JP2006116464A - Fountain jewelry device for synthetically making water jewelry, and control process therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fountain jewelry device for synthetically making water jewelry that enhances the effect of presentation by improving the water jewelry device, thereby conducting the control adapted for environmental conditions of the fountain, and to provide a control process therefor. <P>SOLUTION: The fountain jewelry device is provided with an electromagnetic valve control circuit 12 to control the supply of pressure water with a fountain nozzle 1A, a light projection direction control circuit 10 to control the projection direction of a LED (light emitting diode) light projector device 7, a photogenic color control circuit 8 like the LED projector device 7 and a wind direction and wind speed detection circuit 9. The control process accomplishes the effect of presentation by synthetically controlling "the electromagnetic valve control circuit 12, the light projection direction control circuit 10 and the photogenic color control circuit 8" while connecting with a performance circuit 4 by a fountain jewelry synthetic control circuit 17 in cooperation with "the state of music and wind" to control the jetting rate of the fountain, the generation of the water jewelry 6 and the irradiation direction of the LED light projector device 7 by synchronizing with the theme music of the performance circuit 4. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technique for improving the performance effect by controlling a fountain.

Conventionally, the fountain has been controlled by changing the amount of fountain water rhythmically.
Classically, there is a so-called “dancing fountain”. In this arrangement, a large number of fountain nozzles are arranged, and the fountain water amount is sequentially changed while being linked with each other. However, this dancing fountain has already lost its “novelty”.
Therefore, water jewelry has been proposed as a new type of fountain. (See Figure 4)
Some valve means V is inserted in the discharge pipe of the water pump P to interrupt the water flow.
When jetting is performed for a short time from the fountain nozzle 1, a small water mass is spouted, but the water mass spouted rises to become a water mass F falling as indicated by an arrow a.
At the next moment, the subsequent rising water flow U is spouted up as shown by the arrow b, both of which collide and scatter, exhibiting a phenomenon called water jewelry (6).
JP-A-2-135173 Published by Nikkan Kogyo Shimbun, hydraulic textbook (supplemented and revised in 1973)

Conventional dancing fountains and water jewelry lacked the technical idea of comprehensive control adapted to the environment of the fountain device.
That is, since the theme music, dance, jewelry, and lighting are not harmonized, a comprehensive artistic effect cannot be obtained.
In addition, there are winds in important environments. The fountain device of the conventional example has an anemometer and stops the fountain when it is recognized that “the fountain blown by the strong wind may fall on the audience”. However, when a bias that does not fall to the audience occurs, the illumination means does not adapt and illuminates vertically above the fountain nozzle.
The present invention has been made in view of the circumstances described above, and the object is as follows.
The aim is to provide artistic effects by comprehensively controlling the fountain environment (music / wind), water dance, jewelry, and lighting.

The configuration of the inventive device according to claim 1 created to achieve the above-described object is as follows (see FIG. 1).
A fountain nozzle, a water pump for supplying pressure water to the fountain nozzle, valve means inserted and connected to the pressure water supply conduit, and a projector for illuminating the water ejected from the fountain nozzle Water jewelry equipment consisting of
A light projecting direction control circuit (10) for controlling the light projecting direction of the light projector;
An emission color tone control circuit (8) for controlling the emission color tone of the projector;
A solenoid valve (11) and a solenoid valve control circuit (12) inserted and connected to the pressure water supply line;
A wind direction and wind speed detection circuit (9) for detecting the wind direction and wind speed near the installation location of the water jewelry device;
A performance circuit (4) for sending music output to a speaker (3) directed near the installation location of the water jewelry device,
In addition, the output signal of the wind direction and wind speed detection circuit (9) is input, and in cooperation with the performance circuit (4), a “light projection direction control circuit (10), a light emission color tone control circuit (8), an electromagnetic valve A fountain jewelry integrated control circuit (17) for comprehensively controlling the control circuit (12) and the basic flow rate control circuit (5) is provided.

