KR101949173B1 - Pipe organ using wave of sea and marine theme park the same - Google Patents

Abstract

The present invention relates to a pipe organ using waves and an ocean theme park including the same. The pipe organ using the waves comprises: a first air supply device including an air inflow pipe installed in order for inner air to flow when seawater flows inside by the waves; a second air supply device including an air tank connected to the air inflow pipe, an air blower installed in the air tank to supply outer air to others except for the air inflow pipe, and an air supply adjusting unit installed to open and close a blast pipe connected between the air tank and the air blower; and a sound device including a sound pipe installed to generate sound by the air flowing inside from the air tank. Also, the ocean theme park includes a structure built to have the pipe organ and accommodate tourists. The structure includes: a sound and media space positioned at the center, wherein the sound pipe is installed in the sound and media space; a sound blasting and transmitting space installed as an empty space of a predetermined area to transmit the sound generated by the sound pipe; and at least one among a rest space, an experience space, and a sound space, which are installed to be adjacent to the sound blasting and transmitting space while being divided from the sound blasting and transmitting space.

Description

{Pipe organ using wave of sea and marine theme park the same}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pipe organ which is supplied with air using repetitive panning waves, more specifically, collects air flowing by a wave, generates sound of a pipe organ using the air, The present invention relates to a pipe organ using a wave so that an experience space for playing an organ is provided, and a marine theme park having the pipe organ.

In general, as society develops and becomes more sophisticated, the quality of life is significantly improved compared to the past. As a result, citizens' desire for leisure, hobbies, and outdoor activities is increasing. As a result, there are many amusement parks and water facilities.

On the other hand, Korea is surrounded by sea on three sides, and there are many structures such as breakwaters on the coast. In Korea 's Yeongjin Port, sounds such as pipe organs are faint on the days when winds and waves are severe, and are widely known as tourist attractions that tourists frequently visit.

In this way, efforts should be made to install special structures on the coast by using waves or winds and utilize them as tourism resources.

Registered Utility Model No. 20-0454635 of Korea Register (Notice of July 19, 2011)

The object of the present invention, which is conceived in view of the above-described needs, is to provide an air conditioner in which air is supplied at a constant air pressure or more by being pushed by the movement of a wave, air is selectively supplied to the sound pipes by the operation of the automatic player, To provide a pipe organ.

Another object of the present invention is to provide a marine theme park including an experience space including a foot keyboard and a rest space so that a pipe organ using waves can be played by a user.

In order to achieve the above-mentioned object, a pipe organ using waves according to the present invention comprises: a first air supply device having an air inlet pipe installed to flow the inside air while the seawater is introduced by waves; A second air supply including an air tank connected to the air inflow pipe, a blower installed to supply outside air other than the air inflow pipe to the air tank, and air supply adjusting means provided to automatically open and close a blowing pipe connected between the air tank and the blower And an acoustic device having an acoustic pipe installed to generate sound by the air introduced from the air tank.

Here, the first air supply device may be installed so that the air flowing in the air inflow pipe flows to the air tank when the pressure is equal to or higher than the set pressure, and is blocked when the pressure is lower than the set pressure.

In addition, the second air supply device may block the blowing pipe when the air pressure in the air tank is higher than the set pressure, and may open the blowing pipe to allow the air of the blower to flow to the air tank.

On the other hand, the first air supply device is provided with an air spring valve installed to open the air inflow pipe when the air in the air inflow pipe flowing with inflow of seawater flows above the set pressure, Closing valve installed to automatically or manually close the air inflow pipe in an emergency when the air inflow pipe is closed by the air spring valve when the air inflow pipe is closed, .

The first air supply device may further include an auxiliary blower installed to measure the air pressure in the air inlet pipe and to supply the air to reach the set pressure when the pressure is less than the set pressure.

As another example, the first air supply device may include a first air inflow pipe embedded in a breakwater to receive seawater, a first intermediate air tank connected to the first air inflow pipe, a second air inflow pipe connected to the first intermediate air tank, A second intermediate air tank connected to the first intermediate air tank, a second intermediate air tank connected to the second air tank, a third air inflow pipe connected to the second air tank and the air tank, a first air inflow pipe connected to the second intermediate tank, A pump, and a second air pump installed to flow the air of the second intermediate air tank to the air tank at a set pressure.

The first air inlet pipe may be provided with an air spring valve, an air check valve, and an air supply pipe.

