KR20110126331A - System for automatic generation rainbow - Google Patents

Abstract

PURPOSE: A rainbow automatic creation system is provided to automatically control the location of a rainbow generation means according to an incident angle by the locus of sun at night by analyzing existing annual sunlight incident angle data. CONSTITUTION: A rainbow generation means(100) creates a rainbow by spraying water from a jet nozzle. A sun incident angle controlling element(300) creates by controlling top and bottom and left and right direction of the rainbow generation means. A wind speed sensor(400) is installed in the outer side of the rainbow generation means. The wind speed sensor measures wind speed in an installation position of the rainbow generation means. A sunlight illumination sensor(500) measures sunlight illumination of the installation position in the outer side of the rainbow generation means. A rainbow generation means controller(600) controls a general operation of the rainbow generation means. The rainbow generation means controller analyzes wind speed data which is measured through the wind speed sensor and sunlight illumination data which is measured through the sunlight illumination sensor.

Description

Rainbow automatic generation system {System for automatic generation rainbow}

The present invention relates to a rainbow automatic generation system that can automatically produce a rainbow artificially in a park, an amusement park, and more specifically, in the park, an amusement park, water is sprayed by the power of a motor through a water injection nozzle to the light emitted from the sun is sprayed By installing a rainbow generating means refracted in the water droplets to generate a rainbow by analyzing the existing angle of incidence angle data of the installation location, such as parks, amusement parks, etc. By controlling the direction and measuring the wind speed and solar illuminance of the place where the rainbow generating means is located by the wind speed sensor and the solar light intensity sensor to control the operation of the rainbow generating means to the users who use the park, amusement park, etc. On the automatic rainbow generation system A.

In general, a rainbow that occurs as a natural phenomenon can be observed from one side of the clear sky after rain, but it is not observed every time. The reason why you can't see the rainbow often is because there must be a myriad of drops in the clear, private sky, and the light emitted from the sun comes into contact with the water droplets and the reflected light must enter our eyes. It is not easily observed without certain conditions, such as altitude, angle of incidence of light, the position of the observer, and the size and spread of water droplets. Rainbows, which are observed in layers of different colors, such as red-no-no-pa-nanbo, undergo two refractions and a single reflection process at the boundary of the water droplets when the light of various colors mixed with white light is reflected through the water droplets. While the degree of reflection angle (40 ° to 42 °) bending for each color is different from each other, at this time, the light is dispersed and separated into various lights, and colorful rainbows such as red nouveau blue nambo are observed.

The rainbow generated by the above phenomenon is called a celestial arch because it is like a bow in the sky, and it also appears as a sign of promise to Noah in the Old Testament.In Europe, when a man passes under a rainbow, a woman becomes a man. In addition, there have been legends that many children's books are read by children, and many children's stories about rainbows have appeared so long that they can cause concentricity for children.

However, as described above, in order to be able to observe the rainbow, the altitude of the sun, the position of the observer, and the location of the droplets must be exactly the same. It is not possible to encounter them, and artificially creating rainbows in places such as parks, where families can rest, will not only cause children to play, but also help to concentric and understand natural phenomena.

Conventionally, there has been a method using a fountain to generate a rainbow. The rainbow fountain apparatus using the fountain includes a water supply source for supplying fountain water, a water supply pipe for transferring fountain water from the water supply source, and one end of the water supply pipe. A pump for transferring the fountain water of the water supply source to the water supply pipe, and a nozzle unit for ejecting the fountain water at the other end of the water supply pipe, wherein the water supply pipe extends from the ground to a certain height, and the nozzle unit is configured to supply the fountain water. By spraying in the form of fine water particles, fine water particles falling at a certain height is configured to receive a rainbow to form a rainbow that the conventional rainbow fountain device is to spray the water from the fixed position of the fountain from the top to the bottom is sprayed water The sun can always create a rainbow by keeping its position fixed Since the blinding conditions cannot always be met, the frequency of rainbow production is low, and the time at which the solar incidence angle is formed by the rainbow generating conditions cannot be accurately predicted, and the amount of water sprayed from the fountain is limited and the size of the rainbow is small or sharp. There was a problem falling.

In addition, the conventional rainbow fountain device is expensive to design the fountain device and the expensive fountain device is designed for the purpose of generating a rainbow has a problem about the cost-effectiveness.