According to the invention apparatus of claim 1 described above, “a light emission color tone control circuit of a projector, a circuit for controlling a light projecting direction, a control circuit for fountain pressure water, a wind direction / wind speed detection circuit, and a performance circuit” Since it has a fountain jewelry control circuit that controls "and", it can produce artistic effects by changing water dance, jewelry and lighting in harmony with the theme music.

The configuration of the inventive device according to claim 2 is such that, in addition to the configuration requirements of the inventive device of claim 1, (see FIG. 2 (A)), the projector can change the light projection direction using an LED as a light source. A structure that can project a plurality of light fluxes;
And the said fountain jewelry comprehensive control circuit (17) makes the projector (7A, 7B) "flow of water jetted from the fountain nozzle flowed by the wind based on the detection data of the wind direction wind speed detection circuit (9). It has a function of controlling the light projection direction control circuit (10) so as to be directed in the “bias direction”.

According to the invention device of claim 2 described above, since the LED is used as the light source, the color control is easy and the luminous efficiency is good. In addition, since a plurality of light beams are projected, the fountain is illuminated three-dimensionally, and the dance of water and the occurrence of jewelry can be clearly perceived by the entire surrounding audience.
In particular, even if water jewelry is swept away by the wind and its position is biased, the projector can follow and provide accurate illumination.

The configuration of the inventive device according to claim 3 is in addition to the configuration requirements of the inventive device of claim 2 (see FIG. 2C).
The projector using the LED as a light source has a large number of LED emitters arranged radially, and projects a diffused luminous flux (solid angle φ).
The light projecting direction control circuit has a structure that can change the light projecting direction by selectively emitting light emitted from a plurality of LED light emitters in a desired direction.

  When the inventive device of claim 3 described above is used in combination with the inventive device of claim 2, the projection direction can be arbitrarily and extremely quickly controlled by electrically controlling the blinking of the LEDs without mechanically tilting the projector. Can be changed.

The configuration of the invention device according to claim 4 includes, in addition to the constituent features of the invention device of claims 1 to 3 (see FIG. 3), an electromagnetic valve inserted and connected to the pressure water supply pipe line. A pilot valve using air as a working fluid,
A water flow control pilot valve (15) inserted and connected in the pressure water supply pipe of the fountain nozzle (1), and an electromagnetically operated air control valve connected to the water flow control pilot valve by a pilot pipe (16a) ( 16).

  According to the invention device of claim 4 described above, a relatively large capacity water flow control valve can be remotely operated via the air pilot line. For this reason, it is not necessary to provide electrical wiring to the water flow control valve which is easily immersed in water, the construction period is shortened and the cost of equipment construction is not increased, and there is no risk of leakage, which is safe.

The configuration of the inventive device according to claim 5 is in addition to the configuration requirements of the inventive device according to claims 1 to 4 (see FIG. 1).
The water pump that supplies pressure water to the fountain nozzle is a variable water pump (2), and has a basic flow rate control circuit (5),
The fountain jewelry total control circuit (17) controls the basic flow rate control circuit (5) in synchronism with the performance circuit (4) to increase the amount of fountain water as well as water jewelry that operates instantaneously. It has a function of changing in harmony with environmental music over time.

According to the invention device of the fifth aspect described above, it is possible to produce a production effect by generating jewelry at the important points and important points while dancing water in accordance with the theme music.
The invention device according to claim 5 has the true value not only in generating water jewelery but also in generating water jewelery at a desired position at a desired timing in the dance of water according to music. .

The configuration of the invention method according to claim 6 includes (see FIG. 1) a fountain nozzle, a water pump for supplying pressure water to the fountain nozzle, and valve means inserted and connected to the pressure water supply pipe line, In a water jewelery device comprising a floodlight for illuminating water jetted from the fountain nozzle,
A fountain jewelry comprehensive control circuit (17) is provided, and an “output signal of the wind direction and wind speed detection circuit (9) for detecting the wind direction and wind speed near the installation location of the water jewelry device” is input to the general control circuit,
I. A light projecting direction control circuit (10) for controlling the light projecting direction of the light projector;
B. An emission color tone control circuit (8) for controlling the emission color tone of the projector;
C. A solenoid valve (11) and a solenoid valve control circuit (12) inserted in the pressure water supply pipe;
D. A performance circuit (4) for sending music output to a speaker (3) near the water jewelery device;
Comprehensively controlling
It is characterized by generating water jewelery in harmony with music performance, and illuminating with water projectors following water jewels that are swept away by wind.