The air inlet pipe may be formed of one pipe or a plurality of pipes so that the diameter of the air inlet pipe is reduced from one side where the sea water is introduced to the other side connected to the air tank.

On the other hand, the air supply adjusting means may include a sensor for measuring the air pressure in the air tank, and a shut-off film which is raised when the air pressure is lower than the set pressure to open the blowing pipe,

The acoustic device may further include an air box provided with an acoustic pipe while air is introduced from the air tank while the acoustic pipe is installed, and an acoustic pipe opening / closing valve installed to open / close at least one acoustic pipe.

Further, the pipe organ of the present invention may further include an automatic playing device in which a musical piece is input, and a corresponding sound is generated in the sound pipe by controlling the sound pipe opening / closing valve during playing.

Meanwhile, the marine theme park including the pipe organ of the present invention may include a structure in which a pipe organ is installed while accommodating tourists.

Here, the structure includes a sound and media space located at the center while the sound pipe is installed, a sound ringing and conveying space provided with an empty space of a predetermined area to transmit sound generated from the sound pipe, An experience space, and an acoustic space provided adjacent to the transmission space.

At this time, a plurality of sound transmission holes may be formed in at least one of the rest space, the experiential space, and the acoustic space so that the sound of the sound and the sound of the playing sound flowing in the transmission space are introduced.

These structures are semicircular in plan view and are constructed in such a way that a wide space is provided at the center, sound space is provided along the rear part of the structure, sound and media space are arranged at the center along the front part, A space, a resting space, and an acoustic space may be sequentially provided.

On the other hand, the sound and media space may further include a screen installed in front of the sound pipe. At this time, the performance sound generated from the acoustic pipe can be made to flow along the sounding and transmission space.

In addition, a media device for outputting an image produced in accordance with a promotional image or performance music on a screen may be interlocked with an automatic playing device, and when the music is played, the corresponding image may be output to a screen.

In addition, the experience space may include foot keys provided for tourists. At this time, the automatic performance apparatus receives all the signals necessary for performance, including on / off signals of the foot keys, position signals of the keys pressed on the foot keys, and the like, And may be provided so as to open the on-off valve.

And the acoustic space may include an installed species that generates a respective sound on the ceiling or on a number of pillars.

At this time, the foot keyboard may be provided with two pieces for operating the pipe organs or species, or one for operating the pipe organs or species through the selection switch, or at least one for operating the pipe organs and paper, Two may be provided.

In addition, the automatic playing device may be arranged to receive a selection signal that selects the operation of the pipe organ or the species before activating the foot keyboard, and to select a corresponding species according to the position signal of the key pressed on the foot keyboard have.

As described above, according to the present invention, the seawater flows into the air inflow pipe by the pushing wave, pushes up the air, and is discharged through the acoustic pipe through the air tank, whereby the water pressure of the wave is changed to the air pressure, So that it is possible to generate a playing sound of the pipe organ.

In addition, when the air pressure is insufficient for playing the pipe organ because the waves are weak, air supplied from the blower is used, thereby providing stable air at all times.

In the marine theme park, the sound pipe of the pipe orifice is disposed at the center of the structure, and sound and sound are transmitted to both sides of the structure, so that the performance sound generated from the sound pipe can be uniformly distributed throughout the structure.

In addition, the wall for dividing the sounding and transmitting space has a sound transmitting hole for communicating with a space where the tourists move and swarm, so that the sound to be played can be heard clearly everywhere.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description, serve to further the understanding of the technical idea of the invention, Should not be interpreted.
FIG. 1 is a schematic view of a pipe organ according to a preferred embodiment of the present invention.
FIG. 2 is a diagram showing a different configuration of FIG.
FIG. 3 is an enlarged view of the pipe section in FIG.
Fig. 4 is a configuration diagram of Fig. 1 and Fig.
5 is a configuration diagram illustrating the embodiment of FIG.
Fig. 6 is a view schematically showing another embodiment based on Fig. 2. Fig.
FIG. 7 is a schematic view of a marine theme park having the pipe organ of FIG. 1. FIG.
Fig. 8 is a plan view of the inside of Fig. 7.
Fig. 9 is a view schematically showing the flow of air in Fig. 7; Fig.
FIG. 10 is a view showing the foot keyboard provided in the experience space in FIG.
11 is a view showing an acoustic space in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

<Configuration>

In the pipe organ using waves according to the present invention, the air in the air inlet pipe flows into the air tank by the water pressure of the wave, the air in the air tank is charged into the air box connected with the pipe, Air in the air box is supplied to the pipe to generate sound.

