RU2104729C1 - System for luminous-acoustic designing of luminous-musical hall - Google Patents

Abstract

FIELD: musical acoustic and luminous accompaniment for spherical and dome-shaped halls. SUBSTANCE: luminous-and-acoustic system has screen with cells for luminous and/or acoustic devices and control panel for these devices. Hall is formed as spherical or dome-shaped construction made from self-carrying carcass-type constructional members defining cells for receiving luminous and/or acoustic devices and making screen, which encloses the whole inner surface of sphere or dome. Luminous and/or acoustic control panel has control panels, with number of panels corresponding to the number of colors and/or number of main musical instruments of orchestra. Control panels are formed as two circles or ellipse representing surface of two hemispheres similar to that on geographical map and divided by lines similar to map's latitudes and longitudes into cells corresponding to cells for self-carrying members of sphere or dome. Each cell has acoustic and/or luminous devices, with number of devices corresponding to accepted color gamma and/or musical instruments and connected by wires to related cells of control panel for corresponding color or musical instrument and serving microswitches for cells of carrying members of constructions. Each color panel is connected with power source and each acoustic panel is connected with sound reproducing device of musical instrument. EFFECT: increased entertaining effect and simplified construction. 6 dwg

Description

 The invention relates to systems for acoustic and light accompaniment of music and is intended primarily for light-acoustic design of spherical or domed halls made in the form of a structure made of self-supporting frame structural elements.

 Known color musical instrument [1], consisting of a sound reproducing device, a sound analyzer based on bandpass filters, the blocks of which emit signals proportionally to the main frequency and amplitude of the sound signal supplied through integrators and amplifiers to the inputs of the switch connecting light sources located on the screen according to the dark principle and heavy tones - at the bottom, light and soft - at the top, in particular, from bottom to top in order, purple, red, green, blue, orange, yellow, light blue, so that when the sound increases, the color scheme moves up, and when the sound decreases, it moves down.

The disadvantages of the known color musical instrument are:
- purely automatic conversion of sound into color according to a given program, which excludes individual creative reproduction of a color musical score associated with the performance by a person,
- separation of the color-musical image on the screen from sound that does not move with the movement of light, which destroys the impression of a causal relationship between sound and light and reduces the effectiveness of the emotional and aesthetic perception of color-musical accompaniment,
- limiting the color reproduction of sound by the screen, which limits spatial perception and also reduces the effectiveness of emotional and aesthetic perception.

 Known color-musical instrument [2] is similar to the technical solution according to [1], in which the sound reproducing devices are connected to the source of sound signals through separation filters and are located depending on the color of the light sources, in particular, low-frequency - at the bottom, mid-frequency - in the middle part and high-frequency - at the top of the screen. Due to this, along with the movement of the color scale, the sound moves along the screen, changing from low to high and vice versa. This increases the effectiveness of the emotional and aesthetic perception of color music.

 In addition, the device contains additional low, medium and high frequency filters and additional amplifiers and loudspeakers that allow the artist to connect, manually select some color channels, turn them on and off in accordance with the score, which introduces an element of creativity and personality in the performance of the color music composition .

The disadvantages of the known technical solutions are:
- restriction of light and sound reproduction by the screen frames and limited spatial perception of color music,
- predominantly automatic conversion of sound into color and low possibilities for the performer to realize his individual creative abilities.

 Known electronic light musical instrument for the simultaneous execution of sound and light parts, containing a series-connected sound control unit, a low-frequency amplifier and an output acoustic device, as well as series-connected light control unit, an output optical device, an image forming unit and a color television monitor [3]. Sound and optical devices are controlled by the artist at the same time using the keyboard with the color designation on the monitor screen. At the same time, signals are transmitted to the blocks by sound and light control through photodetectors at the touch of the artist’s fingers with the caps on them and the keys on the monitor screen.

 A well-known technical solution allows the performance of a light musical piece by a performer based on a score.

The disadvantages of the known technical solutions are:
- color accompaniment is provided for only one electronic musical instrument,
- color reproduction of the score by an optical device is tied to the corresponding keys for reproducing sound, which excludes the possibility of creative improvisation by the performer with light accompaniment,
- a light-reproducing device tied to a specific place does not provide spatial perception.

 A color-musical device is known, which includes a multi-section screen, in each section of which five multi-colored light sources and a sound source are installed, and a light source control device with an audio signal converter on frequency filters with amplifiers installed at the output of the musical instrument’s reproducing device, which is connected through matching blocks to light sources in sections of the screen. A sound reproducing device is also connected to a sound source in sections of the screen [4].

 The proposed multi-sectional screen design allows you to play complex, color-rich compositions, increase the entertainment and emotional impact of light music.

The disadvantages of the known technical solutions are,
- limitation of the light reproduction of sound by the screen frames and the limited spatial perception of light music,
- purely automatic conversion of sound into color according to a given program.