According to the invention method of claim 6 described above, the dance of the fountain flow of the fountain facility, the water jewelery, and the fountain lighting can be rationally controlled to produce an artistic production. Can
In addition, while illuminating continuously following the fountain flow flowing in the wind, it is possible to instantaneously and effectively illuminate by aiming at the jewelry of water that has been flowed in the wind.

In addition to the constituent features of the inventive method of claim 6, the configuration of the inventive method according to claim 7 (see FIG. 1) is configured such that the water pump is configured in advance with a variable water pump (2), and the variable water A basic flow rate control circuit (5) for controlling the discharge water amount of the pump is provided,
The fountain jewelry integrated control circuit (17) is characterized by harmonizing the flow rate of fountains with music performance in the long term as well as instantaneous water jewelry.

According to the method of the invention of claim 7 described above, the control means of the fountain flow rate is divided, and “flow control for blooming water jewelry” that requires instantaneous intermittent control is performed by the valve means.
By performing “flow rate control for dancing water” that requires long-term continuous control with a variable water pump, it is possible to perform water flow control with a reasonably high reliability.
That is, to generate water jewelry, the water flow must be digitally controlled intermittently. On the other hand, in order to make the water dance, the water flow must be controlled to increase or decrease over a long period of time in an analog manner.
In the invention method of claim 7, paying attention to the above characteristics, digital intermittent control is performed by an electromagnetic valve, while analog increase / decrease control is performed by a variable water pump.
The above configuration is “Although the solenoid valve has a small movable member and good response, the reliability of continuous repeated operation is not perfect. On the other hand, the variable water pump has a large movable member and inertia. It is a creation based on the knowledge derived from the inventor's many years of experience that “the responsiveness is not good, but the long-term operation reliability is high”.

The configuration of the inventive method according to claim 8 is in addition to the configuration requirements of the inventive method of claim 6 (see FIG. 2C).
The projector is configured in advance with a “wide-angle LED projector (14) using a large number of radially arranged LED emitters as a light source”.
The light emitting direction control circuit controls the irradiation direction of the light projector by selectively causing the “LED light emitting body that emits light in a desired direction among the plurality of LED light emitting bodies” to emit light selectively.

According to the above-described method of the invention of claim 8, the projection direction can be changed by electrically blinking the LED light emitter without mechanically driving and moving the projector.
Since there is no mechanical operation, there is no operation delay due to inertia, and it is possible to quickly follow the flow of water jewelry due to wind, and foreign objects are caught in the mechanical operation part of the device and the operation is There is no risk of obstruction and maintenance man-hours such as periodic inspection and cleaning are reduced.

The configuration of the invention method according to claim 9 includes, in addition to the configuration requirements of the invention method of claims 6 to 8 (see FIG. 3), an electromagnetic valve inserted in the pressure water supply pipe in advance. , “It consists of a pilot valve with air as the working fluid,
A water flow control pilot valve (15) inserted and connected in the pressure water supply line of the fountain nozzle (1) is connected to the water flow control pilot valve by an electromagnetically operated air control valve (16) connected by a pilot line. It is characterized by controlling.

According to the invention method of claim 9 described above, it is not necessary to make an electrical wiring to the “fountain flow control valve that is easily immersed in water”, and therefore there is no possibility of a leakage problem. Cost is also reduced.
For the same reason, the operation reliability of the equipment is high.

According to the first aspect of the present invention, the “light emission color tone control circuit, the light emission direction control circuit, the fountain pressure water control circuit, the wind direction and wind speed detection circuit, and the performance circuit” are controlled. Since the fountain jewelry control circuit is equipped, it is possible to produce artistic effects by changing the dance of water, jewelry, and lighting in harmony with the theme music.