The present invention has been made to solve the above problems to generate a rainbow by injecting water from the water injection nozzle through the power of the motor connected to the propeller in the park, amusement park, etc. refracted in the water droplets sprayed from the sun Install a rainbow generating means to analyze the annual solar incidence angle data of the installation location, and the position of the rainbow generating means automatically when the incident angle satisfying the rainbow generation conditions due to the sun's trajectory is formed through the analyzed data The purpose is to provide a rainbow automatic generation system that can generate a rainbow by spraying water according to the angle of incidence of the sun by adjusting the.

In addition, the present invention by controlling the size of the water particles to be sprayed by the injection nozzle by changing the size of the jet nozzle for spraying water to create a rainbow rainbow that can control the size of the rainbow and the color of the rainbow color Another goal is to provide an automatic generation system.

In addition, the present invention is measured by measuring the wind intensity and the sunlight intensity of the installation position of the rainbow generating means through the wind speed sensor and the solar light intensity sensor, if it is determined that the wind strength affects the water particles sprayed through the injection nozzle Automatically generating a rainbow that can be controlled to stop the operation of the rainbow generating means, and also to stop the operation of the rainbow generating means to automatically stop the operation is considered to be cloudy or rainy when the solar illuminance falls below a certain value. Another purpose is to provide a system.

The present invention provides a rainbow automatic generation system for automatically generating and directing a rainbow artificially in a park, an amusement park,

Rainbow generating means installed in the park, amusement park, etc. by spraying water from the water injection nozzle through the power of the motor connected to the propeller to produce a rainbow by refracting in the water droplets sprayed by the sun;

A sun incidence angle adjusting unit for adjusting a water injection position at a time when a sun incidence angle capable of generating a rainbow is generated by analyzing existing annual incidence angle data so as to generate a rainbow by adjusting the up, down, left and right directions of the rainbow generating means;

A wind speed sensor installed outside the rainbow generating means to measure the wind speed at a location where the rainbow generating means is installed and measuring the wind speed to stop the operation of the rainbow generating means when the wind speed exceeds a predetermined wind speed;

It is installed outside the rainbow generating means and measures the solar illuminance of the rainbow generating means installation position, and falls below a certain illuminance, it is considered that the weather is not generated due to the cloudy weather and the illumination of the sunlight is stopped to stop the operation of the rainbow generating means. Solar illuminance sensor to measure;

A rainbow generating means control unit for controlling the operation of the rainbow generating means by analyzing the general operation control of the rainbow generating means, the wind speed data measured by the wind speed sensor and the solar illuminance data measured by the solar illuminance sensor; .

The present invention may be installed in a park, an amusement park, the rainbow generating means to spray the water through the water spray nozzle of the rainbow generating means to be refracted in the water droplets sprayed by the light emitted from the sun to generate a rainbow, the incident angle of sunlight By analyzing the existing annual solar incident angle data of the place where the rainbow generating means, such as parks and amusement parks are installed through the control unit, the rainbow can be generated by automatically adjusting the position of the rainbow generating means according to the incident angle caused by the sun's trajectory during the day. At the time of forming the solar incidence angle, water can be automatically sprayed to artificially create a rainbow.

In addition, the present invention by controlling the size of the water particles to be sprayed by forming a different size in the injection nozzle of the rainbow generating means for each group, the light emitted from the sun is refracted differently according to the size of the water particles, the size of the rainbow and the rainbow The sharpness of the color can be adjusted, and the wind speed and illuminance of the installation position of the rainbow generating means are measured by the wind speed sensor and the solar illuminance sensor, so that the intensity of the wind affects the water sprayed through the spray nozzle or the solar illuminance. When the weather is cloudy or rainy, the operation of the rainbow generating means is automatically stopped.

1 is a perspective view of a rainbow automatic generation system according to the present invention.
2 is an exploded perspective view of the automatic rainbow generation system according to the present invention.
Figure 3 is a detailed view of the injection nozzle of the automatic rainbow generating system according to the present invention.
4 is a block diagram of a rainbow automatic generation system according to the present invention.
5 is a view showing an embodiment of the automatic rainbow generation system according to the present invention.