 Known closest to the claimed technical solution, selected as the closest analogue, the system of acoustic and light accompaniment of music "Prometheus - 2" raster type [5], in the form of a transparent screen with 120 cassettes located on the back side, each of which has 5 lamps incandescent. There are five control panels for five-color lamps with a keyboard. In addition, each of the lamps has its own button on the control panel of the corresponding color. The control units on the remote controls are made on autotransformers. The color compositions of the accompaniment of music are formed by five operators according to the score. Sound sources (loudspeakers) are located in the hall and are not tied to light sources.

 The known system allows you to abandon the automatic conversion of sound into color and provide light accompaniment of music by operators according to the score, taking into account the type and compositional features of the musical work and the individual creative capabilities of the performers.

A large screen (120 m ² ) with a large number of lamps (600 pcs) of various colors provides the ability to create complex and capacious color combinations, positively affects the level of emotional perception of light music.

 A disadvantage of the known system of light and acoustic accompaniment of music is its limited screen, the result of which is a unidirectional color-light effect that does not create spatial perception.

 Another disadvantage of the known system is the lack of spatial movement of sound during the formation of moving color compositions, which destroys the feeling of a causal relationship between sound and light.

 The objective of the invention is the creation of a system of light-acoustic design of the light and music hall, providing a multidirectional spatial effect of perception and spatial movement of the acoustic and light accompaniment of music.

 The task is achieved due to the fact that when using the signs characterizing the well-known system of light-acoustic design of the light and music hall, which includes a screen with cells for light and / or sound devices and a control panel for turning on these devices, in accordance with the invention, the hall is made in spherical or dome-shaped building structure, assembled from self-supporting frame structural elements, which are cells for placement of light and / or sound devices and the screen covering the entire inner surface of the sphere or dome, the control panel for controlling light and / or sound consists of control panels that correspond to the number of colors and / or instruments of a musical orchestra and are made in the form of two circles or an ellipse representing the surface of two hemispheres similar to the geographical a map separated by lines, similar to lines of latitude and longitude, into cells corresponding to cells of self-supporting elements of a sphere or dome, each of which is equipped with a corresponding color gamut and / or musical instruments by the number of light and / or sound devices connected by wire connection to their corresponding cells on the control panel panels for the corresponding color or instrument and which are microswitches for the cells of the supporting structural elements, each light panel being connected to a power source , and each sound panel with a sound reproducing device of a musical instrument, in particular, an electric instrument.

 The preferred embodiment of the light-acoustic design system for the light and music hall involves the implementation of self-supporting structural elements of a building structure in the form of frame frames in the form of regular hexagons, divided into six cells in the form of regular triangles, provided with a coating of transparent material, each of which has six-color lamps and speakers, the control panel consists of six panels with microswitch cells for lamps of the corresponding color and six panels with i microswitches for six musical instruments, while the microswitches are made in the form of touch switches.

 The hall is spherical or dome-shaped in the form of a structure made of self-supporting frame elements, which are cells for placing light and sound devices and form a screen that covers the entire inner surface of the sphere or dome to the maximum extent possible to comprehensively create color and acoustic images of musical accompaniment, from all sides aimed at person, and create the maximum effect of spatial perception of light music. At the same time, the installation in each of the cells of light and / or sound devices in an amount corresponding to the accepted color gamut and / or the number of main musical instruments in the orchestra allows the formation of capacious and complex color and acoustic images that provide high efficiency of aesthetic and emotional effects on people.

 The implementation of the control panel of light and / or sound in the form of panels, the number corresponding to the number of colors and / or basic tools having two circles or an ellipse representing the surface of two hemispheres similar to a geographical map, divided by lines into cells corresponding to cells of self-supporting elements of a sphere or dome, being microswitches allows operators to control a large number of light and sound devices, organizing an orchestra of color and acoustic accompaniment similar to musical orchestra. At the same time, performers can play according to the score or improvise, showing their individual creative abilities. Such live accompaniment provides, in comparison with the automatic conversion of sound into light, a significantly higher emotional and aesthetic impact on a person.

 Placing light and sound devices in the cells forming the spherical screen and connecting them in accordance with the light-acoustic images formed by the performers ensures constant movement of both light and sound in the sphere and does not destroy the perception of the causal relationship between music and light.

 The system, characterized by the combination of features of the auxiliary paragraph of the formula, provides an optimal version of the assembly of the hall from the same standard-sized self-supporting elements and the optimal placement of light and sound devices in them.

 The claimed technical solution is considered in the drawings, which show: in FIG. 1 is a block diagram of a system of light and acoustic accompaniment of music; FIG. 2 - a control panel with fields of microswitches and two hemispheres with corresponding microswitches cells of the supporting structure, in FIG. 3 is a general view of the construction of a light and music hall of a spherical shape, in FIG. 4 is a panel of a control panel with an ellipse-shaped field of touch switches and an indication screen in the form of two circles, in FIG. 5 - frame-frame supporting structure of the sphere, in FIG. 6 - cells of the supporting structure with light and sound devices.

