SU1026821A1 - Light effect control device - Google Patents

Abstract

A LIGHT EFFECT CONTROL DEVICE, containing sources of primary colors, connected to a radiation intensity control unit, and a control lever, characterized in that, in order to increase control efficiency, it has flexible rods, and the radiation intensity control unit is provided with mechanical contacts, mechanically connected to one end-flexible m, and the other, the ends of which are fixed on the control lever. / j // y // j // CO with

Description

f The invention relates to a device for controlling light effects and can be used to create stage effects.

A light effect control device / containing inaccurate primary colors, connected to a radiation intensity control unit - and a control lever. The disadvantage of the known device is the low control efficiency.

The purpose of the invention is to increase management efficiency.

The goal is achieved by the fact that the light effects control device containing primary color sources, connected to the radiation intensity control unit, and the control lever, has flexible rods, and the radiation intensity control unit is provided with mechanical contacts mechanically connected to one end of the flexible t g, the other ends of which are fixed on the control lever. .

FIG. 1 shows a diagram of the device; in fig. 2 - fastening flexible bends to the lever using an end knot; in fig. 3 - one of the possible variants of the end nodes.

The device contains a loose control lever 1, three flexible rods 2, an elastic rod 3, guide holes and / or rollers 4, three independent assemblies. 5 controls the intensity of the primary colors, three sources of primary colors and the mixer 7 colors. When lighting various objects (scenes, objects in question, etc.), colors can be shifted directly on them. The radiation intensity control unit consists of nodes 5 controlling the intensity of the primary colors.

The loose control lever 1 is connected by means of flexible pipes 2 through guide holes and rollers 4 to three independent nodes 5 controlling the intensity of the primary colors. Each of these blocks is associated with one of the sources 6 primary colors. The luminous flux, reflected from the color mixer (or passed through iero) gets to the observer. Bending t ha 3 supports lever 1, compensating for its weight.

The lever 1 is a hollow tube, one of the ends of which is a konug constricted so that the openings of the different ends of the tube have a different diameter. The smaller diameter is chosen so that three flexible rods can be passed through it, but the end knot does not pass. Larger diameter is selected

such that the end node passes through it.

When connecting the lever 1 to the flexible gas pipes, the latter are passed through through the lever 1 from the side of the smaller opening. After this, they are twisted into a single bundle, on which the end knot is performed. Preferably, knotting is done as shown in FIG. 3, however, other types of end nodes are possible. After the end assembly has been completed, it is pulled into lever 1 until a cone-shaped constriction is achieved, thereby securing the flexible bars 2, to the arm 1. The elastic bar 3 (Fig. 1) is not an essential part of the device, it is attached to the arm 1 to increase operator convenience, however, the device can function without it. If, however, an elastic mt 3 is included in the device, then it is twisted into a single bundle with flexible mi 2

(Fig. 1 and 2). I

With three nodes 5 controlling the intensity of the primary colors (Fig. 1) lever 1 by means of flexible tg, which can be a cable t a fishing line, a nylon cord, etc. One end of each of the three flexible tg is attached to lever 1, and the second end to the position sensor of one of the three nodes, 5 devices. Each tube is passed through a system of directing 4 holes (one for each ton) and rollers 4 (Fig. 1 The guide holes are made in the top cover of the device (Fig. 1). Holes 4 are spaced apart from each other, as shown in Fig. 1 This allows, by moving the lever 1 over the top of the device (Fig. 1), to change the positions of the thrust position sensors of all three simultaneously, and in pairs and one by one independently, in accordance with the desire of the operator.

Note that the color mixing prog: comes from the mixer (Fig, 1). Three independent units 5 of the device establish independent control of the intensity of the three sources of main color 6 (Fig. 1).

Thus, by moving the lever 1 in the three-dimensional space above the upper lid of the device with three guide holes 4, it is possible by means of flexible 2 to independently act on any of the three thrust position sensors, which through the device node 5 independently control three independent sources primary colors. The light from them, the passage through the mixer gives a total luminous flux of arbitrary intensity and color depending on the operator's desire, which is expressed in the choice of the corresponding position of the lever 1 in the space above the top cover of the device, which is what controls the mixing of colors in the mixer 7. The device works as follows. The operator, moving to the spaces the lever 1, by means of flexible tracts r 2 acts on three independent nodes 5 of the primary / color intensity control, which control the intensity of the primary color sources. Light from sources of primary colors gets on the mixer of 7 colors and goes to the detector. It is known that light of any color and intensity can be obtained by mixing three beams of light corresponding to the intensities of the three primary colors. Therefore, the light of any specific intensity and color naturally corresponds to a certain point in three-dimensional space, the coordinates of which depend on the intensities of the three primary colors. This principle is implemented in the proposed device Unregulated peptar 1 can be freely moved in a limited space with the device. At this different positions of the end of a free Eazchaga 1 connected with independent nodes 5 of controlling the intensity of sources of three primary colors through flexible tons of r 2, There are different combinations of intensities of sources of b three primary colors, which in turn correspond to different colors and intensities of light coming from the mixer 7, a similar effect can be achieved using other three-way manual control device. The proposed device has several advantages: the operator controls the color light source with one hand, the device realizes a simple and close correspondence between the position of the unlocked control lever 1. and the color of the output light, which makes it easy to transfer color associations creatively and control speed, easy to manufacture, provides the convenience of the operator. As the tests have shown, for more precise control, to create floats of color transitions, it is desirable to reduce the weight of the bag, minimize its working movement and increase, within reasonable limits, the amplitude of these movements. The use of the present invention improves control efficiency.

Claims (1)

DEVICE FOR CONTROL OF LIGHT EFFECTS, containing primary color sources connected to the radiation intensity control tree, and a control lever, characterized in that, in order to increase the control efficiency, it has flexible rods, and the radiation intensity control unit is equipped with mechanical contacts mechanically connected to one ends'-flexible rods, and the other ends of which are fixed on the control lever. SU „„ 1026821 I