Here, a plurality of pipes may be installed in such a manner that the diameter of the air inlet pipe from the shore to the air tank is reduced so that air is supplied to the air tank at a predetermined pressure or more.

An air spring valve that is opened when the air pressure in the air inlet pipe is higher than a predetermined standard and is closed when the air pressure inside the air inlet pipe is lower than a predetermined standard is opened so that outside air can be introduced while the air spring valve is closed so that air does not retreat along the escaping water pressure An air check valve, a first opening / closing valve and a second opening / closing valve installed to operate automatically and manually to close the air inlet pipe in an emergency can be provided.

Here, the air check valve is closed when the air spring valve is opened so as to supply air, and may be opened to allow the outside air to be introduced when the air spring valve is closed to prevent retreating of the supplied air. That is, the air inlet pipe is connected to the outside of the air supply pipe communicating with the outside in a 3-way manner, the air spring valve is installed at the intersection point to the air tank side, and the air check valve is installed in the air supply pipe.

On the other hand, when the flow of air by the waves is insufficient, the air supplied from the separately installed blower can be filled into the air tank. At this time, if the pressure in the air tank is lowered to a certain level or less, the blowing pipe between the blower and the air tank, which has been closed by the air supply adjusting means, is opened and air can be supplied from the blower to the air tank.

Meanwhile, the marine theme park having the above-described pipe organ is provided with an acoustic pipe of a pipe organ at the center of the structure, and the sound generated from the acoustic pipe is transmitted to the entire structure through the sounding and transmitting space, Pressing can cause the pipe organ and paper in the acoustic space to act to generate sound. At this time, one or more foot keys may be provided, the pipe organs or paper may be operated separately, or the pipe organs or paper may be operated with each foot key, or the paper organs and paper may be cooperated. In addition, the resting area, fountain, and various sculptures can provide a variety of sights and entertainment that tourists can enjoy, relax and enjoy.

<Pipe Organ Example>

Hereinafter, a pipe organ using a wave according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 5. FIG.

1, a pipe organ using waves according to the present invention includes a first air supply device 100, a second air supply device 200, a sound device 300, and an automatic player 400 .

First, as shown in FIG. 1, the first air supply device 100 is a device that supplies air to the second air supply device 200 using a water pressure of a wave. The first air supply device 100 includes an air inlet pipe 110, a gas pipe 120, an air spring valve 130, an air check valve 140, a first on-off valve 150 and a second on- 160 &lt; / RTI &gt;

As shown in FIGS. 1, 2 and 9, the air inlet pipe 110 is installed such that when the wave is pushed, the air in the pipe is pushed by the water pressure to be supplied to the air tank 210 of the second air supply device 200 . To this end, the air inlet pipe 110 may be installed such that one opening is located at the coastal breakwaters W and the other opening is located at the second air supply device 200. Therefore, the waves are pushed from the side of the breakwaters W and the seawater is introduced into the air inflow pipe 110 by a predetermined length, and the air in the inside of the pipe flows to the air tank 210 by the generated sea water pressure. And the air flowing in the tube can have air pressure every time it flows. This air pressure can generally be on the order of 0.012 bar (water closure 120 mm = 120 mmH ₂ 0), which can produce sound in the pipe organ.

The air inlet pipe 110 has a large diameter first air inlet pipe 111 embedded in the breakwaters W and having a diameter smaller than that of the first air inlet pipe 111, A second air inflow pipe 112 connecting the first air inflow pipe 111 and the third air inflow pipe 113 and a third air inflow pipe 112 connecting the second air inflow pipe 112 and the air tank 210, And a tube 113. In this way, a number of different tubes of diameter can be installed step by step, and a single tube having a diameter decreasing gradually may be installed. This structure of the air inlet pipe 110 is advantageous in order to generate the air pressure required for sound generation more and more.

As shown in FIG. 1 and FIG. 2, the microcomputer 120 is a tube for allowing outside air to flow while preventing the air from escaping together when the seawater flows out from the air inflow pipe 110. 2 or the second air inlet pipe 112 and is located at a position farther from the position where the seawater is maximally introduced It can be positioned closer to the air tank 210 side.