The present invention is to install a water spray nozzle in a park, an amusement park, etc. by spraying water through the power of a motor connected to the propeller to install a rainbow generating means that is refracted in the water droplets sprayed from the sun to generate a rainbow to the installation position Analyze the existing annual solar incidence angle data of, and if the incident angle is formed to meet the rainbow generation conditions due to the sun's trajectory during the day, automatically adjust the position of the rainbow generating means to adjust the water to the incidence angle of the sun. It will be described in detail below with reference to the accompanying drawings in order to be able to automatically generate a rainbow by spraying the present invention in detail.

1 is a configuration diagram of a rainbow automatic generation system according to the present invention, Figure 2 is a perspective view of the rainbow generating means of the automatic rainbow generation system of the automatic rainbow generation system according to the present invention, Figure 3 is a rainbow automatic generation system according to the present invention Figure 4 is an exploded perspective view of the rainbow generating means of Figure 4 is a detailed view of the injection nozzle of the automatic rainbow generating system according to the present invention, Figure 5 is a view showing an embodiment of the automatic rainbow generating system according to the present invention.

As shown in FIG. 1, the present invention relates to a rainbow automatic generation system that automatically generates and directs a rainbow artificially to a park or an amusement park. The water injection nozzle is installed through a power of a motor connected to a propeller installed in the park or an amusement park. Rainbow generating means 100 is sprayed in the water at 120 and the light emitted from the sun is refracted in the sprayed water droplets to generate a rainbow, and the rainbow generating means by adjusting the up, down, left and right directions of the rainbow generating means Analyze the existing annual solar incidence angle data at the installation location of the rainbow generating means 100 to calculate the incident angle data of the sun for each hour of the same date to automatically change the direction of the rainbow generating means 100 at a time corresponding to the conditions for generating the rainbow. The solar incidence angle adjusting unit 300 to be adjusted, and installed on the outside of the rainbow generating means 100 is plain Wind speed sensor 400 to measure the wind speed in the installation location 100 installation location to exceed the predetermined wind speed wind speed sensor 400 to stop the operation of the rainbow generating means 100 and the outside of the rainbow generating means 100 Solar illuminance sensor for measuring the solar illuminance to measure the solar illuminance of the installation location by measuring the solar illuminance of the installation location and falls below a certain illuminance to prevent the rainbow from being generated due to the cloudy weather ( 500 and generating the rainbow by analyzing the general operation control of the rainbow generating means 100 and the wind velocity data measured by the wind speed sensor 400 and the solar illuminance data measured by the solar illuminance sensor 500. Rainbow generation means control unit 600 for controlling the operation of the means (100).

The rainbow generating means 100 is formed in the housing 110 is formed in a cylindrical shape so that the water can be sprayed to generate a rainbow, as shown in Figure 2 and 3, at one end of the housing 110 Injection nozzle 120 for injecting water particles of various sizes by adjusting the size of the water particles to be injected by changing the size of the water injection outlet of the nozzle, and the water tank 130 for supplying water to the injection nozzle 120 And a driving unit 140 formed on the other side of the housing 110 to generate a strong wind pressure through the rotation of the propeller by the motor to increase the injection distance of the water particles sprayed through the injection nozzle 120 formed on one side. ) And a power supply unit 200 for supplying power to the rainbow generating means 100 through commercial power or a generator.

As shown in FIG. 4, the injection nozzle 120 forms the injection nozzle 120 in groups to control the size of the water particles injected through the injection nozzle 120, and the injection nozzles are formed in one group. 120 may be configured differently to adjust the size of the rainbow and the brightness of the rainbow color generated by the light particles are refracted by the sun through the size of the sprayed water particles. For example, the size of the spray nozzle 120 is divided into large, medium, and small in the group of the spray nozzles 120, and only the size of the spray nozzle 120 in each group is sprayed to increase the size of the sprayed water particles. Since the water particles are not sprayed far, the size of the rainbow can be adjusted smaller. When the size of the spray nozzle 120 is small, only the small spray nozzles 120 are sprayed with water from each group to spray the water particles farther. You can increase the size of the rainbow. In addition, it is possible to change the color sharpness of the rainbow generated by the refraction of the sun light with respect to the water particles to be sprayed according to the size of the injection nozzle 120, respectively. Rainbow is the size of the water droplets because it is more than 1mm is most clearly visible, the smaller the water droplets fade from the red side is to adjust the sharpness of the rainbow according to the size of the water droplets.