According to the invention of claim 2, since the LED is used as the light source, the color control is easy and the luminous efficiency is good. In addition, since a plurality of light beams are projected, the fountain is illuminated three-dimensionally, and the dance of water and the occurrence of jewelry can be clearly perceived by the entire surrounding audience.
In particular, even if water jewelry is swept away by the wind and its position is biased, the projector can follow and provide accurate illumination.

  When the inventive device of claim 3 is used together with the inventive device of claim 2, the projection direction can be changed arbitrarily and extremely quickly by electrically controlling the blinking of the LEDs without mechanically tilting the projector. Can do.

  According to the fourth aspect of the present invention, a relatively large capacity water flow control valve can be operated remotely via the air pilot line. For this reason, it is not necessary to provide electrical wiring to the water flow control valve which is easily immersed in water, the construction period is shortened and the cost of equipment construction is not increased, and there is no risk of leakage, which is safe.

According to the fifth aspect of the present invention, it is possible to produce a production effect by allowing jewelry to bloom at the important points while dancing with water according to the theme music.
The practical value of generating water jewelery at a desired location at a desired location in the dance of water not only for water jewelery but also for music is great.

According to the invention method of claim 6, it is possible to rationally control the fountain flow dance of the fountain facility, the water jewelery, and the fountain lighting, and to produce an artistic production. ,
In addition, while illuminating continuously following the fountain flow flowing in the wind, it is possible to instantaneously and effectively illuminate by aiming at the jewelry of water that has been flowed in the wind.

According to the method of the invention of claim 7, the control means of the fountain flow rate is divided, and the "flow control for generating water jewelry" that requires instantaneous intermittent control is performed by the valve means,
By performing “flow control for dancing water”, which requires continuous control over a long period of time, with a variable water pump, it is possible to reasonably perform highly reliable water flow control.
That is, to generate water jewelry, the water flow must be digitally controlled intermittently. On the other hand, in order to make the water dance, the water flow must be controlled to increase or decrease over a long period of time in an analog manner.
In the invention method of claim 7, paying attention to the above characteristics, digital intermittent control is performed by an electromagnetic valve, while analog increase / decrease control is performed by a variable water pump.

According to the invention method of claim 8, it is possible to change the projection direction by electrically controlling the LED luminous body to blink without mechanically driving and moving the projector.
Since there is no mechanical operation, there is no operation delay due to inertia, and it is possible to quickly follow the flow of water jewelry due to wind, and foreign objects are caught in the mechanical operation part of the device and the operation is There is no risk of obstruction and maintenance man-hours such as periodic inspection and cleaning are reduced.

According to the method of the invention of claim 9, since it is not necessary to wire an “fountain flow control valve that is easily immersed in water”, and therefore there is no risk of electric leakage trouble, the construction period is short and the equipment cost is reduced. The
For the same reason, the operation reliability of the equipment is high.

FIG. 1 is a control system diagram schematically illustrating an embodiment of a water jewelry control apparatus according to the present invention.
A plurality of fountain nozzles 1A, 1B... 1E are connected in parallel to the discharge pipe of the variable water pump 2, and an individual control mechanism In is provided in series with each fountain nozzle.
FIG. 1 shows a detailed configuration of the individual control mechanism In provided in the fountain nozzle 1A. The other fountain nozzles 1B, 1C... 1E are also provided with individual control mechanisms In having the same detailed structure.

An electromagnetic valve 11 is inserted and connected to the pressure water supply pipe p of the fountain nozzle 1A, and an electromagnetic valve control circuit 12 for controlling opening and closing of the electromagnetic valve 11 is provided.
Two LED projectors 7 (only one is shown in FIG. 1 and will be described in detail later with reference to FIG. 2) are provided beside the fountain nozzle 1A.
A projection direction control circuit 10 is connected to the LED projector 7 via an electromagnetic drive element m, and
An emission color tone control circuit 8 is connected to the fountain nozzle 1A.
A speaker 3 is provided near the fountain facility, and a performance circuit 4 is connected thereto.

A basic flow rate control circuit 5 is connected to the variable water pump 2 so as to increase / decrease the discharge water flow in an analog manner (one example of the water flow change pattern is indicated by a virtual line).
Reference numeral 9 indicates a wind direction and wind speed detection circuit provided in the vicinity of the fountain facility (in the conventional example, an anemometer is generally provided. However, in the present invention, only the wind speed is sufficient. The detection of wind direction is also important).