As shown in FIG. 4, the air spring valve 130 is a valve that supplies the air introduced through the air inlet pipe 110 to the air tank 210 and prevents the backward air supplied when the seawater is discharged. The air spring valve 130 is opened only when the air is advanced, and can be installed so as to be closed when the air is retracted. For example, the air spring valve 130 is opened only when the supplied air flows to the acoustic pipe 320 to form an air pressure of about 0.012 bar to generate sufficient sound, and is closed when the air pressure is less than about 0.012 bar Can be installed. This is to meet the requirement that the pressure of the air supplied by the waves must be supplied above a certain pneumatic pressure to generate a constant amount of sound as it passes through the acoustic pipe 320. At this time, when the air spring valve 130 is closed, air having a predetermined pressure or more can be supplied through the second air supply device 200, and a detailed description thereof will be described later.

As shown in FIG. 4, the air check valve 140 is installed so that the already supplied air does not escape when the seawater introduced into the air inflow pipe 110 escapes. The air check valve 140 is installed in the air supply pipe 120 and is closed when the air spring valve 130 is opened and can be opened when the air spring valve 130 is closed. For example, when positive pressure is applied as the seawater enters, the air spring valve 130 is opened to supply air, at which time the air check valve 140 can be closed. When the negative pressure is applied while the seawater escapes, the air spring valve 130 is closed to prevent the already-supplied air from being retreated, and the air check valve 140 is opened, And may be introduced into the inflow pipe 110. At this time, as the seawater escapes, the outside air is filled, and the filled air can be pushed by the incoming seawater to pass through the air spring valve 130.

As shown in FIG. 4, the first on-off valve 150 and the second on-off valve 160 are connected to the air inflow pipe 110 in a variety of cases including deterioration of the ocean including a typhoon, And is a valve installed to prevent damage to the apparatus. The first on-off valve 150 is installed to open and close the air inflow pipe 110 by an electronic signal in the control room and the second on-off valve 160 is installed in the air inflow pipe 110 by man- As shown in Fig.

1 to 3, the second air supply device 200 replenishes insufficient air in the air tank 210 when the air flowing into the air tank 210 from the air inflow pipe 110 is insufficient. . For example, when the second air supply device 200 generates a time and a period in which the waves are unstable due to a large deviation of the air and the air pressure, the second air supply device 200 cuts off excessive air supply by a typhoon and a wind- Or to provide a constant amount of air and pressure to the air tank 210 when a time and period of inactivity occur. The second air supply device 200 may include an air tank 210, an air supply pipe 220, a blower 230, and an air supply adjustment means 240.

1 and 4, the air tank 210 is a member that always stores a predetermined amount of air and supplies air to the air box 310 directly connected to the acoustic pipe 320. [ The air tank 210 may be installed to allow air to flow from the air inlet pipe 110 and the second air supply device 200. As shown in FIG. 5, one or more air tanks 210 may be installed to supply air to one acoustic device 300 or a plurality of acoustic devices 300.

The air supply pipe 220 is installed to guide the air in the air tank 210 to the air box 310.

The blower 230 is installed to supply the outside air to the air tank 210 through the blowing pipe 231. This blower 230 can provide the amount and pressure of air required for performance. For example, the blower 230 can supply air at a pressure of about 0.012 bar, which is the pressure of the air required during performance in the pipe organ. The blower 230 is stopped when the pressure of the air entering the air tank 210 through the air inlet pipe 110 is 0.012 bar or more, and may be set to operate when the pressure is less than 0.012 bar. At this time, if the pressure of the air flowing in the air inlet pipe 110 is less than 0.012 bar, the air spring valve 130 is closed, and if the pressure is 0.012 bar or more, the air spring valve 130 may be opened.

The air supply adjusting means 240 is means for blocking or allowing the flow of air generated in the blower 230 to flow into the air tank 210. The air supply adjusting means 240 may be installed to open or close a blowing pipe 231 connecting the blower 230 and the air tank 210. The air supply adjusting means 240 is provided with a sensor for measuring the air pressure inside the air tank 210 and a sensor for measuring the air pressure inside the air tank 210. The air supply adjusting means 240 moves up when the air pressure is lower than a predetermined pressure, And may include installed blocking membranes.

