blowing fan 210, a base member 220 and a direction inducing member 230.

The air blowing fan 210 may have at least one structure that rotates under the control of the controller 300 and winds or winds along the installation direction.

In order to use the present invention, an experimenter may combine several fans so that they face each other in the same direction, and the fan of the set strength Can be generated and controlled.

The base member 220 can be disposed on the water surface while the blowing fan 210 is supported while the base member 220 is installed on the water tub 10. [

The base member 220 may include a base table 222 and a base frame 224.

The base table 222 is made of a steel material corresponding to the blowing fan 210 and can be detachably coupled to the lower portion of the blowing fan 210.

The base frame 224 is made of a steel material and the base table 222 is fixed on the upper part and a lower part is provided on a part of the bottom surface of the water tank 10 to provide a supporting force to the base table 222.

The direction inducing member 230 is installed at one end of the blowing fan 210 to form a discharge port of the wind or to be installed at the other end of the blowing fan 210 to control the direction of the wind to be discharged or sucked, can do.

The directional guide member 230 may include an induction duct 232, a duct frame 234, and a guide vane 236.

The induction duct 232 is formed in a rectangular shape and can be installed at a discharge port or a suction port of the air blowing fan 210 corresponding to the air blowing fan 210 to guide the wind direction.

The duct frame body 234 may be coupled to the inlet side of the induction duct 232 to close the induction duct 232 to provide wind blowing or suction passage through the blowing fan 210.

The guide vane 236 is installed on the side surface of the duct frame 234 so as to be rotatable at a plurality of intervals in the horizontal direction and is connected by the linker 60 to move up and down to adjust the angle of the wind.

That is, the induction duct 232 may be formed in a rectangular shape so that the wind generated from the blowing fan 210 can be blown or sucked evenly.

The direction-inducing member 230 may further include a honeycomb panel 238.

The honeycomb panel 238 is disposed inside the guide vane 236 of the duct frame body 234 and has a honeycomb hollow hole for distributing the wind generated or sucked by the blowing fan 210 to a predetermined intensity Lt; / RTI >

The direction guiding member 230 can control the operation of the guide vane 236 in the vertical direction while moving integrally under the control of the controller 300 with both end portions of the guide vane 236 connected to the linker 60 have.

That is, it is possible to adjust not only the intensity of the wind but also the direction of the wind, so that the wind of the intensity set on the water tank 10 can be induced.

The air blowing unit 100 and the suction unit 200 may further include a fan bracket 226.

The fan bracket 226 can connect the plurality of blowing fans 210 together to maintain the same blowing direction and suction direction.

The controller 300 is connected to the blowing unit 100 and the suction unit 200 and can control the operation of the blowing unit 100 and the suction unit 20. [

The controller 300 may include a wireless communication module 310.

The wireless communication module 310 can wirelessly control the operation of the air blowing unit 100 and the suction unit 200 using the wireless terminal.

A method of operating an airflow simulating apparatus for generating simulated sea air in a model water tank of the present invention is a method in which an experimenter adjusts the wind intensity of the blowing unit 100 and the suction unit 200 under the control of the controller 300, The direction of the wind can be controlled by adjusting the rotation of the guide vane 236 by using the linker 60 and the wireless communication module 310 included in the controller 300 can be controlled, It is possible to remotely operate an external wireless terminal or the like with the sea wind simulator.

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, And such variations and modifications are intended to fall within the scope of the appended claims.

10: Water tank
20: Model Line
50: Marine wind simulator
60: Linker
100: blowing unit
200: Suction unit
210: blowing fan
220: Base member
222: Base table
224: Base frame
226: Fan bracket
230: direction guiding member
232: induction duct
234: duct body
236: Guide vane
238: Honeycomb panel
300: controller
310: Wireless communication module

Claims (7)

In order to simulate the influence of the ship on the sea wind, in the sea wind simulator installed in the water tank in which the model wire is arranged,
An air blowing unit installed on the outer side of the model line, installed in the water tank, for simulating the sea wind by providing the wind of the intensity set toward the model line;
The air blowing unit is constructed in the same manner as the air blowing unit and is arranged on the outer side of the model line and is coaxial with the blowing unit around the model line and operates in the same direction as the blowing unit, A suction unit for maintaining direction and intensity of wind provided in the blowing unit; And
And a controller connected to the blowing unit and the suction unit and controlling operation of the blowing unit and the suction unit,
Wherein the air blowing unit and the suction unit
At least one blowing fan that blows or winds along the installation direction while being rotated under the control of the controller;
A base member for supporting the blowing fan while the blowing fan is installed on the water tub and arranging the blowing fan on the water surface; And
And a direction guiding member installed at one end of the blowing fan to form a discharge port of the wind or to control the direction of the wind which is installed at the other end of the blowing fan to form the suction port of the wind while being discharged or sucked,
The direction-
A rectangular induction duct mounted on a discharge port or a suction port of the blowing fan corresponding to the blowing fan to induce a wind direction;
A duct body coupled to an inlet side of the induction duct to finish the induction duct to provide a wind blowing or a suction passage through the blowing fan;
A guide vane installed on a side surface of the duct frame body so as to be rotatable at a set interval in a horizontal direction and connected to each other by a linker to move up and down to adjust an angle of the wind; And
And a honeycomb panel disposed inside the guide vane of the duct frame and having a honeycomb-shaped hollow hole for distributing the wind generated or sucked by the blower fan to a predetermined intensity,
The guide vane,
The controller controls the controller so that both ends thereof are moved integrally in the vertical direction to adjust the angle of the wind,
Wherein the base member comprises:
A base table made of a steel material corresponding to the blowing fan and detachably coupled to a lower portion of the blowing fan; And
A base frame made of a steel material and fixed to the upper portion of the base table and provided at a lower portion of a bottom surface of the water tank to provide a supporting force to the base table,
Wherein the air blowing unit and the suction unit
And a fan bracket for connecting a plurality of the blowing fans to one another to keep the air blowing direction and the blowing direction of the wind the same,
The controller comprising:
And a wireless communication module for controlling the operation of the air blowing unit and the suction unit wirelessly using the wireless terminal,
In the honeycomb panel,
And the wind generated or suctioned by each of the blowing fans is distributed to a predetermined intensity, which is installed at the inlet side of each induction duct, and generates a simulated sea air in the model water tank.
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