In addition, the rainbow generating means 100 is formed by detachable cylindrical silencer 150 on one side and the other side of the housing 110 in order to reduce the noise generated by the motor of the drive unit 140 resistance of the air inflow amount Reduce and reduce the noise generated when driving the rainbow generating means 100 to generate a rainbow by forming a sound absorbing plate inside the silencer 150.

The solar incident angle adjusting unit 300 adjusts the vertical and horizontal directions of the rainbow generating means 100 to adjust the solar incident angle when water is sprayed through the rainbow generating means 100. Up and down position adjusting unit 310 for adjusting the up and down position, left and right position adjusting unit 320 for adjusting the left and right position of the rainbow generating means 100, and the place where the rainbow generating means 100 is located When the incident angle that can be generated by the rainbow is analyzed by analyzing the existing annual daily incident angle data, the rainbow generating means 100 is automatically adjusted by adjusting the vertical position adjusting unit 310 and the left and right position adjusting unit 320. It consists of a solar incident angle control unit 330 to control to adjust the position of.

In addition, the rainbow generating means control unit 600 receives data measured through the wind speed sensor 400 installed outside the rainbow generating means 100 is injected from the rainbow generating means 100 by the measured wind speed data The wind speed data analysis unit 610 for analyzing the effect on the water and determining the operation of the rainbow generating means 100 through the analyzed data and the data measured by the solar light sensor 500 are received. Solar illuminance data analysis unit 620 and the wind speed data analysis unit 610 for analyzing the solar illuminance data to determine the weather according to the solar illuminance to determine the operation of the rainbow generating means 100 through this; And a driving controller 630 controlling the operation of the rainbow generating means 100 through the result analyzed by the solar illuminance data analyzer 620.

5 is a view showing an embodiment according to the present invention, the rainbow generating means 100 installed in a park, an amusement park, etc., the conventional solar incident angle by analyzing the conventional annual solar incident angle data in the solar incident angle control unit 300 The time data that satisfies the rainbow generation condition is calculated. When the time calculated from the solar incident angle data reaches, the position of the rainbow generating means 100 is adjusted up and down, left and right through the solar incident angle adjusting unit 300 and water is sprayed through the rainbow generating means 100. Get ready to do At this time, the wind speed sensor 400 and the solar illuminance sensor 500 formed outside the rainbow generating means 100 measure the wind speed and solar illuminance of the place where the rainbow generating means 100 is located and display the measured data as a rainbow. The rainbow generating means controller 600, which is transmitted to the generation means controller 600 and receives the wind speed data and the solar illuminance data, is the wind speed data through the wind speed data analyzer 610 and the solar illuminance data analyzer 620. And the solar illuminance data to determine whether the wind speed at the location where the rainbow generating means 100 is located in the wind speed data analyzing unit 610 affects the water particles sprayed through the spray nozzle 120. The light illuminance data analyzer 620 analyzes the solar illuminance data of the place where the rainbow generating means 100 is located and generates a rainbow when the weather is cloudy or rained when it falls below a certain illuminance. We believe not. Based on the results analyzed by the wind speed data analyzing unit 610 and the solar illuminance data analyzing unit 620, the driving controller 630 determines whether the rainbow generating unit 100 is operated, and when the analysis result operates, water injection is performed. Water is sprayed through the nozzle 120, and the light emitted from the sun is refracted by the sprayed water particles to generate a rainbow.

According to the present invention having the above configuration, the rainbow generating means 100 is installed in a park, an amusement park, or the like, and the light emitted from the sun is sprayed by spraying water through the water spray nozzle 120 of the rainbow generating means 100. The rainbow may be generated by being reflected in the water drop, and the existing annual solar incident angle data of the place where the rainbow generating means 100 is installed, such as a park or an amusement park, is analyzed through the solar incident angle adjusting unit 300 to analyze the data. Through the day when the incident angle is formed to meet the rainbow generation conditions due to the trajectory of the sun is formed by automatically adjusting the position of the rainbow generating means 100 to spray water in accordance with the angle of incidence of the sun to generate a rainbow, rainbow generation The size of the spray nozzle 120 of the means 100 is formed differently by group to adjust the size of water particles to be sprayed to emit light emitted from the sun. Refraction according to the size of the particle can adjust the size of the rainbow and the sharpness of the rainbow color, the wind speed and illuminance for the installation position of the rainbow generating means 100 wind speed sensor 400 and solar illuminance sensor 500 By measuring through the strength of the wind affects the water sprayed through the injection nozzle 120 or when the weather is light due to low solar illuminance or rain can automatically stop the operation of the rainbow generating means (100).