The air supply adjusting means 240 measures the internal air pressure of the air tank 210 and cuts off the air blowing pipe 231 when air is supplied from the air inflow pipe 110 to a predetermined pressure or higher, To flow into the acoustic pipe 320. When the air is supplied from the air inflow pipe 110 to less than a predetermined pressure, the blowing pipe 231 may be opened to induce the air of the blower 230 to flow to the acoustic pipe 320. In addition, the air supply adjusting means 240 may be provided to turn on / off the blower 230.

1 to 3, the sound apparatus 300 is configured to generate sound using the air supplied from the first air supply apparatus 100 or the second air supply apparatus 200. [ The sound apparatus 300 includes an air box 310 installed to allow the air in the air tank 210 to flow through the air supply pipe 220 and a plurality of An acoustic pipe 320 and an acoustic pipe open / close valve 330 installed to allow or block the inflow of air into the acoustic pipe 320. Accordingly, when one or more of the sound pipe opening / closing valves 330 are opened by receiving a signal from the automatic player 400 or the foot keyboard 3100 (see FIG. 8), air in the air box 310 is supplied to the corresponding sound pipe 320 ), The corresponding sound may be generated.

On the other hand, as shown in FIG. 4, the automatic player 400 receives electricity from the power source 410, and a plurality of songs that can be played by the pipe organ can be input in advance. Accordingly, when the automatic performance apparatus 400 receives the performance start signal of one of the tones, the sound pipe opening / closing valve 330 corresponding to the tune may be opened to generate sound at the sound pipe 320. Here, the power source 410 may be installed to supply electricity to the automatic player 400 as well as the blower 230.

The automatic player 400 may be installed in association with a media device that outputs an image on the screen 1100 in the sound and media space 1000 described later. Accordingly, a video of the music being played is output to the screen 1100, and the music to be listened to and the music to be viewed can be implemented together. At this time, the media device may be provided to store the publicity video, the image produced in accordance with the performance music, and output the corresponding image according to the music being played, or to output the publicity image at a time other than the performance.

<Other examples>

Hereinafter, another example of a pipe organ using waves will be described with reference to FIG. The same elements are denoted by the same terminology and reference numerals, and the description thereof is briefly referred to when necessary.

6, one or more intermediate air tanks installed in the middle of the air inflow pipe 110 installed from the breakwater W to the air tank 210, And an air pump for flowing the air to the air tank 210 or to the air tank 210.

The intermediate air tank is a place for temporarily storing the air supplied by the waves, and it is possible to sufficiently secure the air necessary for playing the pipe organ in advance.

The air pump may be installed to transfer air from one of the intermediate air tanks to another intermediate air tank and may be provided to supply air from the last intermediate air tank to the air tank at a constant pressure.

For example, the air supplied by the waves is stored in the first intermediate air tank 211, and when sufficiently stored, is transferred to the second intermediate air tank 212 by the first air pump 213, The air in the second intermediate air tank 212 can be supplied to the air tank 210 at a predetermined pressure required by the second air pump 214. Therefore, by collecting sufficient air in advance by the waves, if the waves are gentle and it is difficult to supply air, or if the air supply is interrupted or insufficient due to a typhoon or no wind, the first intermediate air tank 211 and / Air collected in the second intermediate air tank 212 can be used.

Here, the first air inlet pipe 111 is provided from the breakwater to the first intermediate air tank 211, and the second air inlet pipe 112 from the first intermediate air tank 211 to the second intermediate air tank 212 And a third air inlet pipe 113 from the second intermediate air tank 212 to the air tank 210 may be installed. The air spring 120 is connected to the first air inflow pipe 111 and the air spring valve 130 is connected to the first air inflow pipe 111. The air check valve 140 and the first on- An on-off valve 160 may be provided.

Since the pipe organ according to the present invention is installed on the coast, the humidity of the air is high and the air contains salt. Therefore, humidity control and desalination devices or filters may be installed inside the air tank 210 or before the air box 310 to prevent high humidity and salt from corroding the sound pipe 320. Also, the humidity and the salinity of the air can be measured, and when the predetermined value or more is reached, the humidity control and the desalination apparatus can be operated.