The system of light and acoustic design of the light and music hall in FIG. 1 includes a light control panel 1 and a sound control panel 2. Light control panel 1 is powered by a single power supply 3 and contains six control panels 4 ¹ - 4 ⁶ for six colors of light devices, each of which has an ellipsoidal field of touch switches (FIG. . 4), whose number corresponds to the number of light devices of one color, and the display screen 5 ¹ - May ⁶ in the form of two circles, hemispheres field representing cells with LEDs, the number and arrangement of which corresponds to the number and arrangement of CBE ovyh devices in the room. Each of the panels will also contain the sensitivity control of the sensors 6 ¹ - 6 ⁶ and the lamp power control 7 ¹ - 7 ⁶ . All touch switches through a power amplification unit 8 are connected by wire connection with light sources 9 of the corresponding color in the hall.

The sound control panel 2 also contains six control panels 10 ¹ - 10 ⁶ , each of which is connected to the sound reproducing device 11 ¹ - 11 ^{6 of the} six main electronic musical instruments and has touch switch fields and indication screens 12 similar to console 1 with the number of touch switches and LEDs and their location corresponding to the number and location of sound devices in the hall. Each panel also contains a sensor sensitivity control 13 ¹ - 13 ⁶ and a sound power control 14 ¹ - 14 ⁶ . All touch switches through low frequency amplification units 15 ¹ - 15 ⁶ are connected by wire to audio devices 16 in the hall. The block diagram is made of standard nodes and elements using known means and methods of communication between them.

 The light and music hall has the shape of a sphere (Fig. 3), assembled from hexagonal self-supporting frame elements 17 (Figs. 3, 5, 6), which are cells for accommodating six multi-colored light sources 9 and loudspeakers 16 in each, connected to the microswitches of the control panels.

 Light and acoustic accompaniment of music is performed by six operators on six color panels of the light control panel and six operators on six panels of the sound control panel by covering individual zones of the sensor fields. In this case, the operators - performers form an orchestra of light and acoustic accompaniment, similar to a musical orchestra. Cells of self-supporting structural elements with light and sound devices form a screen covering the entire inner surface of the sphere, which allows the formation of capacious light and sound images of any complexity. Performance can be carried out both on a score and through improvisation, which provides the possibility of a creative approach taking into account the type of musical work, its compositional features, as well as the individual abilities of the performers.

 The continuously changing effect of the hands of the performers on the zones of the sensor fields of the control panels ensures the constant movement of light and sound along the inner surface of the sphere with the formation of various light-acoustic images in various places of the sphere, which provides spatial color and acoustic effects on the human organs of vision and hearing, creating the perception of light music.

 The technical solution with the claimed combination of distinctive features is currently not known in the Russian Federation and abroad and meets the requirements of the "novelty" criterion.

 The claimed technical solution is original, involves non-traditional ways of solving the problems of light-acoustic design of a light and music hall, does not follow obviously from the existing level of technology and meets the requirements of the criterion of "inventive step".

 The claimed technical solution can be implemented industrially using well-known technical means, technologies, materials and components, can be widely used in the field of show industry and meets the requirements of the criterion of "industrial applicability".

 Sources of information.

 (1) Auth. USSR certificate 695162, MKI A 63 J 17/00, 1973.

 (2) Auth. USSR certificate 1017355, MKI A 63 J 17/00, 1983.

 (3) Auth. USSR certificate 1159586, MKI A 63 J 17/00, 1985.

 (4) Auth. USSR certificate 1465063, MKI A 63 J 17/00, 1989.

 (5) B.M. Galeev Light Music Instruments, Radio and Communications, 1987.

Claims (1)

 The system of light-acoustic design of the light and music hall, which includes a screen with cells for light and / or sound devices and a control panel for turning on these devices, characterized in that the hall is made in the form of a spherical or dome-shaped building structure assembled from self-supporting frame structural elements that are cells for placement of light and / or sound devices and forming a screen covering the entire inner surface of a sphere or dome, a remote control for controlling light and / or sound with stands from control panels, in terms of the number of colors and / or basic instruments of a musical orchestra and made in the form of two circles or an ellipse representing the surface of two hemispheres similar to a geographical map, divided by lines similar to lines of latitude and longitude into cells corresponding to cells of self-supporting elements of the sphere or domes, each of which is equipped with a correspondingly accepted color gamut and / or musical instruments by the number of light and / or sound devices connected by wire communication with the corresponding cells on the control panel panels for the corresponding color or instrument and which are microswitches for the cells of the supporting structural elements, each color panel being connected to a power source and each sound panel to a sound reproducing device of a musical instrument, in particular an electric instrument.

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