Reference numeral 17 denotes a fountain jewelry integrated control circuit that characterizes the present invention, which is unique to the present invention.
This fountain jewelry integrated control circuit operates in cooperation with the performance circuit 4 and has a function of recognizing the progress of music.
The output signal of the wind direction / wind speed detection circuit 9 is input to the fountain jewelry integrated control circuit 17.
This fountain jewelry integrated control circuit is given a program in advance, but what is inputted as information that changes from moment to moment is the progress of music and the wind direction and wind speed.

The main control operation of the fountain jewelry integrated control circuit 17 is a. Long-term "fountain dance" and accompanying "lighting tone / brightness" control,
B. Control of “water jewelry generation” at key points and key points, and “color and blinking of lighting” associated therewith,
C. It is “irradiation direction control of lighting” that follows the stream of water and jewelry of water.
Hereinafter, embodiments of each control will be described sequentially.

I. About long-term "fountain dance" and accompanying "light color tone / brightness" control,
The fountain jewelry comprehensive control circuit 17 recognizes the progress of music based on the signal from the performance circuit 4,
In accordance with this, the basic flow rate control circuit 5 is controlled to change the discharge water amount of the variable water pump 2 as shown in the attached water flow change pattern (the water pressure change is the same as this pattern).
In this way, the fountain jewelry comprehensive control circuit 17 controls the fountain flow rate (water pressure) to make the water dance independently of the water jewelry described in detail later.
The light emission color tone control circuit 8 is operated according to music and the fountain height to control the light emission color tone and light / dark change of the LED projector 7.

B. About key points, “Water Jewelery Flowering” at key points, and the accompanying “Lighting Colors / Blinking” control
The fountain jewelry comprehensive control circuit 17 recognizes the progress of music as described above, controls the electromagnetic valve control circuit 12 according to a program given in advance, and opens and closes the electromagnetic valve 11 to interrupt the fountain flow. The subsequent water flow spouted up as shown by the arrow d collides with the falling water mass (reference F described in FIG. 4), and water jewelry 6 blooms.
The LED floodlight 7 illuminates the water jewelery 6 as indicated by an arrow e (the color tone can be appropriately changed according to the program).

C. About "irradiation direction control of lighting" following water flow and water jewelery that was swept away by wind,
When a slightly strong wind blows in the vicinity of the fountain facility, the rising water flow (arrow d) and the water jewelry 6 are biased toward the leeward direction.
At the same time, the fountain jewelry overall control circuit 17 receives the wind direction and wind speed information from the wind direction and wind speed detection circuit 9.
The fountain jewelry overall control circuit calculates the “bias amount of the water flow and the water jewelry 6” according to a predetermined calculation formula, operates the light projection direction control circuit 10 in accordance with this, and controls the LED projector 7. The irradiation direction is controlled to follow the rising water flow and / or the water jewelery and project the illumination light toward it. .
When the fountain is likely to fall on the audience beyond the specified wind speed, the fountain is stopped as in the conventional example.
At wind speeds that do not require stopping the fountain, the above formula is difficult because the relationship between the “velocity of ascending water flow and water jewelry” and the wind speed is simple (within practical requirements). It is not a thing. In the present embodiment, it is possible to obtain a sufficient effect only by storing experimentally obtained values.

FIG. 2A is a system diagram showing details of the LED projector according to the present invention and its control mechanism.
A plurality (two in this example) of LED projectors 7A and 7B are installed for one fountain nozzle 1. Thus, when three-dimensionally irradiating from not only one direction but also from a plurality of directions, illumination suitable for all the audiences around the fountain is made, and the fountain appears to rise three-dimensionally.
The LED projectors 7A and 7B are controlled in irradiation direction by the projection direction control circuit 10 via the electromagnetic drive element m, and also controlled in color tone and blinking via the emission color tone control circuit 8.