On the other hand, in the example of FIG. 1, a pressure measuring sensor and an auxiliary blower 215 may be additionally provided on the air inlet pipe 110. When the pressure of the air flowing through the air inlet pipe 110 by the wave is measured by the pressure measuring sensor and the auxiliary blower 215 (see FIG. 4) is supplied by the insufficient pressure when the pressure is less than the predetermined pressure based on the measured value Air having a constant pressure can be supplied through the air inlet pipe 110 with a sufficient amount. The auxiliary air blowing device 215 may be installed before the air spring valve 130 to provide external air introduced through the air supply pipe 120. The auxiliary air blowing device 215 may be a second air pump 214 in FIG. 6, and a pipe may be installed so that external air may be introduced into the second intermediate air tank 210 at this time. In addition to this structure, the second air supply device 200 can be additionally provided to cope with an emergency situation.

<Operation>

First, as shown in FIG. 1, the air inlet pipe 110 is always filled with air through the air supply pipe 120. When the sea water flows into the air inlet pipe 110 while the waves are struck, air in the air inlet pipe 110 can be supplied to the air tank 210 with a certain pressure. At this time, if the air in the air inlet pipe 110 does not have sufficient pressure for the performance, the air check valve 140 and the air spring valve 130 are kept closed, and if the air spring valve 130 To the air tank 210 while pushing it. When the seawater in the air inlet pipe 110 is released, the air spring valve 130 is closed so that the air check valve 140 is opened to allow the outside air to flow into the air inlet pipe 110 through the air supply pipe 120 .

If the air in the air inlet pipe 110 does not have enough pressure to flow into the air tank 210, the air pressure in the air tank 210 is measured. If the air pressure is not sufficient for the performance, The blower 230 can be operated while the adjusting means 240 is opened. Air having a constant pressure supplied from the blower 230 can be supplied to the air tank 210.

If the pressure of the air in the air inlet pipe 110 becomes a sufficient pressure and flows into the air tank 210, the air pressure in the air tank 210 is measured. If it is determined that the air pressure is sufficient, 240 are closed and the operation of the blower 230 is stopped.

<Marine theme park>

Hereinafter, a marine theme park having a pipe organ using waves according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 7 to 11. FIG.

As shown in FIGS. 7 and 8, the marine theme park according to the present invention is an approximately semicircular structure in plan view, and includes an acoustic and media space 1000 provided at the center, a rest space 2000 at both sides), an experience space 3000, A rest room 2000 and an acoustic room 4000 are arranged in this order and a fountain 6000 or a Jacobia park is provided on the rooftop of the room. A sounding and transmitting space 5000 may be provided so as to sound to the end. Of course, some of these spaces may be excluded or other spaces may be added or changed. In addition, it can be manufactured in various shapes other than a semicircular shape in the form of a structure.

First, as shown in FIGS. 1, 8, and 9, the sound and media space 1000 is provided with a large screen 1100 on the front side and a sound pipe 1100 on the rear side of the screen 1100, 320 may be installed. Here, the screen 1100 may output a promotional image or an image related to the performance music by the media device. Also, the connection structure S1 and the main pipe structure S2 can be manufactured so that the acoustic and media space 1000 is connected to the breakwater W to obtain air having sufficient pressure using waves. At this time, the first air inflow pipe 111 is embedded in the breakwaters W, the second air inflow pipe 112 is buried in the connection structure S1, the third air inflow pipe 113 An air tank 210, a second air supply device 200, and a sound device 300 may be installed.

In addition, the large screen 1100 can display a theme park advertisement, a company advertisement, a road or a city promotion, a video produced in accordance with the performance music can be broadcasted, and sales generated through the screen 1100 The theme park can be operated.

The sound pipe 320 is disposed behind the screen 1100 and disposed in the sounding and transmitting space 5000 so that the air supplied from the breakwater W to the air tank 210 through the air inflow pipe 110 flows So that sound can be generated. Sounds generated in the acoustic pipe 320 may be transmitted to both ends of the semicircular structure through the sounding and transmitting space 5000.

On the other hand, the sounding and transmitting space 5000 may be separated from the other spaces by walls so that the sound of the performance is transmitted far away. The sounding and transmitting space 5000 can be constructed as a space in which sound generated from the sound pipe 320 can be propagated as it is or sounds grandly. In addition, a plurality of sound transmission holes can be machined so as to communicate with the experience space 3000, in a sounding and resting space 2000 in order to transmit the sound to the tourists in the transmission space 5000). Thus, the playing sound generated by the acoustic pipe 320 may flow through the sounding and transmitting space 5000 and then be transmitted to the tourists through the sound transmitting hole.