As described above, preferred embodiments according to the present invention have been described, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **
100: rainbow generating means 110: housing
120: injection nozzle 130: water tank
140: driving unit 150: silencer
200: power supply unit 300: solar incident angle control unit
310: vertical position adjusting unit 320: left and right position adjusting unit
330: solar incident angle control unit 400: wind speed sensor
500: solar light sensor 600: rainbow generating means control unit
610: wind speed data analysis unit 620: solar illuminance data analysis unit
630: drive control unit

Claims (6)

In the rainbow automatic generation system for artificially generating and directing the rainbow artificially in the park, amusement park, etc.
Rainbow generating means installed in the park, amusement park, etc. by spraying water from the water injection nozzle through the power of the motor connected to the propeller to produce a rainbow by refracting in the water droplets sprayed by the sun;
A sun incidence angle adjusting unit for adjusting a water injection position at a time when a sun incidence angle capable of generating a rainbow is generated by analyzing existing annual incidence angle data so as to generate a rainbow by adjusting the up, down, left and right directions of the rainbow generating means;
A wind speed sensor installed outside the rainbow generating means to measure the wind speed at a location where the rainbow generating means is installed and measuring the wind speed to stop the operation of the rainbow generating means when the wind speed exceeds a predetermined wind speed;
It is installed outside the rainbow generating means and measures the solar illuminance of the rainbow generating means installation position, and falls below a certain illuminance, it is considered that the weather is not generated due to the cloudy weather and the illumination of the sunlight is stopped to stop the operation of the rainbow generating means. Solar illuminance sensor to measure;
A rainbow generating means control unit for controlling the operation of the rainbow generating means by analyzing the general operation control of the rainbow generating means, the wind speed data measured by the wind speed sensor and the solar illuminance data measured by the solar illuminance sensor; Rainbow automatic generation system, characterized in that consisting of.
The method of claim 1,
The rainbow generating means includes a housing configured to have a cylindrical shape so as to spray water to generate a rainbow in a park, an amusement park, etc .;
An injection nozzle which is formed at one end of the housing and controls the size of water particles to be sprayed according to the size of the nozzle to inject water particles of various sizes;
A water tank for supplying water to the injection nozzle,
A driving unit which is formed on the other side of the housing and generates a strong wind pressure through rotation of the propeller by a motor to increase the distance of injection of water particles sprayed through the injection nozzle formed on one side;
Automatic rainbow generation system, characterized in that consisting of a power supply for supplying power through the commercial power or generator to the rainbow generating means.
The method of claim 2,
The spray nozzle is formed by varying the size of the spray nozzle to control the size of the sprayed water particles to control the size of the rainbow and the sharpness of the rainbow color generated by the refraction of sunlight through the water particles through the size of the sprayed water particles Rainbow automatic generation system, characterized in that.
The method of claim 2,
The rainbow generating means forms a cylindrical silencer on one side and the other side of the housing in order to reduce the noise generated by the motor of the driving unit to reduce the air inflow resistance and to form a sound absorbing plate therein to reduce the noise when driving the rainbow generating means. Rainbow automatic generation system, characterized in that can be minimized.
The method of claim 1,
The sun incidence angle adjusting unit includes a vertical position adjusting unit for adjusting the vertical position of the rainbow generating unit, a left and right position adjusting unit for adjusting the left and right positions of the rainbow generating unit, and an existing annual sun of a place where the rainbow generating unit is located. Solar incidence angle that controls the generation of rainbow automatically by water injection by solar incidence by adjusting up and down position and left and right position adjustment automatically at the time when the incident angle of sun that can be generated by rainbow Rainbow automatic generation system comprising a control unit.
The method of claim 1,
The rainbow generating means control unit receives the data measured by the wind speed sensor and analyzes the effect on the water sprayed from the rainbow generating means by the measured wind speed data and the wind speed for determining the operation of the rainbow generating means through the analyzed data Solar illuminance data which receives the data measured by the data analysis unit and the solar illuminance sensor, analyzes the solar illuminance data to determine the weather according to the solar illuminance, and determines the operation of the rainbow generating means. And a driving control unit for controlling the operation of the rainbow generating means through a result analyzed by the analysis unit and the wind speed data analyzing unit and the solar illuminance data analyzing unit.

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