In the embodiment shown in FIG. 2A, the LED projector having a considerable weight (mass) has to be moved mechanically, so that a large driving force is required, and quick direction adjustment is somewhat difficult.
An improved example in which the weight of the movable part is reduced is shown in FIG.
In this example, two tilting mirrors 13 are provided to illuminate fountains and water jewelry by reflecting the luminous fluxes of arrows f and h as indicated by arrows g and i, respectively. Although not shown, each tilting mirror 13 is provided with an electromagnetic drive element (symbol m in FIG. 2A) and is driven and controlled by the light projection direction control circuit 10.
When a half mirror (not shown) according to a known technique is used, a plurality of illumination light beams can be obtained by a single LED projector, and three-dimensional illumination can be achieved by reducing the number of LED projectors installed. .

FIG. 2C is a schematic diagram of an improved example that enables more prompt direction control.
Reference numeral 14 indicates a wide-angle LED projector, in which the emission directions of a large number of LED light emitters are arranged radially so that a diffused light beam having a solid angle φ is projected.
Among these many LED light emitters, the projection direction can be adjusted by selectively causing the LED light emitters emitting in a desired direction to emit light.
According to this example, the irradiation direction can be controlled very sensitively because it is electrically controlled without mechanically tilting.

FIG. 3 shows means for intermittently controlling the amount of water sprayed from the fountain nozzle 1 (the electromagnetic valve 11 in FIG. 1).
It is the systematic diagram which showed the detail of.
A water flow control pilot valve 15 is interposed in the middle of the pressure water supply pipe p of the fountain nozzle 1.
An electromagnetically operated air control valve 16 is provided between the pilot line 16a of the water flow control pilot valve 15 and the high pressure air source.
If comprised in this way, since it is not necessary to give an electrical wiring to a water flow control valve, installation work is easy. Since the water flow control valve is a member that is easily immersed in water, sufficient consideration must be given to electrical wiring. Therefore, the practical effect of not requiring electric wiring in the water flow control valve is great.
Although it is a known member when focusing only on the water flow control pilot valve, the water flow control pilot valve 15 is controlled by the electromagnetically operated air control valve 16 controlled according to music and wind by the fountain jewelry comprehensive control circuit 17 described above. This embodiment (FIG. 3) is patentable in that it is automatically operated.

1 is a system diagram showing an embodiment of a fountain jewelry control device according to the present invention. The schematic diagram which shows three examples of the improvement example of the irradiation direction control mechanism of the LED projector in the fountain jewelry control apparatus of this invention System diagram showing an improved example of the jet water flow rate control mechanism in the fountain jewelry control device of the present invention Illustration of conventional example

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,1A, 1B-1E ... Fountain nozzle 2 ... Variable water pump 3 ... Speaker 4 ... Performance circuit 5 ... Basic flow control circuit 6 ... Water jewelry 7, 7A, 7B ... LED floodlight 8 ... Luminous color tone control circuit 9 ... Wind direction Wind speed detection circuit 10 ... Projection direction control circuit 11 ... Solenoid valve 12 ... Solenoid valve control circuit 13 ... Tilt mirror 14 ... Wide-angle LED projector 15 ... Water flow control pilot valve 16 ... Electromagnetic operation air control valve 16a ... Electromagnetic operation air pressure control valve 17 ... Fountain Jewelry comprehensive control circuit

Claims (9)