On the other hand, the resting space (2000)) can be made as a space where tourists can relax. There is a chair, and sculptures including sculptures can be installed. In particular, in the resting space 2000, a pipe molding 2100 of various sizes and diameters similar to the shape of the acoustic pipe 320 is installed and the sound transmitting hole is machined so that the playing sound is transmitted through the pipe molding 2100 It is possible to provide visual and auditory satisfaction to tourists by providing illusion as if they are coming out.

On the other hand, the experience space (3000) can be set up to provide tourists with the opportunity to actually play the pipe organ. In this experience space 3000, a foot keyboard 3100 may be provided. Accordingly, when the tourists step on the foot keys 3100, the corresponding sounds can be generated in the acoustic pipe 320. The foot keyboard 3100 is connected to the automatic player 400. The automatic player 400 receives an on / off signal of the foot keyboard 3100 and confirms the position of the key pressed by the foot kick 3100 And the sound pipe opening / closing valve 330 corresponding to the sound is opened to generate a sound. At this time, the automatic player 400 may be omitted, and the foot keyboard 3100 and the acoustic pipe opening / closing valve 330 may be directly connected.

In addition, only one foot key 3100 is provided so that the pipe or organ 4100 can be operated through the switch selection, and the two foot keys 3100 are installed so that the pipe organ or species 4100 can be separately operated It may also work. In addition, the foot keyboard 3100 may be provided with two or more foot keys 3100 so that the pipe organ can cooperate or cooperate, or the pipe organ and the species 4100 can cooperate together .

On the other hand, the acoustic space 4000 may be located at both ends of the semicircular structure, and the bell 4100 may be provided on the ceiling or the plurality of pillars 4200 to generate corresponding sounds having different pitches. The bell 4100 is connected to the foot keyboard 3100, and when the foot key 3100 is depressed, the bell 4100 corresponding to the bell sound is generated and a corresponding sound may be generated. For this purpose, as many species 4100 as the number of scales of the foot keyboard 3100 can be provided.

As described above, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is defined by the appended claims, rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalents of the claims are to be construed as being included within the scope of the present invention do.

100: first air supply device
110: air inlet pipe 111: first air inlet pipe
112: second air inlet pipe 113: third air inlet pipe
120: air supply valve 130: air spring valve
140: air check valve 150: first 1-port valve
160: Second open / close valve
200: second air supply device
210: air tank 211: first intermediate air tank
212: second intermediate air tank 213: first air pump
214: second air pump 215: auxiliary blower
220: air supply pipe 230: blower
231: blowing pipe 240: air supply adjusting means
300: sound device
310: air box 320: acoustic pipe
330: Sound pipe opening / closing valve
400: Automatic playing device
410: Power source
1000: sound and media space 1100: screen
2000: Resting place 2100: Pipe sculpture
3000: Experience space 3100: Foot keyboard
4000: acoustic space 4100: species
4200: Column 5000: Sounding and transmitting space
6000: Fountain
W: Breakwater S1: Connection structure.
S2: Main building structure.

Claims (15)

A first air supply device (100) having an air inlet pipe (110) installed so that the inside air flows by the flow of seawater by waves;
An air tank 210 connected to the air inlet pipe 110, a blower 230 installed to supply outside air to the air tank 210, an air tank 210, A second air supply device 200 having an air supply adjusting means 240 installed to open and close a blowing pipe 231 connected between the first air supply device 230 and the second air supply device 200;
And an acoustic device (300) having an acoustic pipe (320) installed to generate sound by the air introduced from the air tank (210)
The first air supply device 100 is installed such that the air flowing in the air inlet pipe 110 flows to the air tank 210 when the pressure is equal to or higher than the set pressure,
The second air supply device 200 blocks the blowing pipe 231 when the air pressure in the air tank 210 is equal to or higher than the set pressure and opens the blowing pipe 231 when the air pressure in the air tank 210 is lower than the set pressure, A pipe organ using a wave configured to flow into a tank (210).
The method of claim 1,
The first air supply device 100 is provided with an air supply pipe 120 installed outside the air inlet pipe 110 to allow air to flow in from the air inlet pipe 110, An air spring valve 130 installed to open the inflow pipe 110 and an air check valve 130 installed to open the air supply pipe 120 when the air inflow pipe 110 is closed by the air spring valve 130 while the seawater flows out 140), and at least one of a first opening / closing valve (150) and a second opening / closing valve (160) installed to automatically or manually close the air inlet pipe (110) in an emergency.
3. The method of claim 2,
The first air supply device 100 further includes an auxiliary blower 215 installed to measure the air pressure in the air inlet pipe 110 and to supply the air pressure to reach the set pressure when the pressure is lower than the set pressure Pipe organ using waves.
3. The method of claim 2,
The first air supply device 100 includes a first air inflow pipe 111 buried in the breakwaters W into which seawater flows, a first intermediate air tank 211 connected to the first air inflow pipe 111, A second intermediate air tank 212 connected to the second air inlet pipe 112 and a second intermediate air tank 210 connected to the intermediate air tank 211 and a second intermediate air tank 212 connected to the air tank 210 A first air pump 213 installed to connect the first intermediate air tank 211 and the second intermediate air tank 212 to the first intermediate air tank 211 and the second intermediate air tank 212, Further comprising a second air pump (214) installed to flow the air in the tank (212) to the air tank (210) at a set pressure,
Wherein the first air inlet pipe (111) is provided with an air spring valve (130), an air check valve (140), and an air supply pipe (120).
3. The method of claim 2,
The air inlet pipe (110) is composed of a single pipe or a plurality of pipes connected to each other so that the diameter of the air inlet pipe (110) is reduced from one side of the sea water inflow to the other side connected to the air tank (210).
3. The method of claim 2,
When the air pressure is lower than the set pressure, the air supply adjusting means 240 opens the blowing pipe 231. If the air pressure is lower than the set pressure, the air supply adjusting means 240 lowers the blowing pipe 231, And a shielding film installed to close the pipe organ.
3. The method of claim 2,
The acoustic device 300 includes an air box 310 in which an acoustic pipe 320 is installed and at least one acoustic pipe 320 is opened and closed while air is introduced from the air tank 210 while an acoustic pipe 320 is installed And a sound pipe opening / closing valve (330) installed therein.
8. The method of claim 7,
And an automatic playing device (400) for controlling the sound pipe opening / closing valve (330) and generating a corresponding sound from the sound pipe (320).
A structure comprising a pipe organ according to any one of claims 1 to 8 and constructed to accommodate tourists,
The structure includes a sounding and transmitting space 5000 provided with a space of a predetermined area for transmitting sound generated from the sound and media space 1000 and sound pipe 320 located at the center while the sound pipe 320 is installed, A resting space 2000 provided adjacent to the sounding and transmitting space 5000 separated from the sounding and transmitting space 5000 and the space of at least one of the experiencing space 3000 and the acoustic space 4000 A marine theme park with a pipe organ using waves.
The method of claim 9,
A plurality of sound transmission holes are formed in at least one of the space (2000), the experience space (3000), and the sound space (4000) so that the sounding sound and the sound flowing in the transmission space (5000) A marine theme park with a pipe organ using waves.
The method of claim 9,
The structure is constructed in a semicircular shape in a plan view, a wide space is provided in the center of the structure, a sound ringing and transmission space 5000 is provided along the rear part of the structure, , A living room (2000) symmetrical to both sides), an experience space (3000), a rest space (2000), and an acoustic space (4000).
The method of claim 9,
The acoustic and media space 1000 further comprises a screen 1100 with an acoustic pipe 320,
A marine theme park having a pipe organ using a wave whose sound is generated by the sound pipe 320 and which is made to flow along the transmission space 5000.
The method of claim 12,
The media device for outputting the image produced in accordance with the promotional image or the performance music on the screen 1100 may be a media device that interlocks with the automatic player 400 and uses the wave that is output to the screen 1100 when the music is played Marine theme park with pipe organ.
The method of claim 9,
The experiential space 3000 includes a foot keyboard 3100 provided for use by tourists,
The automatic playing apparatus 400 receives all the signals necessary for performance including the position signal of the keys pressed by the foot keys 3100 and controls the sound pipe opening / And a pipe organ using waves constituted to open the water pipe (330).
The method of claim 14,
The acoustic space 4000 includes an installed species 4100 that generates a different sound height for each ceiling or a plurality of columns 4200,
The foot keyboard 3100 may be provided with two pieces for operating a pipe organ or a piece 4100 respectively or one piece for selecting and operating a pipe organ or piece 4100 through a selection switch, (4100) can be operated together to cooperate with each other,
The automatic performance apparatus 400 includes all the signals required for performance including the position signal of the keys pressed by the foot keys 3100 and the like, Marine theme park with organ.

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