A fountain nozzle, a water pump for supplying pressure water to the fountain nozzle, valve means inserted and connected to the pressure water supply conduit, and a projector for illuminating the water ejected from the fountain nozzle Water jewelry equipment consisting of
A light projecting direction control circuit (10) for controlling the light projecting direction of the light projector;
An emission color tone control circuit (8) for controlling the emission color tone of the projector;
A solenoid valve (11) and a solenoid valve control circuit (12) inserted and connected to the pressure water supply line;
A wind direction and wind speed detection circuit (9) for detecting the wind direction and wind speed near the installation location of the water jewelry device;
A performance circuit (4) for sending music output to a speaker (3) directed near the installation location of the water jewelry device,
In addition, the output signal of the wind direction and wind speed detection circuit (9) is input, and in cooperation with the performance circuit (4), a “light projection direction control circuit (10), a light emission color tone control circuit (8), an electromagnetic valve Fountain jewelry integrated control circuit (17) for comprehensively controlling the control circuit (12) and the basic flow control circuit (5) "is provided for comprehensively making water jewelry. Fountain jewelry equipment. The light projector is a structure that can change the light projecting direction using an LED as a light source, and is configured to project a plurality of light fluxes,
And the said fountain jewelry comprehensive control circuit (17) orient | assigns a projector to "the direction in which the water flow injected from the fountain nozzle is biased by the wind" based on the detection data of a wind direction wind speed detection circuit (9). Thus, the fountain jewelry device for making water jewelry according to claim 1, characterized in that it has a function of controlling the light projection direction control circuit (10). The projector using the LED as a light source has a large number of LED emitters arranged in a radial pattern and projects a diffused light beam.
The light projecting direction control circuit (10) is characterized in that the light projecting direction can be changed by selectively emitting light emitted from a plurality of LED light emitters in a desired direction. A fountain jewelry device for making the water jewelry according to claim 2 in a comprehensive manner. The solenoid valve inserted and connected to the pressure water supply pipe line is a pilot valve using air as a working fluid,
A water flow control pilot valve (15) interposed in the pressure water supply line of the fountain nozzle (1), and an electromagnetically operated air control valve (16) connected to the water flow control pilot valve by a pilot line The fountain jewelry device for making water jewelry according to any one of claims 1 to 3, characterized by comprising: The water pump that supplies pressure water to the fountain nozzle is a variable water pump (2), and has a basic flow rate control circuit (5),
The fountain jewelry total control circuit 17 controls the basic flow rate control circuit (5) in time with the performance circuit (4), and not only water jewelry that operates instantaneously, but also the amount of water in the fountain for a long time. 5. The fountain jewelry device for making water jewelry according to any one of claims 1 to 4, characterized in that it has a function of changing in harmony with environmental music. A fountain nozzle, a water pump for supplying pressure water to the fountain nozzle, valve means inserted and connected to the pressure water supply conduit, and a projector for illuminating the water ejected from the fountain nozzle Water jewelry equipment consisting of
A fountain jewelry comprehensive control circuit (17) is provided, and an “output signal of the wind direction and wind speed detection circuit (9) for detecting the wind direction and wind speed in the vicinity of the installation location of the water jewelry device” is input to the general control circuit,
I. A light projecting direction control circuit (10) for controlling the light projecting direction of the light projector;
B. An emission color tone control circuit (8) for controlling the emission color tone of the projector;
C. A solenoid valve (11) and a solenoid valve control circuit (12) inserted in the pressure water supply pipe;
D. A performance circuit (4) for sending music output to a speaker (3) near the water jewelery device;
Comprehensively controlling
A method for controlling a fountain jewelery device for making water jewelery in a comprehensive manner, characterized by generating water jewelery in harmony with music performance and illuminating with water floodlights following water jewels that are washed away by wind . The water pump is configured with a variable water pump (2) in advance, and a basic flow rate control circuit (5) for controlling the discharge water amount of the variable water pump is provided,
7. The water jewelery according to claim 6, characterized in that the fountain jewelery integrated control circuit (17) harmonizes the flow of fountains with music performance in the long term as well as instantaneous water jewelery. To control the fountain jewelry equipment to make it. The projector is configured in advance with "a device using a large number of LED light emitters arranged radially as a light source",
The light emitting direction control circuit (10) controls the irradiation direction of the light projector by selectively emitting “LED light emitting body that emits in a desired direction among a number of LED light emitting bodies”. The control method of the fountain jewelry apparatus for making the water jewelry of Claim 6 synthetically. The solenoid valve (11) inserted in the pressure water supply pipe is previously configured as “a pilot valve using air as a working fluid,
A water flow control pilot valve (15) inserted and connected in the pressure water supply line of the fountain nozzle (1) is connected to the water flow control pilot valve by an electromagnetically operated air control valve (16) connected by a pilot line. The method of controlling a fountain jewelry device for making water jewelry according to any one of claims 6 to 8, wherein the water jewelry is comprehensively controlled.

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